This NASA Earth Observatory article explains how aerial imagery and remote sensing (including from drones) contribute to environmental monitoring. It introduces students to concepts like spectral bands and atmospheric transparency, showing how different materials reflect or absorb light differently. By understanding these spectral signatures and using sensors, drones can assess vegetation health and other Earth surface features – skills relevant to Earth science and precision agriculture.

A science news article for students about emerging technology that turns ocean waves into electricity. It describes engineers’ efforts to harness wave power with devices like a “wave carpet” and how much energy the oceans could provide. Reading this piece helps learners connect physics and engineering concepts to real innovations, enhancing comprehension and showing creative career paths in renewable energy research and marine engineering.

Outlines six common leadership styles (autocratic, democratic, etc.) and explains how each approach influences teams.

This TEDEd video explores the fascinating (and slightly scary) question: could a black hole ever consume Earth? Along the way, it explains what black holes are, how their intense gravity works, and why Earth is safe from being swallowed. Viewers learn about event horizons (the 'point of no return' around a black hole) and the importance of distance in space. By answering a dramatic question, the video teaches core physics and astronomy concepts, inspiring curiosity about cosmic phenomena and even careers in space science.

**Think Like A Coder** is an animated story series that teaches programming concepts through adventure. In Episode 1, *“The Prison Break,”* a girl named Ethic and her robot companion must escape a cell by solving puzzles using logic and coding principles:contentReference[oaicite:16]{index=16}. This video introduces loops and sequence in a fun narrative format. It’s a short, story-driven way to start thinking like a programmer – perfect for those who enjoy storytelling while learning tech.

Why do cookies smell and taste so good? This animated TED-Ed lesson breaks down the science of baking cookies from the moment you put dough in the oven. It covers how the dough spreads, the temperature at which harmful bacteria are killed, and the Maillard reactions that create the mouth-watering aroma and browning. A delicious blend of basic chemistry and cooking know-how that explains it’s not magic – it’s science.

Follows the end-to-end manufacturing process of a basic T-shirt in a large factory setting. The video begins with large rolls of knit fabric (often cotton jersey) and shows how shirts are cut in bulk using layered fabric and cutting machines or lasers following pattern outlines. Next, it covers the sewing assembly line where different parts (front, back, sleeves, collar) are stitched together by specialized sewing machines and workers in sequence. Screen printing or tag printing may be demonstrated if logos or labels are added. Finally, viewers see finishing touches like quality inspection, thread trimming, and packaging. This gives learners an appreciation of industrial garment production, highlighting how technology (like CAD pattern software and automated cutters) and skilled labor combine to produce the clothes we wear daily. Understanding this workflow is valuable for those interested in apparel design, textile business, or industrial engineering as it applies to clothing.

Ever notice that the money you're saving buys less each year? This video tackles that problem – inflation – in a high-energy, teen-friendly way. It explains why prices tend to rise over time and how inflation slowly eats away at the purchasing power of your cash. Viewers learn why earning raises or getting returns on savings is important, and what you can do to keep up with rising costs. Understanding inflation is a key skill for future financial planning and economics careers, and this video makes the concept easy to grasp by showing how to live with – and outsmart – the 'money-eating' effect of inflation.

Could humans really move to Mars? This animated lesson examines what it would take to live on the Red Planet. It explores Mars’s harsh environment—freezing temperatures, thin carbon-dioxide atmosphere, intense radiation—and the challenges of getting essentials like oxygen and water. Viewers learn what daily life might look like in a Mars colony and what technologies (or even terraforming) would be needed to make Mars more Earth-like. It’s a great blend of science and engineering, inspiring those interested in space travel or careers in astronomy, astrobiology, or aerospace engineering.

What kind of leader are you? Crash Course explains different leadership styles and how you can develop your own.

Making your first game can be hard. This animated video offers simple, no-nonsense advice on starting small, staying focused, and finally creating a game you can be proud of.

Explains the science and challenges of turning seawater into fresh drinking water. This short animation details why desalination isn’t widespread – covering salt removal methods, the high energy costs, and environmental impacts involved. Learners gain insight into global water scarcity and the engineering innovations needed to solve it. Skills: understanding a practical environmental technology and evaluating its pros/cons. Applications: connects to real-world issues of water resources, encouraging discussions on sustainable solutions and careers in environmental engineering.

Highlights five major ways human activities harm the environment and degrade crucial ecosystem services. Learners explore issues like deforestation, desertification, climate change, invasive species, and overharvesting through engaging visuals. Skills: recognizing cause-and-effect relationships and critical thinking about human-environment interactions. Applications: provides real-world context for ecology and conservation topics, inspiring discussions on sustainable practices and environmental policy careers.

Explores propaganda, misinformation, and the dark side of media – crucial knowledge for media-literate citizens.

Hackers may not be who you think they are. This short video reveals the different kinds of hackers — from inventive “white hats” to malicious “black hats” — and shows how hacking can be used for both good and evil.

In **Minecraft: Voyage Aquatic**, you’ll learn coding by guiding a Minecraft character through ocean puzzles. This Hour of Code interactive module has you drag-and-drop code blocks (like loops and conditionals) to explore and solve tasks in a Minecraft underwater world:contentReference[oaicite:13]{index=13}:contentReference[oaicite:14]{index=14}. With each level, you build your skills – from navigating a boat to catching underwater creatures. It’s a fun, self-paced way to dive into programming fundamentals with a Minecraft twist.

In this inspiring TEDx talk, Eduardo Briceño explores how adopting a growth mindset can lead to personal success. He explains that believing abilities can be developed – rather than seeing them as fixed – unlocks your potential to improve:contentReference[oaicite:7]{index=7}:contentReference[oaicite:8]{index=8}. Through real-life examples, you’ll learn how embracing challenges, persisting through setbacks, and loving learning can boost your achievements. It’s a motivating guide to why mindset matters for self-improvement.

A thought-provoking TED talk by Tony Fadell (creator of the iPod and Nest thermostat) about how we become accustomed to minor design flaws and how important it is for designers to notice those everyday annoyances. Fadell shares personal stories and examples to illustrate how observing small frustrations can inspire innovative design solutions. This short talk encourages aspiring designers to stay curious, observe the world with fresh eyes, and continuously seek opportunities to improve user experiences in the simplest things around us.

A real-life experiment illustrating the bystander effect and empathy in action. Viewers see how individuals react when someone needs help in a public setting, and learn why people sometimes fail to act. Through this video, learners gain insight into social psychology and human behavior, and discover skills like empathy and leadership that can empower them to become proactive upstanders in their communities.

Before we talk AI, we need to understand the basics. This short TED-Ed lesson explains what algorithms are and why they matter — laying the foundation for understanding how AI decision-making works. Great for anyone new to computational thinking.

Uses psychology to explain why our brains believe false information and how fake facts gain traction.

Tim Urban’s hilarious TED Talk takes you inside the mind of a master procrastinator. With relatable storytelling, he explains the mental battle between the “Instant Gratification Monkey” and the “Rational Decision-Maker” that causes us to delay important work:contentReference[oaicite:6]{index=6}. The talk offers a wake-up call about facing procrastination before time runs out. It’s an engaging look at why we put things off and a motivating nudge to start conquering those bad habits.

A 7-minute PBS NewsHour clip examining a program that prepares inner-city high school students for advanced manufacturing careers. Economic correspondent Paul Solman visits a training program where teens learn high-skill, high-paying factory job skills to help fill the manufacturing labor gap:contentReference[oaicite:0]{index=0}:contentReference[oaicite:1]{index=1}. Viewers learn about the looming shortage of manufacturing workers and see how real students gain hands-on technical training (like machining and robotics) while still in high school:contentReference[oaicite:2]{index=2}:contentReference[oaicite:3]{index=3}. The segment highlights career-readiness skills, the value of vocational education, and how early training can lead to well-paid manufacturing jobs. It connects classroom learning to industry needs, showing the relevance of STEM and technical skills in the modern workforce.

An animated lesson examining narcissism from a psychological perspective. Learners will learn what characterizes narcissistic personality traits and how they develop, as well as the impact of narcissism on behavior and relationships. This engaging video builds understanding of personality psychology and mental health, highlighting skills for recognizing traits and discussing self-improvement or empathy in social contexts.

A clear, compassionate overview of major depressive disorder. This animated lesson debunks myths and outlines symptoms, causes, and treatments of depression. Learners will gain empathy and knowledge about mental health, learning how depression affects thoughts and behavior and why seeking help is important. It builds awareness and reduces stigma, providing life skills around mental well-being and supporting others.

In this eye-opening TED talk, former Google design ethicist Tristan Harris reveals how technology companies use manipulative design techniques to capture our attention. He explains subtle UX tricks in apps and websites—from autoplaying videos to intermittent rewards (like pull-to-refresh)—that exploit psychological vulnerabilities and keep users hooked. This talk highlights the ethical responsibility of designers and urges the industry to align technology with users’ best interests, making it a must-watch for understanding the line between persuasive design and exploitation.

Shares three essential questions that future leaders should ask themselves, based on 25 years of observing great leaders.

A free self-paced virtual experience program created by the data science company Quantium. Participants step into the role of a data analyst, working through realistic tasks such as cleaning and analyzing a retail dataset, identifying customer purchasing behaviors, and generating business recommendations. This interactive provides hands-on practice with data validation, visualization, and analysis in a real-world context, allowing learners to build practical skills and confidence while earning a certificate for completing the program.

This concise article provides a beginner-friendly overview of Industry 4.0 – the fourth industrial revolution – and what it means for manufacturing. It explains how modern factories are integrating digital technologies like the Internet of Things (IoT), artificial intelligence, cloud computing, and robotics to create 'smart' production systems. Readers will learn how machines now communicate and make decentralized decisions, enabling more efficient, customized, and flexible manufacturing processes. The article also touches on the benefits (higher productivity, predictive maintenance, reduced downtime) and challenges (cybersecurity, skill gaps) of Industry 4.0. After reading, students will understand the buzzword 'Industry 4.0' and recognize how advances in tech are transforming the way things are made in the 21st century.

This animated TED-Ed video demystifies the truth about **cholesterol** and heart health. It starts with a hook – clarifying common myths about fatty foods – then dives into how cholesterol travels in your blood and can build up in arteries:contentReference[oaicite:33]{index=33}. You’ll learn the difference between “good” HDL and “bad” LDL cholesterol and what actually causes dangerous plaque. With engaging visuals, it shows how diet, exercise, and even genetics affect cholesterol levels. It’s a concise, easy-to-understand explanation of a critical health topic that every student should know.

A visually engaging video that explores how vertical farming works and why it’s revolutionizing agriculture in cities:contentReference[oaicite:22]{index=22}. Narrator Fred Mills takes viewers inside a modern indoor farm where crops grow in stacked layers under LED lights and controlled climate conditions. Students will discover the benefits of growing food 'up' instead of out: year-round production, drastically less water use, no pesticides, and proximity to urban markets. The video breaks down the technology – from hydroponic nutrient delivery to automation – that allows plants to thrive without soil or sunlight. By examining both the promises (fresh produce with a tiny land footprint) and challenges (energy costs of artificial lighting) of vertical farms, learners gain insight into a key agritech innovation aimed at feeding the future sustainably.

An informative animation (featured on TED-Ed) that explains the alarming decline of honeybee populations and why it matters:contentReference[oaicite:33]{index=33}. With engaging visuals, it outlines factors causing colony collapse disorder: parasitic mites, widespread pesticide use, habitat loss, and diseases:contentReference[oaicite:34]{index=34}. Students will learn how vital bees are to agriculture – pollinating about $265 billion worth of crops annually – and what a world without enough bees could mean for our food supply. The video also highlights human actions being taken to help bees, like changes in farming practices and conservation efforts. This science story not only teaches biology and ecology concepts (pollination, ecosystems) but also inspires problem-solving for environmental challenges, emphasizing that protecting bees is crucial for our future food security.

An animated exploration of what really causes muscle fatigue during exercise. Going beyond the old myth of “lactic acid = soreness,” this lesson shows learners how factors like ion imbalances and energy depletion make muscles stop working. It builds understanding of exercise physiology: students learn why their arms burn after lifting weights or why they can’t sprint forever. Equipped with this knowledge, they can appreciate proper rest and nutrition in training. It’s an engaging science explanation that reinforces biology concepts in the context of fitness.

Neuroscientist Wendy Suzuki delivers an inspiring talk on how physical exercise improves brain function. Learners will find out that workouts don’t just build muscles—they strengthen memory and learning by growing new brain cells and connections. She explains how regular exercise lifts mood, sharpens focus, and protects the brain against aging and diseases. This engaging talk motivates students by linking exercise to academic and mental benefits, encouraging them to get moving to become both healthier and smarter.

Step into a Hollywood producer’s shoes with a $100 million movie budget in this interactive game. To make your film successfully, you’ll answer personal finance questions and make wise spending choices for casting, crew, and more. The game builds real-world money management skills like budgeting and financial planning under pressure, all while you try to create a blockbuster. It’s a fun, project-based way to practice financial literacy, showing that mastering a budget is key whether you’re running a household or a movie studio.

In this quick, free game, you become the 'bad guy' lender to learn about predatory loan tactics from the inside. As a newbie loan shark working for Shady Sam, you choose loan terms to maximize profits off unsuspecting borrowers. Through retro 8-bit visuals and engaging gameplay, the shows how high interest rates, hidden fees, and long repayment periods trap borrowers in debt. It's a fun way to understand how dangerous loans work and why it's important to read the fine print — an eye-opener for anyone managing credit or considering loans in real life.

Why are games so compelling? This Crash Course video explores the psychology behind gaming, revealing how game elements captivate players and what makes games so engaging.

An online toolkit and set of practices from Microsoft that teaches how to design for inclusivity and accessibility. It introduces inclusive design principles, provides activity cards, and real-world examples of designing for people with diverse abilities. The toolkit encourages designers to recognize exclusion, learn from people’s varying needs (e.g., situational, temporary, or permanent disabilities), and come up with solutions that work for a wider range of users. This resource helps build empathy and practical skills for creating digital products that are accessible and usable by all.

A short showcase of FarmBot – the world’s first open-source CNC farming machine – and how it automates gardening. FarmBot is like a giant 3D printer for plants: it moves across a garden bed on rails, sowing seeds, watering plants, and even weeding with precision. This video highlights how FarmBot can be used in backyards, schools, and research to demonstrate precision agriculture on a small scale:contentReference[oaicite:36]{index=36}. Students will see the robot in action and learn how it’s controlled by software and customizable hardware, all shared openly so anyone can build or modify their own. By integrating robotics, coding, and agriculture, FarmBot makes growing food a hands-on STEM learning experience. This content inspires learners to imagine new DIY technologies for sustainable farming and shows how open-source innovation is empowering a new generation of urban and hobby farmers.

A TED-Ed lesson that investigates the differences between traditional farm-raised meat, plant-based meat alternatives, and lab-grown cultured meat:contentReference[oaicite:31]{index=31}. Narrator Carolyn Beans breaks down how each type is produced and compares their nutritional profiles and environmental impacts. Learners will find out, for example, how plant-based burgers mimic meat using proteins from peas or soy, and how scientists are growing real animal muscle cells in bioreactors as “cultivated” meat:contentReference[oaicite:32]{index=32}. The video analyzes health considerations (like saturated fat content and additives) and asks whether these new options are actually better for us and the planet. By presenting balanced facts and debunking misconceptions, it equips students to critically evaluate food tech innovations and consider how our dietary choices connect to sustainability and health.

