Through the Wormhole: Back to the Future
Albert Einstein gave science a better understanding of physics and the forces of the universe. But did the famous genius also give us the keys to time travel without even knowing it?
Millions of people across the world ride rollercoasters to get the thrill of their lives. Find out what it takes to make some of the fastest rollercoasters work.
Time: Doppler Effect
In this video clip from the Science Channel's "Time," physicist Michio Kaku goes to the races to see the Doppler effect in action and explain its relation to time.
Sci Fi Science: Flying Saucer
Michio Kaku unveils his design for a personal flying saucer that will allow you to effortlessly travel through space.
Assignment Discovery: Wavelength Basics
There are two types of waves transfer energy: transverse and longitudinal. All wavelengths have similar characteristics whether they are in water or air. Learn more on the Discovery Channel's series, "Assignment Discovery."
World Science Festival: Michio Kaku
Dr. Kiki interviews theoretical physicist and string theorist Michio Kaku. Check out this clip from the Science Channel's "World Science Festival" series to learn more.
Science of the Impossible: Intro to Zero Point Energy
Zero point energy is the force that preserves the structure of the universe. The possibilities are endless if we can one day harness the power from zero point energy. Learn more about zero point energy on Discovery Channel's "Science of the Impossible."
Assignment Discovery: Mass Energy Equivalence Formula
On Discovery Channel's "Assignment Discovery," learn about, what is perhaps, Albert Einstein's most startling conclusion, the mass-energy equivalence formula or E=mc squared. It states that energy and mass are linked with the speed of light.
Through The Wormhole: Double Vision
This physicist describes the fluctuating properties of light as an experience similar to staring at a barcode on a juice carton while intoxicated.
Through The Wormhole: DIY Wormhole
This physicist is driven to try and construct an actual wormhole that is both predictable and has stable properties. What could go wrong?