The hosts of "Planet Slow Mo" visit CalTech to use the world's fastest camera, which can capture 10 trillion frames per second. They conduct various experiments, including filming the speed of light through a bottle, a chaotic cavity, and a miniature figurine of themselves. The camera is capable of capturing images in incredibly short time scales, such as picoseconds and femtoseconds. The hosts are amazed by the footage, which shows the light moving in slow motion, and they discuss the mind-blowing implications of being able to see the speed of light. The camera's capabilities are put into perspective when they learn that the CalTech team plans to increase the speed to one quadrillion frames per second in the future.
Here are the key facts extracted from the text:
1. The camera used in the experiment can capture 10 trillion frames per second.
2. The camera is located at CalTech.
3. The camera is capable of filming the speed of light.
4. The speed of light is approximately 20 million times faster than the fastest frame rate previously used on the channel.
5. The experiment involves filming light as it passes through a bottle of water with a bit of milk in it.
6. The light is scattered by the milk molecules, making it visible to the camera.
7. The camera captures the light at a rate of 100 billion frames per second.
8. The footage is played back at 20 frames per second, which is slowed down by a factor of 25 billion times.
9. The experiment also involves filming light as it bounces around a chaotic cavity.
10. The camera can capture images at a resolution of 549 by 439 pixels.
11. The camera uses a laser to create a high-speed pulse of light that is used to capture the images.
12. The experiment also involves filming the light as it scatters off the surface of two mini-figurines.
13. The camera can capture images at a rate of 500 billion frames per second.
14. The footage is played back at 20 frames per second, which is slowed down by a factor of 25 billion times.
15. The experiment also involves filming light as it travels through a small sample of diluted milk at a rate of 10 trillion frames per second.
16. The camera can capture images at a resolution of 549 by 439 pixels.
17. The CalTech team plans to increase the speed of the camera to one quadrillion frames per second in the future.