This stunning visual explanation of how neural networks work brings the math and magic of AI to life. While math-heavy, the visuals make it engaging for curious high schoolers wanting to peek under the hood of how AI ‘thinks’.

Take a quick tour of our Solar System with this National Geographic 101 video. It introduces the Sun and the diverse family of objects orbiting it: the rocky inner planets, the gas giants, dwarf planets like Pluto, and smaller bodies like asteroids and comets. In just a few minutes, viewers get key facts about each planet (size, composition, rings, moons) and learn how the solar system formed from a cloud of dust and gas. This overview builds a foundation for understanding astronomy and space exploration, and shows how these basic facts are applied in careers from planetary science to aerospace.

A behind-the-scenes tour of a modern textile dyeing facility that balances high-volume production with sustainability. Viewers see thousands of yards of cotton fabric being dyed in huge machines that carefully control temperature, chemistry, and water usage. The video highlights innovations like eco-friendly dyes, water recycling systems, and energy-efficient processes that drastically reduce the environmental footprint compared to traditional dyeing. Learners will understand the steps involved: from pre-treating fabric, mixing dye baths, to post-dye drying and quality checking. This content underscores the importance of materials science and environmental engineering in textile technology—showing that large-scale manufacturing can evolve to be cleaner and more responsible while delivering vibrant, colorfast fabrics.

A tutorial video explaining the Polymerase Chain Reaction (PCR), a core biotechnology technique. Students learn how PCR works to amplify DNA segments, including the roles of primers, DNA polymerase, and temperature cycles. By visualizing each step, learners grasp how PCR enables forensic DNA tests, medical diagnostics, and genetic research, building their lab technique knowledge and career awareness in molecular biology.

A discussion and explainer on making the fashion industry more sustainable. This segment defines sustainable fashion and contrasts it with 'fast fashion.' Viewers learn about the environmental and social issues caused by traditional clothing production—such as water pollution from dyeing, textile waste in landfills, and poor labor conditions. Experts and hosts introduce concepts like slow fashion (buying fewer, higher-quality clothes), recycling garments, using organic or eco-friendly materials, and fair trade practices. Learners come away with key terms and ideas for reducing fashion’s footprint: from upcycling old clothes to supporting brands that prioritize ethical manufacturing. This content ties together the technology and processes discussed in other pieces with their real-world impact, encouraging critical thinking about how innovation can lead to a more responsible textile industry.

Explores the advanced textile and material technologies that keep astronauts safe in the vacuum of space. This video breaks down the multilayered structure of a modern spacesuit, explaining the purpose of each textile layer: from the tough, white outer fabric (which resists micrometeoroids and sunlight) through insulation layers, to the inner comfort liner. Viewers learn about specialized materials like Kevlar (for strength), Mylar (for insulation and thermal control), and Gore-Tex or other membranes that help manage moisture. By examining a space suit, learners see how engineers solve extreme challenges—radiation, temperature swings, lack of air—using innovative fabrics and design. Skills and concepts covered include understanding properties like tensile strength, flexibility, and thermal resistance in textiles. The video shows an exciting application of textile technology in aerospace, illustrating how critical advanced fabrics are beyond fashion—literally lifesaving in this case.

A quick introduction to the world of smart textiles—fabrics that have electronic or functional components embedded in them. This video explains how clothing can be made 'smart' by integrating sensors, conductive threads, or microcontrollers directly into the material. Examples include workout shirts that measure heart rate, jackets with built-in heating elements, or color-changing fashion enabled by technology. Learners will discover the interdisciplinary nature of smart textiles, combining traditional textile design with electronics and computer science. The applications discussed range from health-monitoring apparel and responsive sportswear to inventive e-fashion, highlighting how this field is shaping the future of clothing.

Reveals the step-by-step process of creating polyester, one of the most widely used synthetic textiles. The video starts at the source – showing how polyester originates from petroleum – and follows through the chemical reactions that produce plastic pellets. Viewers then see how these pellets are melted and extruded through spinnerets to form long, continuous filaments (essentially making synthetic fibers). These fibers are cooled, drawn into yarn, and eventually woven or knitted into fabric. The explanation demystifies terms like PET (polyethylene terephthalate) and discusses why polyester is so durable and wrinkle-resistant. Learners grasp the chemistry and engineering behind turning crude oil into soft cloth, which underscores the role of chemical engineering in the textile industry.

A fascinating look at recycling technology, following a massive textile factory that converts used plastic bottles into wearable polyester fabric. The segment shows mountains of collected PET bottles being cleaned, shredded into flakes, and then melted into new polyester fibers. Viewers watch as these recycled fibers are spun into yarn and then woven into sheets of cloth, ready to become new garments. The video emphasizes the environmental benefits—keeping plastic out of landfills and reducing the need for raw petroleum—while also showing the quality of the resulting fabric. Learners gain insight into sustainable textile practices and the innovation involved in closing the loop between plastic waste and fashion. This content highlights career intersections between environmental engineering and textile manufacturing, demonstrating how the industry is tackling waste through technology.

A brief video profile of Neesa Nelson, a high school senior passionate about designing and engineering 3D models in her CAD class. Neesa shares her enthusiasm for 3D modeling and how working on 3D printing projects at school inspires her creativity and future goals in education.

An educational webpage explaining what renewable energy is and overviewing its types (solar, wind, biomass, hydro, geothermal) in clear, student-friendly language. It provides current data on how much energy comes from renewables and why they’re important for the environment. Learners build foundational knowledge and vocabulary about sustainable energy, preparing them for deeper studies or green energy initiatives and careers.

A 3D for exploring molecular geometry by adding bonds and lone pairs around a central atom. Students can construct molecules and see how the shape changes (linear, bent, tetrahedral, etc.) as electron domains repel each other. The sim also lets you compare your models to real molecules, visualizing concepts of VSEPR theory in an interactive way.

An interactive tool to test the pH of everyday liquids like coffee, spit, and soap to determine whether each is acidic, basic, or neutral. Visualize the relative concentration of H⁺ and OH⁻ ions in solution, and even experiment with dilution and volume changes to see their effect on pH. The ’s easy, hands-on approach demystifies the pH scale and indicators.

This Crash Course episode tackles stoichiometry — the quantitative relationships in chemical reactions — in a fun, relatable way. Hank explains why chemists use stoichiometry “to make the scale of chemistry more understandable” and teaches how to calculate moles, masses, and molecules in reactions. By the end, you’ll see how to predict amounts of products and reactants using basic stoichiometric ratios.

A CrashCourse Engineering video surveying major renewable energy sources and why we need them. It covers how solar, wind, hydropower, and geothermal energy work, plus challenges engineers face in expanding these technologies. Viewers learn core concepts like how electricity is generated sustainably and develop big-picture understanding of energy engineering, inspiring interest in green tech careers.

“**Dance Party**” is a lively Hour of Code activity where you use block coding to choreograph a dance. This free interactive tutorial lets you snap together coding blocks to make funny characters dance to popular songs:contentReference[oaicite:11]{index=11}:contentReference[oaicite:12]{index=12}. You’ll learn basics like sequencing and events as you create your own animated dance party on screen. It’s a quick, creative introduction to coding that ends with a colorful performance you can share!

In this introductory Scratch coding tutorial, you’ll learn the basics of creating animations and games with **Scratch**. The video walks you through the Scratch interface and shows how to snap together colorful coding blocks to make characters move and interact. Geared toward beginners, it covers fundamental concepts like loops and events in a simple, engaging way. By following along, you’ll build a short project and gain the confidence to start making your own Scratch creations.

Don’t be like Tim! This cautionary animated story follows a guy who casually posts personal info online — only to discover how far and wide his data spreads. A humorous look at why guarding your privacy matters.

The internet is fundamentally insecure — but you can protect yourself. This short, practical video shares simple tips for staying safe online, from using strong passwords to thinking twice before you click.

A thought-provoking science and ethics piece on performance-enhancing drugs in sports. This short video considers what would happen if doping were legalized: Could it level the playing field or make sports dangerous? Learners hear about the physiological boosts from steroids or EPO and the health risks they carry, as well as moral arguments on fairness. This module encourages critical thinking about rules in sports, the definition of enhancement, and how far we should go to achieve human performance gains.

A fun, game-like allowing students to launch various objects (like a cannonball or a tank shell) at different angles and speeds to hit targets. Learners can explore how changing the angle or adding air resistance alters the range and height of the projectile’s parabola. Through this interactive tool, they gain insight into the physics of sports such as football throws or long jumps, practicing predicting and observing projectile paths. It strengthens understanding of gravity, velocity, and angle relationships, all key to sports ranging from basketball to archery.

Data journalist David McCandless demonstrates the power of visualizing complex data in this TED talk. He shares striking, colorful visualizations that uncover unseen patterns and connections in topics ranging from global crises to pop culture trends. The talk emphasizes how good design and visualization can make data more understandable and beautiful, inspiring analysts to present information in ways that reveal insights and engage audiences.

Simulated social network that lets students practice digital citizenship skills in a realistic online environment.

In this CrashCourse Computer Science video, host Carrie Anne Philbin breaks down the **basic building blocks of programming**. You’ll learn about statements, functions, and how computers follow instructions step-by-step:contentReference[oaicite:20]{index=20}:contentReference[oaicite:21]{index=21}. The video uses simple examples to show what coding syntax looks like and how a program executes. It’s a quick conceptual introduction that demystifies what code is and sets you up for success when you start writing your own programs.

NASA’s drone educator guide provides downloadable lesson plans and activities for students to explore drones in aeronautics research. It includes four standards-aligned projects where students design drone propellers, investigate how mass affects a propeller car’s speed, program a robotic ball to navigate a maze, and plan a drone’s flight path to avoid obstacles. This comprehensive resource connects engineering design, math, and coding with real-world drone applications.

This Concorde-like module has been replaced by NASA’s Package Delivery Drone coding activity. Students use Scratch or Snap! to program a virtual drone navigating a geofenced area to deliver a package. The engages learners in computational thinking, problem-solving, and real-world math application as they model drone operations in a safe virtual environment.

This NASA Earth Observatory article explains how aerial imagery and remote sensing (including from drones) contribute to environmental monitoring. It introduces students to concepts like spectral bands and atmospheric transparency, showing how different materials reflect or absorb light differently. By understanding these spectral signatures and using sensors, drones can assess vegetation health and other Earth surface features – skills relevant to Earth science and precision agriculture.

A science news article for students about emerging technology that turns ocean waves into electricity. It describes engineers’ efforts to harness wave power with devices like a “wave carpet” and how much energy the oceans could provide. Reading this piece helps learners connect physics and engineering concepts to real innovations, enhancing comprehension and showing creative career paths in renewable energy research and marine engineering.

Explores Albert Bandura’s famous Bobo Doll experiment and the concept of observational learning. Through this video, learners see how children can learn and imitate aggression simply by watching others, illustrating social learning theory. They gain insight into behavioral science, understanding how role models and media can influence behavior, and build awareness of how observational learning applies to everyday life and habits.

This upbeat documentary segment profiles cutting-edge farm robots that can pick delicate fruit to reduce food waste:contentReference[oaicite:27]{index=27}. Freethink’s Hard Reset series visits Dogtooth Technologies in the UK, where engineers have developed autonomous robots that harvest strawberries gently at night:contentReference[oaicite:28]{index=28}. Students will see how the robots navigate around plants, use machine vision to spot ripe berries, and handle them without bruising. The video discusses why tasks like fruit picking have been hard to automate and how AI and robotics are now overcoming those challenges:contentReference[oaicite:29]{index=29}:contentReference[oaicite:30]{index=30}. By showcasing real working agri-robots, the story highlights career paths in agricultural robotics and invites learners to imagine solutions to labor shortages and food waste through technology. It’s an inspiring look at the future of farming where robots and AI help feed the world.

A beginner-friendly demonstration of proper soldering techniques for electronic components. This short video breaks down soldering into five clear steps, from prepping the soldering iron and components to making a solid solder joint. Viewers see close-ups of how to heat the joint and apply solder for a reliable connection, as well as common mistakes to avoid. By practicing along, learners develop hands-on skills in wiring and repairing circuits—critical for any electrical assembly or repair job. The ability to solder safely and effectively is a fundamental practical skill in electrical professions, from building circuit boards to installing wiring.

Cramming last-minute isn’t effective – so what should you do instead? In this video, Thomas Frank shares smart ways to study for exams:contentReference[oaicite:3]{index=3}. Learn how to spread out study sessions, practice with active recall, and use proven test-taking techniques to improve your performance. These tips will help you feel more prepared and confident walking into exam day, rather than stressed from an all-nighter.

Improve your memory and study smarter with techniques explained in this CrashCourse video. Thomas Frank breaks down how your memory works so you can play to its strengths:contentReference[oaicite:1]{index=1}. Discover strategies like spaced repetition and mnemonic devices to remember more of what you learn and spend less time re-reading notes. Strengthening your memory will boost your confidence and academic performance.

This animated TED-Ed lesson reveals how to practice any skill more efficiently. It hooks you with surprising facts about how our brains build and strengthen neural pathways when we practice correctly. You’ll discover evidence-based practice techniques – like focusing on specific goals and consistent repetition – that musicians and athletes use to improve:contentReference[oaicite:5]{index=5}. By applying these methods, you can get better at anything, from playing an instrument to coding, in less time.

An online quiz that calculates a user’s ecological footprint—estimating how many Earths would be needed if everyone lived their lifestyle. Students input information about their food, home, travel, and consumption habits. The tool then visualizes their environmental impact. Skills: self-assessment and data interpretation. Applications: makes sustainability personal, helping learners identify how daily choices (like diet or transportation) connect to global resource use and inspiring actions to live more sustainably.

Exams can be scary, but this video provides a game plan to beat test-day nerves. Thomas Frank talks about why we feel the “weight of the world” during tests and how that anxiety can hurt performance:contentReference[oaicite:4]{index=4}. Then he walks through relaxation and mindset tips – like breathing techniques and positive self-talk – to help you go into exams feeling calm and confident. Conquering test anxiety lets you show your true abilities.

This CareerOneStop video showcases the wide range of **careers in healthcare**. In just a few minutes, it introduces many roles – from doctors and nurses to lab techs and health informatics specialists – explaining what they do and how they contribute to patient care. You’ll learn about the high demand for healthcare workers and the diverse settings they work in (hospitals, clinics, labs, etc.). It’s a great starting point to see the variety of opportunities in the health science field and what it takes to pursue them.

This challenges you to survive a single month on a tight budget, making tough choices every day. SPENT puts you in the shoes of someone living paycheck-to-paycheck – you’ll decide which bills to pay, what to sacrifice, and how to handle emergencies with limited funds. It’s an eye-opening experience that builds empathy and budgeting skills by showing the hard trade-offs low-income families face. Widely used in classrooms, it’s a powerful lesson in personal finance and social issues, encouraging players to think critically about money and resources.

This classic Nobel Prize game lets you replicate Ivan Pavlov’s famous experiment with a virtual dog. You’ll ring a bell, present food, and observe the dog’s salivation to learn about **classical conditioning**:contentReference[oaicite:27]{index=27}. Over time, you can make the dog salivate with just the bell alone – demonstrating how animals (and people!) can develop automatic responses to new stimuli. It’s a fun, hands-on way to explore a foundational concept in psychology and medicine, using Pavlov’s own methods.

