SciShow
Exploring Uranus and Neptune
Could humans survive on Uranus or Neptune? As an installment of a larger solar system series, the video lesson continues in its description of planets in our solar system. A thorough analysis of the two planets describes the physical...
SciShow
What's It Like on ... Venus?
Venus may not be the best option for the next space station! An episode of a larger solar system playlist describes the characteristics of the planet Venus. The instruction includes a description of its extreme environment and its...
SciShow
What's It Like On Mercury?
Take a video tour of the planet Mercury. An installment of a solar system series explores the characteristics of Mercury. The presenter compares the planet to Earth by examining similarities and differences.
Crash Course
Charts Are Like Pasta - Data Visualization Part 1: Crash Course Statistics #5
Clever marketers can use visual statistics to mislead their target populations. Explore these visual misrepresentations with a video lesson from a larger statistics playlist. The lesson instructor explains visual representations of both...
Crash Course
Mean, Median, and Mode: Measures of Central Tendency: Crash Course Statistics #3
If you have two feet, you have more than the average number of feet! Explore the meaning of the numbers of measures of central tendency of different data sets with the third of five lessons in a video statistics playlist. Using unique...
Crash Course
Mathematical Thinking: Crash Course Statistics #2
What is the probability that someone will draw the same lottery numbers two times in a row? Very small, but it can—and has—happened! Statisticians often work with very large or small numbers. The second lesson in a statistics playlist...
Physics Girl
5 Cool Math Tricks
They may seem like tricks, but the explanation is the really cool part! An installment of a comprehensive physics series breaks down some common and not so common math tricks. The narrator explains the trick and the mathematics that...
TED-Ed
The Strange Case of the Cyclops Sheep
Did you know the cyclops sheep got its name from the cyclopamine molecule found in wild corn lilies? But wht else is there to know about the cyclops sheep? Watch a video that explains the strange yet amazing discovery of the cyclopomine...
National Science Foundation
Engineering the Half Pipe—Science of the Winter Olympic Games
There are no tricks here! Young scholars learn about the concept of centripetal acceleration by studying the design of the snowboarding half pipe. A video lesson describes how the half pipe design affects the motion of the boarders.
National Science Foundation
Slapshot Physics—Science of the Winter Olympics
Take a shot at explaining the physics of hockey! Olympic hockey players explain the science of their craft in a video lesson. The lesson includes a discussion of force and velocity as well as potential and kinetic energy.
National Science Foundation
Olympics Motion—Science of the Winter Olympics
What makes the elite athletes elite? Young scholars watch a thorough video lesson that describes the science of muscle movement. The narrator explores the physical requirements of different sports.
National Science Foundation
Suit Up—Science of the Winter Olympics
You are what you wear! Learn the complex design strategies that result in the competition clothing seen in the Olympics. Scientists consider the requirement of each sport, which typically results in resisting air drag.
National Science Foundation
Mathletes—Science of the Winter Olympics
Investigate the mathematics of the Olympics. A science video how mathematics is important from the basic level of calculating scores to the more complex math of describing the velocity of motion. Scholars learn to view Olympic...
National Science Foundation
Safety Gear—Science of the Winter Olympics
Safety first! A science video explores the design of safety helmets. It considers both elastic and inelastic collisions.
National Science Foundation
Science of Skates—Science of the Winter Olympics
Speed skaters, hockey players, and ice skaters each have skates created specifically for their sports—an interesting fact for your Olympic Games fans! An engaging lesson explores the engineering design of different types of ice...
National Science Foundation
Aerial Physics—Science of the Winter Olympics
Take a leap into the science of motion! An intriguing lesson explains how Newton's third law of motion allows skiers to turn in mid-air. The narrator gives learners skills to practice on their own.
National Science Foundation
Science of Skis—Science of the Winter Olympics
The materials used to produce skis have come a long way over the years. A short video explains how the materials in skis serve a specific purpose on the course. The lesson explores materials such as fiberglass and polymers.
National Science Foundation
Internal Athlete—Science of the Winter Olympics
Cross-country skiers are some of the most disciplined athletes in the world. Young scholars learn about the biology of endurance in an interesting video lesson that highlights athletes of current and past Olympics.
National Science Foundation
Air Lift—Science of the Winter Olympics
Up, up, and away! Young scholars learn how to apply physics to a successful ski jump. An interesting video lesson compares and contrasts drag and lift in the context of a ski jump.
National Science Foundation
Blade Runners—Science of the Winter Olympics
Race to learn the insight of Sir Isaac Newton. A helpful video uses speed skating to explain Newton's laws of motion. Force, acceleration, mass, and momentum all work together to make a successful speed skating race.
National Science Foundation
Snowboarding—Science of the Winter Olympics
The greatest challenge of snowboarding is maintaining balance. An engaging video using a simple demonstration of actual snowboarders to illustrate physics in action.
National Science Foundation
Downhill Science—Science of the Winter Olympics
Newton would have made a first-rate skier! A video lesson analyzes Newton's second law from a skiing perspective. The narrator explains how the force, mass, and acceleration can work together to create a winning run.
National Science Foundation
Banking on Speed—Science of the Winter Olympics
Get on the right track! Young scholars learn about the importance of momentum and friction during a bobsled ride. A video lesson speaks to a bobsled designer to explain how he considers the physics during the design process.
National Science Foundation
Science Friction—Science of the Winter Olympics
Physics plays a role in most sports, and curling is no exception! A video explains how a curling team controls the friction between the stone and the ice to modify its movement.