Step into the shoes of a virtual doctor in the **Blood Typing Game**. In this interactive from NobelPrize.org, you must test patients’ blood and correctly match them with donor blood types:contentReference[oaicite:22]{index=22}. You’ll learn about the ABO blood groups and Rh factor as you perform blood transfusions – if you give the wrong type, the patient’s life is at risk! It’s a hands-on way to understand blood types and the science behind safe transfusions, all while trying to save virtual patients.

A 23-minute NASA EDGE program giving an inside look at how NASA uses 3D printing (additive manufacturing) for space exploration:contentReference[oaicite:14]{index=14}:contentReference[oaicite:15]{index=15}. Viewers join NASA hosts Chris and Franklin as they tour cutting-edge projects from the Advanced Exploration Systems Office, seeing how custom parts are 3D-printed for use in rockets and on spacecraft:contentReference[oaicite:16]{index=16}. The episode explores the challenges of printing tools and components in microgravity and the potential to manufacture habitats or equipment off-Earth. Students will learn real-world aerospace applications of additive manufacturing – like weight-saving designs and on-demand part production – and discover how skills in CAD and materials science enable future space missions. This behind-the-scenes look connects advanced manufacturing skills to exciting careers building humanity’s future in space.

Get organized and make the most of your time with this video on planning and organization. Thomas Frank discusses how to set yourself up for success by starting off well-organized:contentReference[oaicite:0]{index=0}. You’ll learn tips for planning your week, keeping track of assignments, and creating systems to stay on top of your tasks. Good organization and planning skills reduce stress and help you consistently reach your personal goals.

This CrashCourse Engineering episode introduces the field of industrial engineering alongside biomedical engineering, outlining how industrial engineers optimize manufacturing systems for efficiency:contentReference[oaicite:9]{index=9}. Students will learn the history and fundamentals of industrial engineering — from assembly line design to workflow management — and how these principles increase productivity in factories:contentReference[oaicite:10]{index=10}. The video covers concepts like time studies (Frederick Taylor) and modern automation, showing how industrial engineers streamline processes and reduce waste. By comparing various engineering branches, it highlights the role of industrial engineers in improving production in manufacturing, preparing learners to understand lean manufacturing and system optimization in real-world operations.

An interactive course that teaches the fundamentals of data visualization in Python using the Seaborn library. Through a series of short lessons and a hands-on project, it covers how to create various types of charts (line plots, bar charts, heatmaps, scatter plots, histograms) and how to choose appropriate plot types to effectively communicate insights. Learners practice by writing code to generate visualizations for given datasets, reinforcing how visual analysis can reveal patterns and insights in data.

A series of interactive lessons that teach you the fundamentals of SQL (Structured Query Language) by having you read explanations and then practice writing queries in an in-browser SQL environment. The tutorials start from basic SELECT queries and gradually introduce more complex concepts like filters, joins, and aggregations, letting you immediately apply what you learn. It's a hands-on way to build practical database querying skills, with instant feedback as you progress through real-time exercises.

A web-based data exploration tool by Gapminder that allows you to visualize global development statistics over time. Users can select indicators (like life expectancy, income, population, etc.) and see how countries progress via animated bubble charts (similar to those used by Hans Rosling). This interactive tool encourages you to play with the data—comparing countries, adjusting time scales, and observing trends—providing a hands-on way to discover insights and correlations in real-world data.

A web-based platform offering an interactive visual introduction to probability and statistics. The site is organized into chapters covering key concepts (like basic probability, distributions, Bayesian inference, and regression), each featuring intuitive explanations alongside interactive graphics and s. As users explore topics like variance, Bayesian updating, or regression, they can manipulate parameters and see the effects in real time, helping to build strong statistical intuition through visual learning.

A funny 3-minute lesson on how a lone dancer attracts followers — demonstrating that leadership is about inspiring the first follower.

Curious about how tools like DALL·E or ChatGPT generate content? This friendly walkthrough explains how generative models create images and text. A great first step before students try using generative AI in creative class projects.

This animated lesson reveals why people sometimes choke (underperform) in high-pressure moments and shares strategies to stay cool. Learners discover how stress can disrupt the brain’s working memory and focus, often causing mistakes in sports or exams. More importantly, it offers techniques like practicing under pressure, focusing on the goal (not the mechanics), and positive self-talk. By applying these mental skills, student athletes and performers can improve their clutch performance and confidence in competitions or stressful situations.

Crash Course Geography examines the different agricultural systems humans use around the world to produce our food. In about 12 minutes, it compares subsistence farming, small-scale local agriculture, and large-scale industrial agribusiness across various regions:contentReference[oaicite:23]{index=23}. Students will learn how climate, soil, and culture influence what farming methods develop where – from terraced rice paddies to vast Midwest corn farms. The video also introduces the Green Revolution and modern improvements that boosted crop yields, as well as issues like uneven food distribution. By connecting population, technology, and geography, this overview gives learners a global perspective on where our food comes from and the sustainability challenges we face in feeding the world.

This TEDEd animation demystifies the stock market by explaining what stocks are and how trading works. Starting with the first stock market in history, it shows how companies sell shares to raise money and how investors buy and sell those shares hoping to make a profit. The video builds skills in understanding investment basics and economic principles by illustrating supply and demand in action. It's a great introduction to the world of investing and business, making complex financial concepts accessible and showing potential career paths in finance.

An online toolkit by IDEO.org that teaches the essentials of human-centered design. It offers a collection of methods, case studies, and mindsets to help problem-solvers understand their users and create innovative solutions. The site is interactive and friendly: you can explore design thinking techniques (like how to conduct interviews, create prototypes, map customer journeys) and read real-world stories of these methods in action. Design Kit is a great starting point for learning UX research and ideation techniques, making design thinking accessible with practical guidance.

Believe it or not, most security breaches happen because of human mistakes, not high-tech wizardry. Learn how cybercriminals exploit human nature (like phishing scams) and what you can do to shut them down.

A foundational article from Nielsen Norman Group detailing Jakob Nielsen’s ten general principles for user interface design (for example, visibility of system status, user control and freedom, consistency and standards, etc.). Each heuristic is described with practical examples of good and bad UI implementations. This comprehensive guide helps designers and product teams understand key usability guidelines and how applying these heuristics can improve the user experience of interfaces.

An online collection of foundational principles or 'laws' of UX design (such as Hick’s Law, Fitts’s Law, and the Pareto Principle), each explained in clear terms with interactive visuals and examples. The site is beautifully designed for easy navigation: clicking on each law reveals a concise description of the principle and how it applies to design. This resource helps designers remember and apply psychology and usability heuristics in their work by providing memorable summaries and attractive illustrations for each UX law.

Video games are fun to play, but how do you create one? Join an MIT student who shows how anyone can start coding and bring their own games to life.

Ever wonder how an MRI machine creates images of the inside of your body? This interactive shows you the science behind **Magnetic Resonance Imaging**. You’ll adjust magnetic fields and radio waves to scan a virtual patient, seeing how atoms in the body respond to produce an image:contentReference[oaicite:28]{index=28}. As you experiment, you learn why MRI is so useful for looking at soft tissues like the brain. By operating the controls yourself, you demystify this advanced healthcare technology in an accessible way.

Brief animated breakdown of how misinformation spreads through circular reporting in the media.

Hank Green kicks off the CrashCourse Anatomy & Physiology series with an exciting overview of what **A&P** is all about. In this introductory video, you’ll get a tour of the human body’s levels of organization – from cells to organ systems – and learn key concepts like homeostasis:contentReference[oaicite:30]{index=30}. Hank’s energetic teaching style and clear explanations provide a strong foundation for understanding how the body works. It’s a perfect first step for students exploring human biology or considering healthcare careers.

Not all hackers wear black hats. This Crash Course video explores the world of hacking — both good and bad — and the clever techniques hackers use to break into systems (and how defenders stop them).

Introduces the basics of media literacy and shows how to navigate our media-saturated world.

Got a game idea itching to come alive? This step-by-step guide shows you how to plan, design, and code your first game in Scratch — from choosing a fun theme to programming sprites and sharing your creation.

Open University course covering the fundamentals of additive manufacturing processes, from creating a computer-aided design model to building a final 3D-printed part. Learners explore the steps of 3D printing, materials and techniques, design implications, and how 3D printing is transforming modern manufacturing.

An interactive simulator that lets learners build virtual electrical circuits. Users can drag in batteries, wires, light bulbs, resistors, and switches to create their own circuits and see them work instantly. They can measure voltage with a virtual voltmeter and current with an ammeter, reinforcing Ohm's law hands-on. Skills gained include designing series and parallel circuits, predicting outcomes of circuit changes, and safely experimenting with electricity principles. This is widely used in physics classes and electrical training to practice circuit-building without any real-world risk.

A hands-on tutorial blending electronics with fabric to create an illuminated wearable. In this project, learners follow step-by-step instructions to sew a cuff bracelet that lights up using small LED lights, a battery, and conductive thread as wiring. The unique feature is a magnetic switch that turns the LEDs on when the bracelet is fastened. Through this activity, learners practice basic sewing and also learn how electrical circuits can be integrated into clothing (soft circuits). Skills developed include working with conductive textiles, planning a circuit layout on fabric, and basic circuit troubleshooting. Applications for these skills range from creative fashion design to prototyping wearable tech devices, making this a fun introduction to e-textiles and the future of clothing technology.

An article exploring the revolutionary 19th-century invention of the Jacquard loom and its impact on both textiles and computing. It narrates how Joseph-Marie Jacquard developed a loom attachment using punched cards to automatically control weaving patterns, eliminating the need for a draw-boy to manually lift threads. Learners discover how these punched cards are essentially early programs, instructing the loom which threads to raise for complex brocades and damasks. The piece connects the dots between the mass production of patterned fabrics (making luxury textiles affordable) and the inspiration this mechanism gave to early computer pioneers (like Charles Babbage). Readers gain historical insight into how a textile innovation laid groundwork for modern computing, reflecting the interdisciplinary nature of technological progress.

Experience 20 years of investing decisions in just 20 minutes! This interactive game lets you invest a virtual portfolio over two decades and see how your choices pan out. You’ll decide how much to put into stocks, bonds, or savings and watch how economic events affect your wealth. The builds skills in long-term thinking, risk management, and understanding compound interest. It's a great way to learn how consistent, diversified investing can grow money, which is useful for personal finance and careers in finance or economics.

Breaks down the various scientific fields that boost athletic performance—from biomechanics and nutrition to psychology. In this video, learners see how experts analyze athletes’ movements, diet, and mindset to push the limits of speed and strength. It provides a broad understanding of sports science, highlighting how multi-disciplinary research (physics, biology, psychology) comes together to enhance training. Students gain appreciation for evidence-based techniques and might be inspired to apply some science-backed strategies in their own fitness routines or sports.

This self-paced module introduces students to algorithms — the building blocks behind AI. Learn about sorting, searching, and problem-solving strategies in computing. The lessons offer hands-on practice and are accessible for those new to computer science.

In this high-energy introduction to chemistry, Hank Green makes the case that chemistry is “the amazing and beautiful science of stuff,” not torture. The 10-minute episode covers the basic structure of the atom (protons, neutrons, electrons), atomic number, and how our understanding of the nucleus evolved. It’s a friendly welcome to the world of chemistry for new learners.

A profile of three high school youth apprentices working in real manufacturing jobs while still in school. This video introduces Levi, Owen, and Oscar – teens gaining hands-on experience with precision machining, CNC operations, and industrial fabrication through a youth apprenticeship program. They discuss the technical skills they’ve learned (like using calipers, CNC machines, and welding) and how the program is shaping their futures. Viewers discover how early exposure to manufacturing careers, mentorship from industry professionals, and on-the-job training can launch a rewarding career pathway. This piece inspires students by showing peers successfully entering high-tech manufacturing trades.

A fast-paced introduction to the field of psychology, covering its history, major approaches, and questions. Learners get an overview of how psychologists study the mind and behavior, touching on key figures and theories. This video builds foundational understanding, sparking curiosity about topics like brain function, development, and mental processes—skills relevant to any further study in behavioral science.

An online interactive activity where learners test their brains by naming the font colors of mismatched color words (the Stroop test). Students experience first-hand how conflicting information causes cognitive interference and slows reaction time. Through this , they learn about attention and the brain’s information processing, building skills in observation, data collection, and understanding cognitive control—concepts foundational in psychology and neuroscience.

What can ChatGPT do? This beginner-friendly video introduces high school students to conversational AI, offering tips for safe, smart use in school projects and writing tasks. Students will explore how AI understands prompts and produces answers, empowering them to start using AI as a tool rather than just a trend.

Dives into the science of memory—how our brains encode, store, and retrieve memories. This episode explains different types of memory (sensory, short-term, long-term) and the processes (like encoding and consolidation) that make remembering possible. Learners develop an understanding of cognitive psychology and gain skills in improving study habits or remembering information by applying memory principles in real-life learning situations.

A short TED-Ed animation demystifying the science behind solar panels. Learners follow sunlight as it's converted into electricity inside a photovoltaic cell, gaining an intuitive grasp of concepts like photons, semiconductor materials, and electric current. This engaging explanation builds a foundation in renewable energy tech and highlights practical skills in physics and engineering design, showing the relevance of science to real-world solar energy careers.

An upbeat, inspiring pep talk from Kid President encouraging everyone to make the world more awesome through small acts of leadership.

Inspires you to recognize everyday acts of kindness and influence as real leadership through a heartwarming “lollipop moment.”

Outlines six common leadership styles (autocratic, democratic, etc.) and explains how each approach influences teams.

CodeCombat turns learning to code into a fun adventure game. In this web-based **interactive **, you play as a hero navigating dungeons and battling enemies by writing real Python or JavaScript code. The game starts with easy levels that teach basic syntax and gradually ramps up to more complex challenges:contentReference[oaicite:10]{index=10}. It’s an engaging way for high schoolers to build programming skills – you solve puzzles and see your code come to life in the game!

Explore Intel’s use of swarming drones to create spectacular aerial light shows and animations. This article (an interview with Intel’s drone light show team) reveals that hundreds of 'Shooting Star' drones are controlled by a single computer during performances. Custom software and algorithms automate the choreography – calculating the number of drones, their positions, and flight paths to paint images in the sky. Readers gain insight into how drone fleets are programmed and operated in synchronized groups, blending art, entertainment, and cutting-edge robotics.

A vivid 5-minute TED-Ed animation that takes viewers inside a semiconductor fabrication plant to see how computer microchips are manufactured:contentReference[oaicite:11]{index=11}. It explains the photolithography process that etches billions of tiny transistors onto silicon wafers:contentReference[oaicite:12]{index=12}, highlighting the extreme precision and cleanroom conditions required to build modern electronics. Learners will discover how layers of materials are deposited and etched away to create intricate circuits, and consider the environmental impact of this process:contentReference[oaicite:13]{index=13}. By simplifying complex chemical and physical steps into an engaging story, the video builds understanding of advanced manufacturing in the tech industry and underscores the ingenuity needed to mass-produce the chips that power our devices.

An animated explanation of what prolonged stress does to the brain. Learners find out how stress hormones can shrink neurons in the memory centers and hinder learning, and also discover that some stress can be useful. This video covers neuroscience and health psychology, helping students build stress-management awareness and skills while understanding why managing stress is crucial for brain health and academic performance.

Learn proven note-taking methods to boost your learning. In this CrashCourse study skills video, Thomas Frank shares how to come to class prepared and find a note-taking system that helps you retain information like a champ. Mastering effective note-taking can improve your understanding and make reviewing for tests much easier – a key skill for personal academic success.

Step into the role of a cybersecurity defender! In this interactive game, you’ll crack passwords, outsmart hackers, and secure a company against cyber attacks — all while learning real-world online safety strategies.

What are stars made of, and why do some look blue while others are red? This Crash Course video dives into the science of stars and how we categorize them. It teaches about stellar spectra (the light stars give off) and shows how that reveals a star’s temperature, size, and brightness. Viewers also learn about the Hertzsprung–Russell diagram, an essential tool that plots star brightness versus temperature and shows where stars fall during their lifetimes. Understanding stars is fundamental to astronomy and astrophysics – knowledge useful for projects on the life cycle of stars or any career studying the universe.

Zoom through our stellar neighborhood with this beautiful 3D map of 100,000 nearby stars. Developed as a Chrome Experiment, it lets you fly from the Sun out to surrounding star systems and even view our entire Milky Way galaxy from afar. You can click on stars to learn their names and see their location relative to Earth. This interactive visualization builds a sense of the immense scale of space and is great for understanding where Earth sits among the stars. It’s both an educational tool and a visually stunning experience, perfect for aspiring astronomers or anyone interested in the galaxy.

Join astronomer Phil Plait in the first episode of Crash Course Astronomy, which introduces the vast field of astronomy. From observations of the night sky to the mind-boggling scale of the universe, this video lays out what astronomers study and why it matters. Viewers get a tour of planets, stars, galaxies, and even the Big Bang, building a broad understanding of our cosmos. It's a perfect starting point for anyone curious about space, and it shows how studying astronomy can lead to careers in science, technology, and space exploration.

Witness the epic life story of a star from birth to death in this educational video. It illustrates how stars form out of nebulae, shine for millions or billions of years, and eventually run out of fuel. Viewers learn the different end states of stars – smaller stars swell into red giants and fade to white dwarfs, while massive stars explode as supernovae and can become neutron stars or black holes. Understanding stellar evolution is key in astronomy and astrophysics, and this video provides those insights in a clear, visual way, sparking interest in cosmic cycles and possibly future research careers.

Famous TED Talk demonstrating how great leaders inspire action by starting with a clear “why” to motivate others.

A virtual field trip via Google Earth that flies learners to innovative renewable energy sites around the world. Students explore wind farms, solar plants, geothermal hotspots and more through images and short descriptions at each location. This interactive tour broadens their perspective on sustainable energy applications globally, linking geography with technology and sparking curiosity about environmental engineering and international projects.

How do machines learn from experience? This explainer covers the basics of machine learning with simple visuals and real-world examples like spam filters and movie recommendations. Students learn how models train and improve with data — perfect for demystifying how AI tools operate.

In this TEDxHWZ talk, futurist Lars Thomsen explores how AI can act as ambient and augmented intelligence—supporting us rather than replacing us. He paints a vibrant picture of a “popcorn moment” in human development, where routine tasks are handled by AI, freeing us to focus on creativity, learning, and meaningful work. Ideal for students to envision positive human–AI collaboration in future careers.

This CrashCourse video explores cutting-edge and alternative energy technologies beyond wind and solar. It introduces how biomass fuels and hydrogen fuel cells can generate power, and explains nuclear fission (current reactors) and nuclear fusion (future potential) for electricity. Learners discover the science and engineering behind these energy solutions, enhancing their understanding of the diverse skills and careers driving our clean energy future.

An in-depth video course that introduces data analysis in Python, using popular libraries like NumPy for numerical computing, Pandas for data manipulation, and Matplotlib/Seaborn for data visualization. It covers practical examples and real datasets, teaching fundamental analytics skills and how to draw insights from data—an excellent starting point for aspiring data analysts to build a solid foundation in Python-based data analysis.

An end-to-end Power BI course that teaches how to use Microsoft’s business intelligence tool for data analysis and visualization. Aimed at beginners, this full-length tutorial (hosted by data analyst Luke Barousse) walks through connecting to data, transforming and cleaning data in Power BI, creating interactive visuals like charts and maps, building dashboards, and sharing reports. By following along, learners gain practical experience with the Power BI interface, data modeling concepts, DAX formulas, and best practices for turning raw data into insightful, shareable business dashboards.

A simple browser-based game that tests and sharpens your ability to estimate correlation coefficients from scatter plots. You’ll be shown a scatter plot of points and asked to guess the correlation (a value between -1 and 1). After you submit your guess, the actual correlation is revealed and you earn points based on accuracy. This addictive provides a fun way to build intuition about statistical correlations, helping analysts develop a better sense for how data relationships appear visually.

A hands-on interactive course focusing on data manipulation using the Pandas library in Python. It provides short, practical lessons where you read about a concept or technique (such as selecting data, filtering, grouping, merging, etc.) and then immediately solve coding challenges in the browser to apply what you learned. This course is designed to quickly build your proficiency in cleaning and analyzing real-world datasets using Pandas, with instant feedback and hints to reinforce learning.

In this engaging TED talk, statistician Hans Rosling uses interactive visualizations to debunk common misconceptions about global development. He dynamically demonstrates how data (such as child mortality and income over time) can reveal surprising insights when presented through animated bubble charts. The talk not only showcases a powerful example of exploratory data analysis in action but also emphasizes the importance of using data visualization to uncover the true story behind global statistics.

Ever wonder how your messages stay secret online? From ancient ciphers to modern algorithms, this Crash Course video reveals how encryption works to keep our data private — and why even the best codes have their limits.

How trustworthy is your online communication? Learn how encryption scrambles data to protect your privacy — and why even strong codes can sometimes be cracked.

Compares how different social media apps influence your mood and brain chemistry.

A short NASA eClips educational video that shows how scientists and engineers grow plants on the International Space Station:contentReference[oaicite:24]{index=24}. It introduces the special systems (like the Veggie growth chamber and controlled LED lighting) needed to cultivate crops in microgravity, where soil and traditional farming aren’t possible. Viewers hear from NASA experts (such as Jacob Torres) about designing both open and closed plant growth systems and why fresh vegetables are important for astronauts:contentReference[oaicite:25]{index=25}:contentReference[oaicite:26]{index=26}. This clip covers science concepts like photosynthesis and life support, and demonstrates the creative problem-solving behind farming beyond Earth. By linking space exploration to agriculture, students see an exciting application of botany and engineering – growing food in space – that also yields insights to improve farming on Earth.

Engineer Guy Bill Hammack reveals the ingenious engineering behind the common aluminum beverage can – from its cylindrical shape to the pull-tab lid. In this 14-minute video, he demonstrates the manufacturing steps needed to produce billions of cans, such as punching discs from aluminum sheets, deep-drawing walls, and adding the characteristic concave bottom:contentReference[oaicite:17]{index=17}:contentReference[oaicite:18]{index=18}. Students will learn why the can’s design (like the double-seam lid and pressurized interior) balances strength and minimal material use. The video highlights concepts like work hardening and structural stability in plain language, showing how a seemingly simple object is a triumph of materials science and process engineering. It’s a fascinating exploration of design for manufacturability, reinforcing how creative problem-solving makes mass production of everyday items possible.

Firestarting Drones - Woody plants are transforming the Great Plains grassland into a shrub ecosystem. But drones allow management of the extreme-intensity, controlled fires needed to clear the brush, allowing native grassland to return.

This Wired piece explains the science and engineering behind how drones fly, covering key concepts like lift, thrust, drag, and stability. It also discusses the onboard sensors and flight-control software that help drones stay in the air and navigate, giving aspiring drone pilots and engineers a solid introduction to quadcopter technology.

Great games don’t happen by accident. Peek behind the scenes of game design and discover the tricks and techniques creators use to build worlds players love.

Not all healthcare systems are the same, and this CrashCourse Public Health video explains the major models around the world. You’ll learn about different systems – from government-run to private insurance – and the pros/cons of each:contentReference[oaicite:31]{index=31}:contentReference[oaicite:32]{index=32}. The video breaks down complex terms like single-payer vs. multi-payer in a student-friendly way. By the end, you’ll understand key differences (like how the US system differs from UK or Canada) and why “which healthcare system is best” is a tricky question with many angles. This insight is valuable if you’re curious about healthcare policy or global medicine.

From giant lab computers to arcade machines and consoles, take a journey through the origins of video games. This TED-Ed animation traces how gaming evolved into the beloved world of gaming we know today.

A comprehensive online certificate program offered by Google on Coursera, designed to take beginners from zero to job-ready in UX design. It consists of seven courses covering UX foundations, empathizing with users, wireframing and prototyping in Figma, conducting usability studies, and building a professional portfolio. The program includes hands-on projects where learners create real-world UX deliverables (like personas, user flows, and interactive prototypes). It's a structured, self-paced curriculum that provides a robust introduction to the field and practical experience to start a career in UX.

The official Material Design guidelines by Google, presented as an interactive documentation site. It outlines design principles and provides extensive guidance on typography, color, iconography, motion, and component usage for designing modern interfaces. Designers and developers can explore examples and recommended practices, with interactive demos and tools (like the Material Theme Editor) to see how changes in color or shape affect UI components. It’s a comprehensive resource for learning a widely-used design system and ensuring consistent, accessible design across applications.

A quick online game that tests your attention to detail in user interface design. In each round, you're shown two versions of a UI design (such as a button, layout, or spacing) and must click on the version that looks more correct or visually pleasing. The game covers subtle design aspects like alignment, color, and spacing. It's a fun way for designers to sharpen their eye for consistency and polish in UI/UX, learning what small tweaks can make an interface look more professional.

A tongue-in-cheek web game that immerses you in an interface deliberately designed to be confusing and counter-intuitive. The game challenges you to navigate through a series of web-form tasks under time pressure, highlighting common UX pitfalls and dark patterns by making everything as user-unfriendly as possible. It's an entertaining yet educational experience that underscores the importance of good usability by showing just how frustrating poor design can be.

A glimpse into the role of exercise physiologists in elite sports training. This video takes viewers inside a performance lab to show how scientists measure things like VO2 max, strength, and endurance to tailor training programs. Learners discover the science behind workout plans, seeing how data and physiology principles help athletes run faster and build stamina. It highlights career connections in sports science and shows skills like testing, measuring, and interpreting data to improve human performance.

A student-friendly news article on using gene editing to combat malaria-carrying mosquitoes. It explains how scientists created a CRISPR-based 'gene drive' to stop mosquitoes from reproducing. Learners see an exciting real-world example of biotechnology improving public health and discuss ecological impacts. The article builds literacy and shows how biotech innovations can address global challenges, preparing students for discussions in environmental science or bioethics.

A hands-on that lets students control gene expression in a virtual cell and see how proteins are made. Learners toggle DNA transcription and mRNA translation processes to produce proteins, exploring factors like gene regulation and mutation. This interactive tool reinforces understanding of how genes code for traits and develops lab skills relevant to biotechnology and molecular biology careers.

This interactive Click & Learn uses the central dogma as a model for exploring how modern molecular biology technologies can be used to treat different genetic conditions. Learners investigate real cases where biotechnology is used to treat genetic disorders—such as using gene therapy, RNA interference, or CRISPR to correct faulty genes. By simulating these technologies, students build problem-solving skills and see biotechnology’s impact on medicine and biotech careers.

An animated TED-Ed lesson illustrating the science of CRISPR-Cas9 gene editing. Viewers learn how CRISPR works like molecular scissors to target and modify DNA, enabling precise genetic changes. The video shows real-world applications, from curing genetic diseases to engineering crops, giving learners an engaging introduction to this revolutionary biotech tool and the skills behind genetic engineering.

A CrashCourse Engineering video that uses ice cream production to explore the world of food manufacturing. It reveals the engineering challenges of mass-producing a perishable product like ice cream, from processing ingredients safely to packaging:contentReference[oaicite:4]{index=4}:contentReference[oaicite:5]{index=5}. Learners will see how many branches of engineering come into play to process ingredients, ensure safety for consumers, and package food, as well as how thermodynamics is involved in the different stages of food production:contentReference[oaicite:6]{index=6}. The video explains how pasteurization, precise temperature control, and automated machinery are used in food factories to produce consistent quality:contentReference[oaicite:7]{index=7}:contentReference[oaicite:8]{index=8}. By highlighting the technology and problem-solving behind something as fun as ice cream, this segment shows how engineers tackle real-world manufacturing problems and connect to everyday products.

An inside look at a high school program where students operate a 3D printing farm as part of their curriculum. This 11-minute video shows how Spark Academy students simultaneously manage multiple 3D printers to manufacture parts, showcasing an innovative, hands-on approach to learning additive manufacturing. Viewers will learn what skills these teenagers develop – from 3D design and printer maintenance to problem-solving and teamwork – and see how mastering cutting-edge fabrication technology prepares them for engineering and design careers. This engaging story highlights how creativity and modern tools come together in education to reshape the future of manufacturing.

Meet six seniors in a high school CAD program using 3D modeling software to create mechanical and architectural designs. This short profile shows how students apply CAD skills to fields like engineering, entertainment, visual effects, and more, demonstrating the real-world impact of learning 3D modeling.

A concise encyclopedia entry explaining the 3D printing process and its limitations. It describes how a print head deposits material drop by drop (similar to an inkjet printer) to build up a 3D object. The article also discusses common polymers used (like ABS and polypropylene) and design considerations such as support structures and voids in 3D-printed components.

Students manipulate greenhouse gas levels, clouds, and other factors in an interactive model of Earth’s atmosphere. They observe how increasing greenhouse gases trap more heat and raise planetary temperature. Skills: hands-on experimentation and observation of climate dynamics. Applications: reinforces understanding of global warming mechanics and energy balance, providing insight into climate change and its real-world implications.

A virtual gas lab to explore kinetic molecular theory and gas laws. You can pump gas molecules into a box, heat or cool the gas, and change the volume to see real-time changes in pressure and temperature. The includes measurement tools and allows you to discover relationships like Boyle’s law and Charles’s law through inquiry, even observing diffusion when a divider is removed.

An exploration of the Haber process — the monumental chemical reaction that turns nitrogen from the air into ammonia fertilizer, helping to feed billions. The lesson explains how this reaction boosted food production worldwide and then examines its unintended environmental impacts. It’s a story of chemistry’s double-edged sword: enabling modern agriculture while disrupting ecosystems.

This short explainer video breaks down how GPS and GNSS technology enable drones to navigate. It covers how drones connect to multiple satellites to pinpoint their location and maintain accurate flight paths. Viewers also learn about features like return-to-home and waypoint navigation, gaining insight into the role of satellite systems in flight automation for even consumer drones.

With great AI comes great responsibility. This video introduces high schoolers to the ethics of AI use, bias in data, and challenges of automation. Students will reflect on how their use of AI tools can have real-world impact, sparking thoughtful discussion.

A PBS NewsHour report showing how farmers are using drone technology to make agriculture more efficient and eco-friendly. In this 11-minute segment, viewers visit farms where UAVs survey fields from above, helping apply fertilizer and water with pinpoint accuracy while reducing runoff:contentReference[oaicite:20]{index=20}. Students will see dramatic aerial footage and learn how data collected by drones (on soil health, crop growth, pest outbreaks) enables precision agriculture. The story highlights the skills behind drone operation and data analysis, connecting them to better crop yields and environmental protection. By illustrating real-world examples – like preventing fertilizer pollution in Lake Erie:contentReference[oaicite:21]{index=21} – the video shows how high-tech tools like drones are the future of sustainable farming.

This hands-on lets you experiment with the Sun, Earth, Moon, and a space station to see how gravity controls their motion. You can move these objects and instantly see changes in their orbital paths and gravitational forces. It also visualizes the vast differences in size and distance between celestial bodies, and even lets you turn off gravity to see what would happen! This interactive tool helps you learn key concepts like why planets orbit the Sun and how orbital speed works, building skills useful in physics, astronomy, or any aerospace career.

This hands-on module explores how Pixar creates natural-looking environments by weaving straight lines into smooth curves. Students use midpoints to construct parabolic arcs, learning the math behind realistic scenery in animation. The lesson includes interactive exercises and takes about an hour to complete, blending art, geometry, and computer graphics.

This Khan Academy Hour of Code activity teaches you to **draw and animate with JavaScript**. Through step-by-step challenges, you’ll write simple JavaScript commands (using the ProcessingJS library) to create shapes, characters, and even a snowman on the screen:contentReference[oaicite:15]{index=15}. The tutorial is interactive – as you code, you immediately see your drawings come to life. By the end of this hour, you will have learned the basics of computer graphics programming and made your own digital art!

Asks if social media makes everyone conform, exploring how platforms can impact individuality and self-expression.

John Green explores how to evaluate the quality and accuracy of online information in the digital age.

Interactive fake news where you play as a media manipulator to learn how misinformation spreads.

DroneBlocks provides a platform for students to learn drone programming through a block-based coding simulator. Its virtual playground lets learners drag and drop code blocks to create flight paths and behaviors for drones, then test them in a 3D simulator. The curriculum includes tutorials and challenges that build skills in coding, problem-solving, and engineering design as students program drones to perform missions – all without needing a physical drone.

Veritasium uses high-speed footage and clever demonstrations to explain the surprising physics of quadcopter stability and motion. The video dives into how drones use feedback control systems and onboard sensors to constantly adjust their propeller speeds, allowing them to hover, pitch, and roll in place. This engaging visual demo is perfect for physics and engineering students interested in robotics and unmanned aerial systems.

This animated TED-Ed lesson explores how drones are being used to monitor and combat wildfires. Students learn about thermal imaging and aerial mapping, seeing how autonomous firefighting drones might help protect people and the environment. The lesson inspires learners to consider innovative uses for drone technology in disaster response and includes follow-up questions and resources for further learning.

Explains how electricity works starting from atoms and electrons to current flow and circuits. Covers fundamental concepts like charge, voltage, current (in amperes), resistance, and Ohm's law in an intuitive way. Learners will understand how electrons move through conductors to power devices, why insulators block current, and how components like light bulbs use electrical energy. Skills developed include grasping core electrical principles and visualizing electric circuits. Applicable to foundational knowledge for electrical trades or engineering careers.

A step-by-step beginner's guide demystifying electronics concepts and components. This illustrated tutorial covers electricity fundamentals (AC vs DC), circuits and resistance, series vs parallel connections, and basic components like LEDs and motors. Learners will follow along to build simple circuits and read schematic diagrams by the end. Skills developed include interpreting circuit symbols, wiring components correctly, and avoiding short circuits. It’s a practical foundation for electrical projects, enabling learners to confidently start building and troubleshooting their own gadgets.

A self-paced online course covering basic ecology principles and how humans affect ecosystems. Through reading and activities, learners examine what ecology is, how to study ecosystems, and specific examples (from rock pools to rainforests) to understand human impacts on environmental health. Skills: scientific literacy, building a glossary of terms, and note-taking. Applications: strengthens foundational knowledge for environmental science, preparing students for advanced study or projects on conservation, biodiversity, and ecosystem management.

Follows three plastic bottles on different journeys to illustrate the environmental impact of our waste. One bottle ends up in a landfill, another in the ocean, and one gets recycled—revealing issues like pollution, wildlife harm, and resource use. Skills: understanding waste management processes and consequences. Applications: raises awareness of recycling and plastic pollution, encouraging sustainable habits and informing projects on waste reduction or ocean conservation.

Illustrates the Peter Principle with a story, showing how employees get promoted to their level of incompetence in large organizations.

This short PBS video highlights the **soft skills** that help people succeed in their careers. You’ll see real examples of communication, teamwork, eye contact, and having a positive attitude on the job:contentReference[oaicite:9]{index=9}. These personal attributes – like being respectful and a good listener – often make the difference in getting hired and promoted. It’s a quick overview of why developing your soft skills (people skills) is as important as technical know-how for personal success.

In this classic TED talk, design guru Don Norman explores the emotional side of design and why certain designs make us feel good. Through engaging examples—from teapots to luxury cars—he explains three key emotional cues (visceral, behavioral, and reflective design) that contribute to a product’s appeal and usability. This talk provides insight into psychology and aesthetics in user experience, illustrating how enjoyable, human-centered design can profoundly affect our feelings and interactions.

A comprehensive beginner-friendly course on UI design using Figma, a popular interface design tool. This free video (from freeCodeCamp) covers the entire UI design workflow: from wireframing and creating mockups to designing high-fidelity interactive app screens. Viewers learn fundamental design principles (like layout, typography, and color theory) and apply them in Figma step-by-step. By the end, you'll have hands-on experience building a complete user interface design and a solid understanding of modern digital design practices.

An interactive lesson from Pixar in a Box that teaches subdivision surface modeling, a technique Pixar uses to create smooth 3D characters. Through videos and practice, learners discover how splitting and averaging operations refine a 3D mesh, demonstrating one of Pixar’s key technologies for turning rough models into detailed, lifelike characters.

HackDesign is a free, community-curated course for learning design fundamentals. It offers a sequence of 50 lessons, each featuring hand-picked readings, tutorials, and challenges from around the web on topics like typography, color theory, user research, and prototyping. The lessons are crafted by experienced designers and provide newcomers with a structured, self-paced introduction to UX/UI design principles and tools. With accessible content and weekly challenges, HackDesign is a great starting point for anyone seeking a crash course in design without formal training.

An interactive game-like lab where students design and optimize a virtual city's renewable energy system. Using real data, learners choose locations for solar panels, wind turbines, and other resources to meet energy needs while competing with others. This builds problem-solving and systems thinking skills as players balance efficiency, cost, and resource availability—just like engineers and urban planners in sustainable energy careers.

A public resource (formerly DarkPatterns.org) that catalogs and explains various 'dark patterns' in UX—deceptive interface tricks that deliberately mislead or annoy users. The site provides definitions and real-world examples for dozens of dark patterns (like sneak-into-basket, roach motel, confirmshaming, etc.) and highlights the ethical implications of such designs. It's a useful guide for UX professionals to recognize bad practices and ensure they create more honest, user-friendly experiences instead.

Join YouTuber Daniel Shiffman for a **3-hour beginner coding course** that feels like a fun workshop. In this video, you’ll learn creative coding using the Processing language (a beginner-friendly JavaScript framework) to draw art and visuals with code. The course starts from scratch – setting up your coding environment – and gradually introduces concepts like variables, loops, and drawing functions. By the end, you’ll have programmed your own interactive visual designs. It’s a comprehensive, hands-on introduction for aspiring coders, especially those interested in art and graphics.

This short video from Code.org shows how computer science is changing every industry and aspect of society. Through real-world examples – from medicine to music – it highlights that coding isn’t just for programmers; it’s powering innovations everywhere:contentReference[oaicite:17]{index=17}. Leaders like Bill Gates and Mark Zuckerberg make cameos to emphasize that **computer science is for everyone**. It’s an inspiring overview that will open your eyes to the endless possibilities you can create with coding knowledge.

A science news article reporting on the first human trials of CRISPR gene editing to treat diseases. Written for students, it describes how researchers are using CRISPR to target conditions like cancer, blood disorders, and blindness. Learners will improve reading comprehension while discovering cutting-edge biotech applications and considering ethical implications—insights relevant to careers in biomedical research and medicine.

This short video (from the ACS Reactions series) showcases the chemistry behind fireworks – from the sizzle of the fuse to the colorful explosions in the sky. A chemist explains how different metal salts produce specific colors (strontium reds, copper blues), how the oxidizer-fuel reactions release energy, and why the sound of the boom follows the flash. It’s a visually exciting way to see “chemistry in action” during a Fourth of July show.

A virtual lab where students perform a DNA extraction from human cheek cells step by step. Learners use virtual pipettes, test tubes, and centrifuges to isolate DNA, mirroring a real biotech laboratory protocol. This interactive experience builds practical lab skills—like following procedures and understanding reagents—and connects to biotechnology careers in genetics and forensics.

Energy3D is a free, -based 3D CAD tool for designing green buildings and power stations that harness renewable energy to achieve sustainable development. Students can sketch buildings, position them on real map images, and analyze solar performance with heat maps and graphs. Artificial intelligence features even help optimize designs. At the end, you can print and assemble a paper model of your structure.

This Crash Course video covers the basics of money and finance, explaining what currency is and how borrowing, lending, interest, stocks, and bonds work. It builds a foundation in economic concepts by showing how money flows through the economy and how financial instruments function. Viewers gain skills in understanding financial systems, which are crucial for making personal finance decisions and for careers in business or economics. The host uses real-life examples and humor to make complex topics clear and engaging for learners.

Can you make it through college without drowning in debt? Find out with this immersive that puts you in the shoes of a college student managing expenses. You'll make decisions about financial aid, part-time jobs, and spending while trying to graduate with minimal debt. The game builds budgeting and decision-making skills by showing the real consequences of choices like student loans and work-life balance. It's a project-based experience perfect for anyone curious about the cost of college or considering careers in financial planning or education.

In this interactive experience, step into the role of Wilhelm Röntgen as he uncovers **X-rays**. You’ll perform virtual experiments with cathode ray tubes and observe mysterious new rays that can pass through human tissue. The lets you adjust settings and even X-ray a hand to reveal the bones:contentReference[oaicite:29]{index=29}. Through this game, you learn how X-rays were discovered and how they work – which is the foundation of modern medical imaging. It’s like conducting a historic science experiment that revolutionized healthcare.

This Nobel Prize educational game puts you at the controls of the **cell cycle**. You’ll guide a cell through the stages of growth and division, making sure everything happens in the right order. Can you activate the correct proteins and checkpoints to allow the cell to replicate DNA and divide without errors:contentReference[oaicite:23]{index=23}? If you mess up, the cell could become cancerous! It’s an interactive way to learn how our cells multiply and what safeguards exist to prevent cancer – by actively managing those processes yourself.

A science explainer video tackling 13 common misconceptions about climate change. It methodically debunks false claims (e.g. “climate change is natural” or “CO2 doesn’t matter”) using evidence and clear reasoning. Learners gain a stronger grasp of climate science facts versus myths. Skills: critical thinking and scientific reasoning. Applications: empowers students to counter misinformation in discussions, enhancing their understanding for environmental debates or projects.

NASA’s interactive visuals let students see changes in key climate indicators over time. By sliding through decades of data on Arctic sea ice, sea levels, carbon dioxide, global temperature, and more, learners witness how Earth’s climate has transformed. Skills: interpreting graphical data and recognizing long-term trends. Applications: connects science to current climate news, helping students grasp evidence of climate change and the urgency for climate action.

A sophisticated climate solutions simulator where students adjust global policy levers to limit warming. They can tweak settings for energy sources, deforestation, carbon pricing, technology, and more, then see projected temperature outcomes to 2100. This hands-on tool develops analytical skills as learners discover which combinations of actions most effectively reduce climate change. Applications: mirrors real-world climate policy debates, allowing exploration of scenarios for meeting targets like the Paris Agreement and understanding trade-offs in sustainability planning.

A short animated lesson that uses the metaphor of a Tetris game to explain how carbon dioxide builds up in Earth’s atmosphere. As fossil fuels burn, CO2 “blocks” stack higher, causing rising temperatures. The video emphasizes that unlike a game, we can’t restart once climate change progresses too far. Skills: conceptualizing the greenhouse effect and exponential emissions growth. Applications: makes abstract climate science tangible, motivating learners to consider solutions since there’s no easy reset for our planet.

A comprehensive online textbook module explaining how organisms learn via classical and operant conditioning. Learners read about Pavlov’s dogs and the basics of associative learning, and then explore reinforcement, punishment, and shaping behavior (Skinner’s work). This high-quality article strengthens understanding of behavior science fundamentals, showing students how conditioning is behind habit formation, training animals, and even daily routines—applicable knowledge for psychology studies and real-life behavior change.

What does it take to make a game? This comprehensive guide breaks down the entire game development process — from planning and design to coding and testing — sharing pro tips and essential tools for aspiring game creators.

Introduces core climate science concepts including the greenhouse effect, differences between climate and weather, and historical climate shifts. Learners discover how burning fossil fuels is causing unprecedented rapid warming. Skills: understanding scientific concepts and interpreting climate data. Applications: builds foundational knowledge for climate science topics, informing students about modern climate challenges and possible environmental science careers.

A visually engaging exploration of what it really takes to stop climate change, examining the role of individual actions versus systemic changes. It breaks down global emission sources and argues that while personal choices matter, large-scale solutions (energy transition, policy, innovation) are crucial. Skills: systems thinking and evaluating complex problems. Applications: contextualizes climate action for students—useful for discussions on policy, technology (like renewable energy), and collective efforts needed for a sustainable future.

A free browser game that puts you in the role of a farmer in a poor rural community, challenging you to survive and improve your family’s life under tough conditions:contentReference[oaicite:35]{index=35}. Players must make yearly decisions – what crops to plant, whether to invest in livestock or basic infrastructure – while facing random events like droughts, civil unrest, or disease. Through this , learners directly experience the constraints faced by farmers in developing countries: limited resources, lack of access to education or technology, and the impact of bad harvests or market prices. The goal is to sustain the farm over multiple generations, highlighting concepts in economics, environmental science, and global development. By “playing” through the systemic challenges, students gain empathy and a deeper understanding of real-world agrarian poverty and the importance of sustainable development and innovation in agriculture.

A detailed tutorial on using a digital multimeter for electrical measurements. It covers the multimeter's functions—measuring DC/AC voltage, current, resistance, and checking continuity. Viewers learn the difference between auto-ranging and manual meters and see step-by-step how to safely measure a battery’s voltage, test a circuit’s current by wiring the meter in series, and use the continuity buzzer to find breaks in a wire. The video emphasizes safety (like proper lead placement and range selection) and explains readings in practical terms. By the end, learners are skilled in diagnosing circuits with a multimeter—an essential ability for electricians and electronics technicians.

Bite into game development by coding your own pizza chase! This fun hands-on tutorial shows you how to create a simple arcade game step-by-step — no experience needed.

A real-world look at the daily tasks and responsibilities of a professional electrician. In this video, viewers follow an electrician named John through a typical workday, from morning preparations to on-site jobs. He demonstrates wiring outlets, installing electrical panels, reading blueprints, and troubleshooting issues while emphasizing safety protocols. Learners get to see the variety of environments electricians work in (homes, construction sites, businesses) and the problem-solving skills required. This narrative illustrates how the foundational knowledge of circuits and tools is applied practically in an electrical career, and highlights communication and time-management skills as well.

A comprehensive introduction to electronics covering core topics such as resistors, Ohm's law, series and parallel circuits, and basic electronic components. The instructor walks through calculating current, voltage, and resistance in simple circuits, and explains the role of components like LEDs and potentiometers. Learners practice solving circuit problems and understanding power ratings to prevent component damage. Skills gained include analyzing circuit diagrams, doing basic electrical calculations, and recognizing how components like LEDs or resistors behave. This fundamental knowledge is essential for both electrical trade work and further study in electrical engineering.

With 59% of Americans playing video games, some say gaming is as culturally important as movies. Visit NYU’s Game Innovation Lab to see how students blend coding, art, math, and design to create the future of gaming.

A free web-based circuit simulator where learners can design and analyze circuits in real time. It starts with a simple example and allows adding components like resistors, capacitors, LEDs, power sources, and more via an intuitive interface. The simulator animates current flow and can display voltage or current graphs, helping users understand circuit behavior dynamically. Skills covered include circuit diagram creation, experimenting with component values, and observing phenomena like AC/DC differences or resonance. This tool is useful for aspiring electricians or engineers to practice circuit troubleshooting and design.

A clear instructional video introducing basic circuit concepts and Ohm’s law. The instructor uses simple analogies (like water flow) to explain what electric current is and how voltage and resistance affect that current. The video derives Ohm’s law (V = I*R) and works through example problems calculating one quantity when given the other two. Learners see the relationship between a battery’s voltage, the resistance of a circuit, and the resulting current. By reinforcing these fundamentals, the video builds analytical skills for solving circuit problems and sets the stage for more complex electrical topics in both physics and trade applications.

An interactive module where learners virtually explore how CRISPR-Cas9 works and experiment with its applications. Students step through the gene-editing process: designing a guide RNA, cutting DNA with Cas9, and seeing how genes can be modified or turned off. They build skills in understanding molecular biology techniques and appreciate how CRISPR is applied in medicine, agriculture, and research.

Unmanned aerial vehicles (UAVs, also known as drones) are a good way to gather data. UAVs can be as simple as a kite or balloon rigged with a camera or as complex as this one, a micro air vehicle that may help search-and-rescue operations.

A comprehensive online tutorial for learning SQL specifically geared toward data analysis. It offers a progression of interactive lessons where you write and run SQL queries on real data using Mode's web-based editor, getting immediate results and feedback. The tutorial covers basic to advanced SQL concepts—from SELECT statements and filtering to joins and aggregations—allowing learners to practice each concept hands-on in a realistic environment and build confidence in answering data questions with SQL.

A comprehensive free online course covering the fundamentals of statistics and probability. Offered by Khan Academy, it includes a structured curriculum with video lessons, articles, and interactive practice exercises. Learners can study topics such as descriptive statistics, probability theory, inferential statistics (including confidence intervals and hypothesis testing), and more. This course provides the mathematical backbone for data analytics, helping you develop the ability to understand data distributions, make predictions, and draw reliable conclusions from data.

An extensive video tutorial that takes viewers from the basics to advanced techniques of data analysis in Microsoft Excel. Covering over seven hours of content, it starts with fundamental Excel operations and functions, then delves into data cleaning, using formulas for analysis, pivot tables for summarizing data, and creating charts for data visualization. This course serves as a one-stop resource for mastering Excel's data analysis capabilities, enabling learners to efficiently manipulate datasets and draw insights using Excel's powerful tools.

UX Myths is a handy website that lists and debunks dozens of common misconceptions in user experience design (for example, “Users don’t scroll” or “Accessible design is expensive”). Each myth is accompanied by short explanations and references to research or articles that refute it. The site is an excellent quick reference for designers, helping them base decisions on evidence rather than assumptions and reminding them of best practices that counter popular myths.

Explores evidence-based psychology tactics to reduce bullying in schools. This video discusses how encouraging empathy, fostering a growth mindset, and involving peer dynamics can curb bullying behavior. Learners discover social psychology principles and practical strategies that build a safer, more positive school environment—skills in empathy, conflict resolution, and community building that have real-world applications.

Explains how leaders who foster trust and safety can make their teams feel secure and achieve extraordinary results.

Building a credit history can feel like a catch-22 – you need credit to get credit. This video offers strategies to start establishing good credit as a young person. It explains practical steps like using secured credit cards, becoming an authorized user, or paying bills on time to gradually build a solid credit score. Viewers learn how credit scores work and why they matter for future loans, apartments, or jobs. The tips in this video help develop responsible credit habits, which are valuable for any career in finance or simply for personal financial health.

Bored of just playing Flappy Bird? Create your own! This quick interactive tutorial lets you drag-and-drop code blocks to make a Flappy game from scratch in minutes.

In this drag-and-drop , learners build atoms from protons, neutrons, and electrons to discover how atomic number, charge, and mass are determined. You can experiment with different combinations to form stable or unstable atoms and then play a guided game to test your understanding of elements, isotopes, and ions.

This short video breaks down the basics of creating a personal budget. It offers practical strategies and a fun perspective on becoming the 'commander in chief' of your finances, using real-life examples to show how to track income and expenses. Viewers learn essential money management skills like setting up a budget and balancing needs versus wants, setting the foundation for financial stability. The hosts make budgeting relatable and engaging for high school students, showing how these skills apply to personal life and any career that requires smart money handling.

Struggling to stay focused? This video covers how to minimize distractions and improve concentration while studying. Thomas Frank offers tips to handle interruptions (like social media or games) and train your attention span:contentReference[oaicite:2]{index=2}. You’ll learn how to create a better study environment and use techniques to maintain focus. By improving concentration, you can study more efficiently and get more done in less time.

A short animated lesson on bioprinting – a form of 3D printing that uses bio-ink made of living cells to create human tissues. Educator Taneka Jones explains how scientists are developing techniques to fabricate organs from scratch, exploring the regenerative medicine that could one day save lives by printing transplantable human tissue.

Introduces the history and fundamentals of biotechnology through the discovery of DNA's structure and function. This CrashCourse video explores how scientists uncovered what DNA is and how it works, laying the groundwork for modern biotech. Learners gain insight into early genetic engineering milestones and the scientific teamwork behind them, building a base for advanced topics in biotech.

An interactive modeling the flight of a beach ball to exaggerate physics effects important in sports. Learners can adjust launch angle, speed, and spin to see how forces like gravity, air drag, and the Magnus effect (curve from spin) affect the ball’s trajectory. They observe how backspin can make a ball float or topspin make it drop. This hands-on activity builds physics and math skills, helping students connect equations to real sports phenomena (like curveballs in baseball or banana kicks in soccer) in a visually engaging way.

Be the President for four years in this civic . Balance your agenda and handle crises in a challenging leadership game.

How do we keep data safe in a dangerous digital world? This Crash Course video breaks down the core goals of cybersecurity (protecting data’s secrecy, integrity, and availability) and shows how tools like passwords and encryption keep our information secure.

Introduces the basics of electrical circuits using simple components. Through clear animations, it shows how circuit diagrams are drawn and how components like batteries, bulbs, and switches connect. Learners discover how current flows in a closed loop and the symbols for each part. Skills covered include reading circuit symbols and understanding series vs. parallel connections. This builds practical knowledge for anyone starting in electrical work or electronics.

A virtual lab where you learn to balance chemical equations by adjusting coefficients and observing conservation of mass. This sim provides an introduction mode with visual scales and molecule counts, and a game mode where you earn stars for correctly balancing a series of equations. It makes mastering stoichiometric balance an intuitive, game-like experience.

A fascinating read that underscores the importance of visualizing data instead of relying solely on summary statistics. This article explains classic examples like Anscombe’s Quartet and the “Datasaurus Dozen” – a collection of different datasets (including one shaped like a dinosaur) that all share the same statistical summaries but look very different when graphed. Through these examples, the article drives home how critical it is for analysts to plot their data, revealing patterns, outliers, or relationships that raw numbers and averages can hide.

An animated TED-Ed video exploring the science and myths behind genetically modified organisms in our food:contentReference[oaicite:19]{index=19}. It explains how genetic engineering works in crops and investigates common concerns about GMOs – from health effects to environmental impact. Viewers will learn about real examples, like pest-resistant and vitamin-fortified crops, and weigh the potential benefits (higher yields, less pesticide use) against the risks and public fears. The balanced discussion helps students develop critical thinking about GMO technology. By the end, learners will understand what GMOs are, how they’re regulated, and why the question of “good or bad” isn’t black-and-white but depends on responsible use and scientific evidence.

Featuring tech icons and celebrities, this famous Code.org video “**What Most Schools Don’t Teach**” makes the case that **anyone** can learn coding. Bill Gates, Mark Zuckerberg and others talk about how they started programming, and will inspire you with stories of students who built cool apps:contentReference[oaicite:18]{index=18}:contentReference[oaicite:19]{index=19}. It’s a motivational glimpse into the creative power of coding and why it’s important to learn – presented in an upbeat, teen-friendly way.

Join former NBA player Kendall Gill to explore how geometry helps nail the perfect basketball shot. This short video demonstrates how adjusting the angle of trajectory can determine whether the ball goes through the hoop. Learners see real sports examples of angles at work, linking math and physics to athletic performance. It builds understanding of applied geometry and gives practical insight into sports technique, from basketball shots to soccer kicks.

An interactive series of satellite images and commentary illustrating deforestation in the Amazon rainforest. Students can play through years of imagery (2000–2012) to see how roads and clearings expand in Rondônia, Brazil, and read about the causes and consequences of forest loss. Skills: analyzing visual data and understanding human impact on ecosystems. Applications: provides real-world evidence of land-use change, linking to biodiversity loss, climate change, and sustainable land management discussions.

A fascinating article examining the next generation of wind power—turbines that fly on kites or blimps in the high-altitude winds. Students learn how airborne wind turbines could generate more energy with less noise and wildlife impact compared to ground turbines. This story strengthens reading and critical thinking skills while highlighting innovative problem-solving and the kind of creative engineering roles involved in advancing sustainable energy.

This free course (auditable) explores foundational concepts in AI such as search algorithms, knowledge representation, and machine learning. While college-level, it’s accessible to advanced high schoolers. Focus on the first module for an introduction to core AI techniques.

This fast-paced, visual lesson from CrashCourse gives a solid introduction to artificial intelligence — covering history, major types, and current uses. High schoolers can see how AI is integrated into their daily lives and the ethical considerations that come with it.

A visually engaging explainer examining genetically modified organisms (GMOs) in our food supply. This video breaks down common myths and scientific facts about GMOs, exploring how genetic engineering in crops works and its impacts on health and the environment. Learners will develop critical thinking about biotechnology in agriculture and its relevance to global food security and careers in biotech and farming.

NASA’s “Eyes on the Solar System” is a 3D interactive experience that lets you explore planets, moons, and spacecraft as if you were there. You can fly alongside missions like Voyager or Curiosity, watch real-time positions of planets and their moons, and even travel to distant worlds all from your computer. This uses actual mission data to provide an accurate, up-to-date model of our solar system. It builds spatial reasoning and gives a feel for how space missions navigate the solar system, making it excellent for students curious about astronomy or considering careers in space exploration.

High school engineering teacher Doug Scott explains the basics of how a 3D printer works, what it can make, and how students can create their own designs. This video-based lesson connects invention and education, showing that “anyone can be an inventor” through tools like 3D printing.

High school engineering teacher Doug Scott explains the basics of how 3D printing works and what it can create, as demonstrated at the USPTO’s National Summer Teachers Institute. Viewers see a classroom perspective on 3D design turning into physical objects with a 3D printer. This video introduces additive manufacturing principles in an accessible way, inspiring students to imagine inventing and prototyping their own designs with 3D printing. Learners will discover how digital models are transformed into real items layer by layer, learn the steps from design to printed product, and understand the inventive mindset behind classroom 3D printing projects.

A step-by-step tutorial by an educator that introduces free 3D modeling software and techniques for beginners through advanced users. It covers choosing the right CAD software, from solid modeling (Tinkercad, AutoCAD, etc.) to surface modeling (Blender, Maya), and provides short video lessons to build skills in designing and prototyping your own 3D creations.

This engaging news article tells the true story of a 15-year-old student who discovered an exoplanet (a planet beyond our solar system). During a science internship, Tom Wagg noticed a tiny dip in a star’s brightness – evidence of a planet crossing in front of it – and became the youngest person to find a new world. The article explains the transit method of finding exoplanets and shares Tom’s excitement and the follow-up by professional astronomers. It’s an inspiring read that shows real-world science in action and might encourage you to pursue your own astronomy projects or even a career in astrophysics.

An animated TED-Ed video investigating whether we could power the entire world with 100% renewable energy. It engages learners in the opportunities and obstacles of replacing fossil fuels with solar, wind, and other renewables. Viewers learn about energy storage, grid challenges, and economic factors in a sustainable energy transition. The lesson builds critical thinking on real-world engineering problems and climate solutions relevant to future careers in sustainability.

keletal muscle is the most abundant tissue in the human body. Known for its primary role in movement, muscle also plays important roles in regulating metabolism, maintaining body temperature and providing large stores of protein, carbohydrates and fats. Muscle cells (known as ‘muscle fibres’) can rapidly adapt to exercise or disuse by changing size and function. Many myths and misconceptions have proliferated through the years related to skeletal muscle, exercise training and human performance.

An informative animation (featured on TED-Ed) that explains the alarming decline of honeybee populations and why it matters:contentReference[oaicite:33]{index=33}. With engaging visuals, it outlines factors causing colony collapse disorder: parasitic mites, widespread pesticide use, habitat loss, and diseases:contentReference[oaicite:34]{index=34}. Students will learn how vital bees are to agriculture – pollinating about $265 billion worth of crops annually – and what a world without enough bees could mean for our food supply. The video also highlights human actions being taken to help bees, like changes in farming practices and conservation efforts. This science story not only teaches biology and ecology concepts (pollination, ecosystems) but also inspires problem-solving for environmental challenges, emphasizing that protecting bees is crucial for our future food security.

A visually engaging video that explores how vertical farming works and why it’s revolutionizing agriculture in cities:contentReference[oaicite:22]{index=22}. Narrator Fred Mills takes viewers inside a modern indoor farm where crops grow in stacked layers under LED lights and controlled climate conditions. Students will discover the benefits of growing food 'up' instead of out: year-round production, drastically less water use, no pesticides, and proximity to urban markets. The video breaks down the technology – from hydroponic nutrient delivery to automation – that allows plants to thrive without soil or sunlight. By examining both the promises (fresh produce with a tiny land footprint) and challenges (energy costs of artificial lighting) of vertical farms, learners gain insight into a key agritech innovation aimed at feeding the future sustainably.

This upbeat documentary segment profiles cutting-edge farm robots that can pick delicate fruit to reduce food waste:contentReference[oaicite:27]{index=27}. Freethink’s Hard Reset series visits Dogtooth Technologies in the UK, where engineers have developed autonomous robots that harvest strawberries gently at night:contentReference[oaicite:28]{index=28}. Students will see how the robots navigate around plants, use machine vision to spot ripe berries, and handle them without bruising. The video discusses why tasks like fruit picking have been hard to automate and how AI and robotics are now overcoming those challenges:contentReference[oaicite:29]{index=29}:contentReference[oaicite:30]{index=30}. By showcasing real working agri-robots, the story highlights career paths in agricultural robotics and invites learners to imagine solutions to labor shortages and food waste through technology. It’s an inspiring look at the future of farming where robots and AI help feed the world.

A TED-Ed lesson that investigates the differences between traditional farm-raised meat, plant-based meat alternatives, and lab-grown cultured meat:contentReference[oaicite:31]{index=31}. Narrator Carolyn Beans breaks down how each type is produced and compares their nutritional profiles and environmental impacts. Learners will find out, for example, how plant-based burgers mimic meat using proteins from peas or soy, and how scientists are growing real animal muscle cells in bioreactors as “cultivated” meat:contentReference[oaicite:32]{index=32}. The video analyzes health considerations (like saturated fat content and additives) and asks whether these new options are actually better for us and the planet. By presenting balanced facts and debunking misconceptions, it equips students to critically evaluate food tech innovations and consider how our dietary choices connect to sustainability and health.

A short showcase of FarmBot – the world’s first open-source CNC farming machine – and how it automates gardening. FarmBot is like a giant 3D printer for plants: it moves across a garden bed on rails, sowing seeds, watering plants, and even weeding with precision. This video highlights how FarmBot can be used in backyards, schools, and research to demonstrate precision agriculture on a small scale:contentReference[oaicite:36]{index=36}. Students will see the robot in action and learn how it’s controlled by software and customizable hardware, all shared openly so anyone can build or modify their own. By integrating robotics, coding, and agriculture, FarmBot makes growing food a hands-on STEM learning experience. This content inspires learners to imagine new DIY technologies for sustainable farming and shows how open-source innovation is empowering a new generation of urban and hobby farmers.

Crash Course Geography examines the different agricultural systems humans use around the world to produce our food. In about 12 minutes, it compares subsistence farming, small-scale local agriculture, and large-scale industrial agribusiness across various regions:contentReference[oaicite:23]{index=23}. Students will learn how climate, soil, and culture influence what farming methods develop where – from terraced rice paddies to vast Midwest corn farms. The video also introduces the Green Revolution and modern improvements that boosted crop yields, as well as issues like uneven food distribution. By connecting population, technology, and geography, this overview gives learners a global perspective on where our food comes from and the sustainability challenges we face in feeding the world.

A short NASA eClips educational video that shows how scientists and engineers grow plants on the International Space Station:contentReference[oaicite:24]{index=24}. It introduces the special systems (like the Veggie growth chamber and controlled LED lighting) needed to cultivate crops in microgravity, where soil and traditional farming aren’t possible. Viewers hear from NASA experts (such as Jacob Torres) about designing both open and closed plant growth systems and why fresh vegetables are important for astronauts:contentReference[oaicite:25]{index=25}:contentReference[oaicite:26]{index=26}. This clip covers science concepts like photosynthesis and life support, and demonstrates the creative problem-solving behind farming beyond Earth. By linking space exploration to agriculture, students see an exciting application of botany and engineering – growing food in space – that also yields insights to improve farming on Earth.

A PBS NewsHour report showing how farmers are using drone technology to make agriculture more efficient and eco-friendly. In this 11-minute segment, viewers visit farms where UAVs survey fields from above, helping apply fertilizer and water with pinpoint accuracy while reducing runoff:contentReference[oaicite:20]{index=20}. Students will see dramatic aerial footage and learn how data collected by drones (on soil health, crop growth, pest outbreaks) enables precision agriculture. The story highlights the skills behind drone operation and data analysis, connecting them to better crop yields and environmental protection. By illustrating real-world examples – like preventing fertilizer pollution in Lake Erie:contentReference[oaicite:21]{index=21} – the video shows how high-tech tools like drones are the future of sustainable farming.

A free browser game that puts you in the role of a farmer in a poor rural community, challenging you to survive and improve your family’s life under tough conditions:contentReference[oaicite:35]{index=35}. Players must make yearly decisions – what crops to plant, whether to invest in livestock or basic infrastructure – while facing random events like droughts, civil unrest, or disease. Through this , learners directly experience the constraints faced by farmers in developing countries: limited resources, lack of access to education or technology, and the impact of bad harvests or market prices. The goal is to sustain the farm over multiple generations, highlighting concepts in economics, environmental science, and global development. By “playing” through the systemic challenges, students gain empathy and a deeper understanding of real-world agrarian poverty and the importance of sustainable development and innovation in agriculture.

An animated TED-Ed video exploring the science and myths behind genetically modified organisms in our food:contentReference[oaicite:19]{index=19}. It explains how genetic engineering works in crops and investigates common concerns about GMOs – from health effects to environmental impact. Viewers will learn about real examples, like pest-resistant and vitamin-fortified crops, and weigh the potential benefits (higher yields, less pesticide use) against the risks and public fears. The balanced discussion helps students develop critical thinking about GMO technology. By the end, learners will understand what GMOs are, how they’re regulated, and why the question of “good or bad” isn’t black-and-white but depends on responsible use and scientific evidence.

Before we talk AI, we need to understand the basics. This short TED-Ed lesson explains what algorithms are and why they matter — laying the foundation for understanding how AI decision-making works. Great for anyone new to computational thinking.

This stunning visual explanation of how neural networks work brings the math and magic of AI to life. While math-heavy, the visuals make it engaging for curious high schoolers wanting to peek under the hood of how AI ‘thinks’.

What can ChatGPT do? This beginner-friendly video introduces high school students to conversational AI, offering tips for safe, smart use in school projects and writing tasks. Students will explore how AI understands prompts and produces answers, empowering them to start using AI as a tool rather than just a trend.

Curious about how tools like DALL·E or ChatGPT generate content? This friendly walkthrough explains how generative models create images and text. A great first step before students try using generative AI in creative class projects.

This self-paced module introduces students to algorithms — the building blocks behind AI. Learn about sorting, searching, and problem-solving strategies in computing. The lessons offer hands-on practice and are accessible for those new to computer science.

In this TEDxHWZ talk, futurist Lars Thomsen explores how AI can act as ambient and augmented intelligence—supporting us rather than replacing us. He paints a vibrant picture of a “popcorn moment” in human development, where routine tasks are handled by AI, freeing us to focus on creativity, learning, and meaningful work. Ideal for students to envision positive human–AI collaboration in future careers.

How do machines learn from experience? This explainer covers the basics of machine learning with simple visuals and real-world examples like spam filters and movie recommendations. Students learn how models train and improve with data — perfect for demystifying how AI tools operate.

With great AI comes great responsibility. This video introduces high schoolers to the ethics of AI use, bias in data, and challenges of automation. Students will reflect on how their use of AI tools can have real-world impact, sparking thoughtful discussion.

This free course (auditable) explores foundational concepts in AI such as search algorithms, knowledge representation, and machine learning. While college-level, it’s accessible to advanced high schoolers. Focus on the first module for an introduction to core AI techniques.

This fast-paced, visual lesson from CrashCourse gives a solid introduction to artificial intelligence — covering history, major types, and current uses. High schoolers can see how AI is integrated into their daily lives and the ethical considerations that come with it.

Join the discussion about the pros and cons of AI in the classroom.

This TEDEd video explores the fascinating (and slightly scary) question: could a black hole ever consume Earth? Along the way, it explains what black holes are, how their intense gravity works, and why Earth is safe from being swallowed. Viewers learn about event horizons (the 'point of no return' around a black hole) and the importance of distance in space. By answering a dramatic question, the video teaches core physics and astronomy concepts, inspiring curiosity about cosmic phenomena and even careers in space science.

Could humans really move to Mars? This animated lesson examines what it would take to live on the Red Planet. It explores Mars’s harsh environment—freezing temperatures, thin carbon-dioxide atmosphere, intense radiation—and the challenges of getting essentials like oxygen and water. Viewers learn what daily life might look like in a Mars colony and what technologies (or even terraforming) would be needed to make Mars more Earth-like. It’s a great blend of science and engineering, inspiring those interested in space travel or careers in astronomy, astrobiology, or aerospace engineering.

Take a quick tour of our Solar System with this National Geographic 101 video. It introduces the Sun and the diverse family of objects orbiting it: the rocky inner planets, the gas giants, dwarf planets like Pluto, and smaller bodies like asteroids and comets. In just a few minutes, viewers get key facts about each planet (size, composition, rings, moons) and learn how the solar system formed from a cloud of dust and gas. This overview builds a foundation for understanding astronomy and space exploration, and shows how these basic facts are applied in careers from planetary science to aerospace.

Witness the epic life story of a star from birth to death in this educational video. It illustrates how stars form out of nebulae, shine for millions or billions of years, and eventually run out of fuel. Viewers learn the different end states of stars – smaller stars swell into red giants and fade to white dwarfs, while massive stars explode as supernovae and can become neutron stars or black holes. Understanding stellar evolution is key in astronomy and astrophysics, and this video provides those insights in a clear, visual way, sparking interest in cosmic cycles and possibly future research careers.

What are stars made of, and why do some look blue while others are red? This Crash Course video dives into the science of stars and how we categorize them. It teaches about stellar spectra (the light stars give off) and shows how that reveals a star’s temperature, size, and brightness. Viewers also learn about the Hertzsprung–Russell diagram, an essential tool that plots star brightness versus temperature and shows where stars fall during their lifetimes. Understanding stars is fundamental to astronomy and astrophysics – knowledge useful for projects on the life cycle of stars or any career studying the universe.

Zoom through our stellar neighborhood with this beautiful 3D map of 100,000 nearby stars. Developed as a Chrome Experiment, it lets you fly from the Sun out to surrounding star systems and even view our entire Milky Way galaxy from afar. You can click on stars to learn their names and see their location relative to Earth. This interactive visualization builds a sense of the immense scale of space and is great for understanding where Earth sits among the stars. It’s both an educational tool and a visually stunning experience, perfect for aspiring astronomers or anyone interested in the galaxy.

Join astronomer Phil Plait in the first episode of Crash Course Astronomy, which introduces the vast field of astronomy. From observations of the night sky to the mind-boggling scale of the universe, this video lays out what astronomers study and why it matters. Viewers get a tour of planets, stars, galaxies, and even the Big Bang, building a broad understanding of our cosmos. It's a perfect starting point for anyone curious about space, and it shows how studying astronomy can lead to careers in science, technology, and space exploration.

This hands-on lets you experiment with the Sun, Earth, Moon, and a space station to see how gravity controls their motion. You can move these objects and instantly see changes in their orbital paths and gravitational forces. It also visualizes the vast differences in size and distance between celestial bodies, and even lets you turn off gravity to see what would happen! This interactive tool helps you learn key concepts like why planets orbit the Sun and how orbital speed works, building skills useful in physics, astronomy, or any aerospace career.

NASA’s “Eyes on the Solar System” is a 3D interactive experience that lets you explore planets, moons, and spacecraft as if you were there. You can fly alongside missions like Voyager or Curiosity, watch real-time positions of planets and their moons, and even travel to distant worlds all from your computer. This uses actual mission data to provide an accurate, up-to-date model of our solar system. It builds spatial reasoning and gives a feel for how space missions navigate the solar system, making it excellent for students curious about astronomy or considering careers in space exploration.

This engaging news article tells the true story of a 15-year-old student who discovered an exoplanet (a planet beyond our solar system). During a science internship, Tom Wagg noticed a tiny dip in a star’s brightness – evidence of a planet crossing in front of it – and became the youngest person to find a new world. The article explains the transit method of finding exoplanets and shares Tom’s excitement and the follow-up by professional astronomers. It’s an inspiring read that shows real-world science in action and might encourage you to pursue your own astronomy projects or even a career in astrophysics.

A tutorial video explaining the Polymerase Chain Reaction (PCR), a core biotechnology technique. Students learn how PCR works to amplify DNA segments, including the roles of primers, DNA polymerase, and temperature cycles. By visualizing each step, learners grasp how PCR enables forensic DNA tests, medical diagnostics, and genetic research, building their lab technique knowledge and career awareness in molecular biology.

An animated TED-Ed lesson illustrating the science of CRISPR-Cas9 gene editing. Viewers learn how CRISPR works like molecular scissors to target and modify DNA, enabling precise genetic changes. The video shows real-world applications, from curing genetic diseases to engineering crops, giving learners an engaging introduction to this revolutionary biotech tool and the skills behind genetic engineering.

This interactive Click & Learn uses the central dogma as a model for exploring how modern molecular biology technologies can be used to treat different genetic conditions. Learners investigate real cases where biotechnology is used to treat genetic disorders—such as using gene therapy, RNA interference, or CRISPR to correct faulty genes. By simulating these technologies, students build problem-solving skills and see biotechnology’s impact on medicine and biotech careers.

A hands-on that lets students control gene expression in a virtual cell and see how proteins are made. Learners toggle DNA transcription and mRNA translation processes to produce proteins, exploring factors like gene regulation and mutation. This interactive tool reinforces understanding of how genes code for traits and develops lab skills relevant to biotechnology and molecular biology careers.

A student-friendly news article on using gene editing to combat malaria-carrying mosquitoes. It explains how scientists created a CRISPR-based 'gene drive' to stop mosquitoes from reproducing. Learners see an exciting real-world example of biotechnology improving public health and discuss ecological impacts. The article builds literacy and shows how biotech innovations can address global challenges, preparing students for discussions in environmental science or bioethics.

An interactive module where learners virtually explore how CRISPR-Cas9 works and experiment with its applications. Students step through the gene-editing process: designing a guide RNA, cutting DNA with Cas9, and seeing how genes can be modified or turned off. They build skills in understanding molecular biology techniques and appreciate how CRISPR is applied in medicine, agriculture, and research.

A science news article reporting on the first human trials of CRISPR gene editing to treat diseases. Written for students, it describes how researchers are using CRISPR to target conditions like cancer, blood disorders, and blindness. Learners will improve reading comprehension while discovering cutting-edge biotech applications and considering ethical implications—insights relevant to careers in biomedical research and medicine.

A virtual lab where students perform a DNA extraction from human cheek cells step by step. Learners use virtual pipettes, test tubes, and centrifuges to isolate DNA, mirroring a real biotech laboratory protocol. This interactive experience builds practical lab skills—like following procedures and understanding reagents—and connects to biotechnology careers in genetics and forensics.

Introduces the history and fundamentals of biotechnology through the discovery of DNA's structure and function. This CrashCourse video explores how scientists uncovered what DNA is and how it works, laying the groundwork for modern biotech. Learners gain insight into early genetic engineering milestones and the scientific teamwork behind them, building a base for advanced topics in biotech.

A visually engaging explainer examining genetically modified organisms (GMOs) in our food supply. This video breaks down common myths and scientific facts about GMOs, exploring how genetic engineering in crops works and its impacts on health and the environment. Learners will develop critical thinking about biotechnology in agriculture and its relevance to global food security and careers in biotech and farming.

A brief video profile of Neesa Nelson, a high school senior passionate about designing and engineering 3D models in her CAD class. Neesa shares her enthusiasm for 3D modeling and how working on 3D printing projects at school inspires her creativity and future goals in education.

Open University course covering the fundamentals of additive manufacturing processes, from creating a computer-aided design model to building a final 3D-printed part. Learners explore the steps of 3D printing, materials and techniques, design implications, and how 3D printing is transforming modern manufacturing.

A concise encyclopedia entry explaining the 3D printing process and its limitations. It describes how a print head deposits material drop by drop (similar to an inkjet printer) to build up a 3D object. The article also discusses common polymers used (like ABS and polypropylene) and design considerations such as support structures and voids in 3D-printed components.

Meet six seniors in a high school CAD program using 3D modeling software to create mechanical and architectural designs. This short profile shows how students apply CAD skills to fields like engineering, entertainment, visual effects, and more, demonstrating the real-world impact of learning 3D modeling.

This hands-on module explores how Pixar creates natural-looking environments by weaving straight lines into smooth curves. Students use midpoints to construct parabolic arcs, learning the math behind realistic scenery in animation. The lesson includes interactive exercises and takes about an hour to complete, blending art, geometry, and computer graphics.

An interactive lesson from Pixar in a Box that teaches subdivision surface modeling, a technique Pixar uses to create smooth 3D characters. Through videos and practice, learners discover how splitting and averaging operations refine a 3D mesh, demonstrating one of Pixar’s key technologies for turning rough models into detailed, lifelike characters.

Energy3D is a free, -based 3D CAD tool for designing green buildings and power stations that harness renewable energy to achieve sustainable development. Students can sketch buildings, position them on real map images, and analyze solar performance with heat maps and graphs. Artificial intelligence features even help optimize designs. At the end, you can print and assemble a paper model of your structure.

A short animated lesson on bioprinting – a form of 3D printing that uses bio-ink made of living cells to create human tissues. Educator Taneka Jones explains how scientists are developing techniques to fabricate organs from scratch, exploring the regenerative medicine that could one day save lives by printing transplantable human tissue.

High school engineering teacher Doug Scott explains the basics of how a 3D printer works, what it can make, and how students can create their own designs. This video-based lesson connects invention and education, showing that “anyone can be an inventor” through tools like 3D printing.

A step-by-step tutorial by an educator that introduces free 3D modeling software and techniques for beginners through advanced users. It covers choosing the right CAD software, from solid modeling (Tinkercad, AutoCAD, etc.) to surface modeling (Blender, Maya), and provides short video lessons to build skills in designing and prototyping your own 3D creations.

Why do cookies smell and taste so good? This animated TED-Ed lesson breaks down the science of baking cookies from the moment you put dough in the oven. It covers how the dough spreads, the temperature at which harmful bacteria are killed, and the Maillard reactions that create the mouth-watering aroma and browning. A delicious blend of basic chemistry and cooking know-how that explains it’s not magic – it’s science.

A 3D for exploring molecular geometry by adding bonds and lone pairs around a central atom. Students can construct molecules and see how the shape changes (linear, bent, tetrahedral, etc.) as electron domains repel each other. The sim also lets you compare your models to real molecules, visualizing concepts of VSEPR theory in an interactive way.

An interactive tool to test the pH of everyday liquids like coffee, spit, and soap to determine whether each is acidic, basic, or neutral. Visualize the relative concentration of H⁺ and OH⁻ ions in solution, and even experiment with dilution and volume changes to see their effect on pH. The ’s easy, hands-on approach demystifies the pH scale and indicators.

This Crash Course episode tackles stoichiometry — the quantitative relationships in chemical reactions — in a fun, relatable way. Hank explains why chemists use stoichiometry “to make the scale of chemistry more understandable” and teaches how to calculate moles, masses, and molecules in reactions. By the end, you’ll see how to predict amounts of products and reactants using basic stoichiometric ratios.

In this high-energy introduction to chemistry, Hank Green makes the case that chemistry is “the amazing and beautiful science of stuff,” not torture. The 10-minute episode covers the basic structure of the atom (protons, neutrons, electrons), atomic number, and how our understanding of the nucleus evolved. It’s a friendly welcome to the world of chemistry for new learners.

An exploration of the Haber process — the monumental chemical reaction that turns nitrogen from the air into ammonia fertilizer, helping to feed billions. The lesson explains how this reaction boosted food production worldwide and then examines its unintended environmental impacts. It’s a story of chemistry’s double-edged sword: enabling modern agriculture while disrupting ecosystems.

A virtual gas lab to explore kinetic molecular theory and gas laws. You can pump gas molecules into a box, heat or cool the gas, and change the volume to see real-time changes in pressure and temperature. The includes measurement tools and allows you to discover relationships like Boyle’s law and Charles’s law through inquiry, even observing diffusion when a divider is removed.

This short video (from the ACS Reactions series) showcases the chemistry behind fireworks – from the sizzle of the fuse to the colorful explosions in the sky. A chemist explains how different metal salts produce specific colors (strontium reds, copper blues), how the oxidizer-fuel reactions release energy, and why the sound of the boom follows the flash. It’s a visually exciting way to see “chemistry in action” during a Fourth of July show.

In this drag-and-drop , learners build atoms from protons, neutrons, and electrons to discover how atomic number, charge, and mass are determined. You can experiment with different combinations to form stable or unstable atoms and then play a guided game to test your understanding of elements, isotopes, and ions.

A virtual lab where you learn to balance chemical equations by adjusting coefficients and observing conservation of mass. This sim provides an introduction mode with visual scales and molecule counts, and a game mode where you earn stars for correctly balancing a series of equations. It makes mastering stoichiometric balance an intuitive, game-like experience.

**Think Like A Coder** is an animated story series that teaches programming concepts through adventure. In Episode 1, *“The Prison Break,”* a girl named Ethic and her robot companion must escape a cell by solving puzzles using logic and coding principles:contentReference[oaicite:16]{index=16}. This video introduces loops and sequence in a fun narrative format. It’s a short, story-driven way to start thinking like a programmer – perfect for those who enjoy storytelling while learning tech.

In **Minecraft: Voyage Aquatic**, you’ll learn coding by guiding a Minecraft character through ocean puzzles. This Hour of Code interactive module has you drag-and-drop code blocks (like loops and conditionals) to explore and solve tasks in a Minecraft underwater world:contentReference[oaicite:13]{index=13}:contentReference[oaicite:14]{index=14}. With each level, you build your skills – from navigating a boat to catching underwater creatures. It’s a fun, self-paced way to dive into programming fundamentals with a Minecraft twist.

“**Dance Party**” is a lively Hour of Code activity where you use block coding to choreograph a dance. This free interactive tutorial lets you snap together coding blocks to make funny characters dance to popular songs:contentReference[oaicite:11]{index=11}:contentReference[oaicite:12]{index=12}. You’ll learn basics like sequencing and events as you create your own animated dance party on screen. It’s a quick, creative introduction to coding that ends with a colorful performance you can share!

In this introductory Scratch coding tutorial, you’ll learn the basics of creating animations and games with **Scratch**. The video walks you through the Scratch interface and shows how to snap together colorful coding blocks to make characters move and interact. Geared toward beginners, it covers fundamental concepts like loops and events in a simple, engaging way. By following along, you’ll build a short project and gain the confidence to start making your own Scratch creations.

In this CrashCourse Computer Science video, host Carrie Anne Philbin breaks down the **basic building blocks of programming**. You’ll learn about statements, functions, and how computers follow instructions step-by-step:contentReference[oaicite:20]{index=20}:contentReference[oaicite:21]{index=21}. The video uses simple examples to show what coding syntax looks like and how a program executes. It’s a quick conceptual introduction that demystifies what code is and sets you up for success when you start writing your own programs.

CodeCombat turns learning to code into a fun adventure game. In this web-based **interactive **, you play as a hero navigating dungeons and battling enemies by writing real Python or JavaScript code. The game starts with easy levels that teach basic syntax and gradually ramps up to more complex challenges:contentReference[oaicite:10]{index=10}. It’s an engaging way for high schoolers to build programming skills – you solve puzzles and see your code come to life in the game!

This Khan Academy Hour of Code activity teaches you to **draw and animate with JavaScript**. Through step-by-step challenges, you’ll write simple JavaScript commands (using the ProcessingJS library) to create shapes, characters, and even a snowman on the screen:contentReference[oaicite:15]{index=15}. The tutorial is interactive – as you code, you immediately see your drawings come to life. By the end of this hour, you will have learned the basics of computer graphics programming and made your own digital art!

This short video from Code.org shows how computer science is changing every industry and aspect of society. Through real-world examples – from medicine to music – it highlights that coding isn’t just for programmers; it’s powering innovations everywhere:contentReference[oaicite:17]{index=17}. Leaders like Bill Gates and Mark Zuckerberg make cameos to emphasize that **computer science is for everyone**. It’s an inspiring overview that will open your eyes to the endless possibilities you can create with coding knowledge.

Join YouTuber Daniel Shiffman for a **3-hour beginner coding course** that feels like a fun workshop. In this video, you’ll learn creative coding using the Processing language (a beginner-friendly JavaScript framework) to draw art and visuals with code. The course starts from scratch – setting up your coding environment – and gradually introduces concepts like variables, loops, and drawing functions. By the end, you’ll have programmed your own interactive visual designs. It’s a comprehensive, hands-on introduction for aspiring coders, especially those interested in art and graphics.

Featuring tech icons and celebrities, this famous Code.org video “**What Most Schools Don’t Teach**” makes the case that **anyone** can learn coding. Bill Gates, Mark Zuckerberg and others talk about how they started programming, and will inspire you with stories of students who built cool apps:contentReference[oaicite:18]{index=18}:contentReference[oaicite:19]{index=19}. It’s a motivational glimpse into the creative power of coding and why it’s important to learn – presented in an upbeat, teen-friendly way.

Learn how to design and implement a microservices-based system.

Hackers may not be who you think they are. This short video reveals the different kinds of hackers — from inventive “white hats” to malicious “black hats” — and shows how hacking can be used for both good and evil.

Don’t be like Tim! This cautionary animated story follows a guy who casually posts personal info online — only to discover how far and wide his data spreads. A humorous look at why guarding your privacy matters.

The internet is fundamentally insecure — but you can protect yourself. This short, practical video shares simple tips for staying safe online, from using strong passwords to thinking twice before you click.

Not all hackers wear black hats. This Crash Course video explores the world of hacking — both good and bad — and the clever techniques hackers use to break into systems (and how defenders stop them).

Step into the role of a cybersecurity defender! In this interactive game, you’ll crack passwords, outsmart hackers, and secure a company against cyber attacks — all while learning real-world online safety strategies.

Believe it or not, most security breaches happen because of human mistakes, not high-tech wizardry. Learn how cybercriminals exploit human nature (like phishing scams) and what you can do to shut them down.

How trustworthy is your online communication? Learn how encryption scrambles data to protect your privacy — and why even strong codes can sometimes be cracked.

Ever wonder how your messages stay secret online? From ancient ciphers to modern algorithms, this Crash Course video reveals how encryption works to keep our data private — and why even the best codes have their limits.

How do we keep data safe in a dangerous digital world? This Crash Course video breaks down the core goals of cybersecurity (protecting data’s secrecy, integrity, and availability) and shows how tools like passwords and encryption keep our information secure.

A free self-paced virtual experience program created by the data science company Quantium. Participants step into the role of a data analyst, working through realistic tasks such as cleaning and analyzing a retail dataset, identifying customer purchasing behaviors, and generating business recommendations. This interactive provides hands-on practice with data validation, visualization, and analysis in a real-world context, allowing learners to build practical skills and confidence while earning a certificate for completing the program.

Data journalist David McCandless demonstrates the power of visualizing complex data in this TED talk. He shares striking, colorful visualizations that uncover unseen patterns and connections in topics ranging from global crises to pop culture trends. The talk emphasizes how good design and visualization can make data more understandable and beautiful, inspiring analysts to present information in ways that reveal insights and engage audiences.

An interactive course that teaches the fundamentals of data visualization in Python using the Seaborn library. Through a series of short lessons and a hands-on project, it covers how to create various types of charts (line plots, bar charts, heatmaps, scatter plots, histograms) and how to choose appropriate plot types to effectively communicate insights. Learners practice by writing code to generate visualizations for given datasets, reinforcing how visual analysis can reveal patterns and insights in data.

A series of interactive lessons that teach you the fundamentals of SQL (Structured Query Language) by having you read explanations and then practice writing queries in an in-browser SQL environment. The tutorials start from basic SELECT queries and gradually introduce more complex concepts like filters, joins, and aggregations, letting you immediately apply what you learn. It's a hands-on way to build practical database querying skills, with instant feedback as you progress through real-time exercises.

A web-based data exploration tool by Gapminder that allows you to visualize global development statistics over time. Users can select indicators (like life expectancy, income, population, etc.) and see how countries progress via animated bubble charts (similar to those used by Hans Rosling). This interactive tool encourages you to play with the data—comparing countries, adjusting time scales, and observing trends—providing a hands-on way to discover insights and correlations in real-world data.

A web-based platform offering an interactive visual introduction to probability and statistics. The site is organized into chapters covering key concepts (like basic probability, distributions, Bayesian inference, and regression), each featuring intuitive explanations alongside interactive graphics and s. As users explore topics like variance, Bayesian updating, or regression, they can manipulate parameters and see the effects in real time, helping to build strong statistical intuition through visual learning.

An in-depth video course that introduces data analysis in Python, using popular libraries like NumPy for numerical computing, Pandas for data manipulation, and Matplotlib/Seaborn for data visualization. It covers practical examples and real datasets, teaching fundamental analytics skills and how to draw insights from data—an excellent starting point for aspiring data analysts to build a solid foundation in Python-based data analysis.

An end-to-end Power BI course that teaches how to use Microsoft’s business intelligence tool for data analysis and visualization. Aimed at beginners, this full-length tutorial (hosted by data analyst Luke Barousse) walks through connecting to data, transforming and cleaning data in Power BI, creating interactive visuals like charts and maps, building dashboards, and sharing reports. By following along, learners gain practical experience with the Power BI interface, data modeling concepts, DAX formulas, and best practices for turning raw data into insightful, shareable business dashboards.

In this engaging TED talk, statistician Hans Rosling uses interactive visualizations to debunk common misconceptions about global development. He dynamically demonstrates how data (such as child mortality and income over time) can reveal surprising insights when presented through animated bubble charts. The talk not only showcases a powerful example of exploratory data analysis in action but also emphasizes the importance of using data visualization to uncover the true story behind global statistics.

A hands-on interactive course focusing on data manipulation using the Pandas library in Python. It provides short, practical lessons where you read about a concept or technique (such as selecting data, filtering, grouping, merging, etc.) and then immediately solve coding challenges in the browser to apply what you learned. This course is designed to quickly build your proficiency in cleaning and analyzing real-world datasets using Pandas, with instant feedback and hints to reinforce learning.

A simple browser-based game that tests and sharpens your ability to estimate correlation coefficients from scatter plots. You’ll be shown a scatter plot of points and asked to guess the correlation (a value between -1 and 1). After you submit your guess, the actual correlation is revealed and you earn points based on accuracy. This addictive provides a fun way to build intuition about statistical correlations, helping analysts develop a better sense for how data relationships appear visually.

An extensive video tutorial that takes viewers from the basics to advanced techniques of data analysis in Microsoft Excel. Covering over seven hours of content, it starts with fundamental Excel operations and functions, then delves into data cleaning, using formulas for analysis, pivot tables for summarizing data, and creating charts for data visualization. This course serves as a one-stop resource for mastering Excel's data analysis capabilities, enabling learners to efficiently manipulate datasets and draw insights using Excel's powerful tools.

A comprehensive free online course covering the fundamentals of statistics and probability. Offered by Khan Academy, it includes a structured curriculum with video lessons, articles, and interactive practice exercises. Learners can study topics such as descriptive statistics, probability theory, inferential statistics (including confidence intervals and hypothesis testing), and more. This course provides the mathematical backbone for data analytics, helping you develop the ability to understand data distributions, make predictions, and draw reliable conclusions from data.

A comprehensive online tutorial for learning SQL specifically geared toward data analysis. It offers a progression of interactive lessons where you write and run SQL queries on real data using Mode's web-based editor, getting immediate results and feedback. The tutorial covers basic to advanced SQL concepts—from SELECT statements and filtering to joins and aggregations—allowing learners to practice each concept hands-on in a realistic environment and build confidence in answering data questions with SQL.

A fascinating read that underscores the importance of visualizing data instead of relying solely on summary statistics. This article explains classic examples like Anscombe’s Quartet and the “Datasaurus Dozen” – a collection of different datasets (including one shaped like a dinosaur) that all share the same statistical summaries but look very different when graphed. Through these examples, the article drives home how critical it is for analysts to plot their data, revealing patterns, outliers, or relationships that raw numbers and averages can hide.

Explores propaganda, misinformation, and the dark side of media – crucial knowledge for media-literate citizens.

Uses psychology to explain why our brains believe false information and how fake facts gain traction.

Simulated social network that lets students practice digital citizenship skills in a realistic online environment.