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AP Physics 1 Videos 86 videos

AP Physics 1: 2.5 Changes and Conservation Law
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AP Physics 1: 2.5 Changes and Conservation Law. At what point(s) in this situation is energy lost in any form?

AP Physics 1: 1.4 Waves
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AP Physics 1: 1.4 Waves. Which of the following is technically true for Max as he stands at the edge of oblivion? 

AP Physics 1: 1.4 Changes and Conservation Laws
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AP Physics 1: 1.4 Changes and Conservation Laws. Find the current across R2.

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AP Physics 1: 3.1 Object Interaction and Forces 202 Views


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Description:

It takes a tiny village to build a tiny renewable energy source.

Language:
English Language

Transcript

00:02

All right here's your shmoop du jour brought to you by little tiny people.

00:05

Sure it would be irresponsible to rule over an island full of 6-inch tall people but [Giant man kneeling over tiny people]

00:11

probably also feel pretty cool at least for a while. All right check out the [Giant man tied to the floor by all the small people]

00:15

following picture, this drippy thing here. All right in the satire Gulliver's [Picture of a mug on its side dripping water onto a cog]

00:19

Travels the main character ends up on the island of Lilliput which is

00:22

inhabited by tiny people. To supply power to the island the Lilliputians chief

00:27

electrical engineer has rigged that tiny paddle wheel with a radius of 3

00:32

centimeters to a motor that generates power. Waterfalls spin the wheel and a

00:37

single water droplet hits each paddle. Each water droplet is 1 gram which is

00:42

enough to move the paddle. Which of the following changes to the system will

00:46

result in a larger power output and here are the potential answers. [Potential answers appear]

00:54

Let's get these folks some more power so they can charge their tiny iPhones and [Static ball]

00:58

blast their teeny little air conditioners. Well Lilliput gets pretty

01:03

warm this time of year you know... Well torque equals force times the distance

01:06

from the axis at which the force is applied on the spinny thing, multiplied [Water wheel spinning]

01:12

by the sine of the angle created by the force vector and whatever part of the

01:16

spinny thing the force is being applied to. Well spinny thing by the way is a

01:20

special physics term... So which of the answers will increase the right side of [Man studying at a computer]

01:24

this equation. Well (A) definitely will not do it. If we decrease r we'll only

01:29

decrease the torque, same thing with answer B if we decrease the mass of the

01:34

water droplets we'll be decreasing the force acting on the wheel. After all the [Red cross drawn over answer B]

01:39

force of the falling water is coming from the force of gravity decrease mass [Man in a pool under a small waterfall]

01:43

and you'll be decreasing the force of gravity right alongside. And answer (D) is

01:48

really a zero-sum situation if two drops hit half the paddles well the total [Red cross drawn over answer D]

01:54

force is going to remain about the same. But if we move the paddle so the water

01:58

is hitting farther from the center then we're increasing that radius. Remember R [Man pulls the wheel to increase the distance]

02:04

doesn't mean the total length of the moment arm it means the distance from

02:09

the center of the wheel and where the force is being applied.

02:13

Its like if you have a five meter long lever and you only push on it at the 1 meter [Lever appears]

02:17

mark you basically just made yourself a 1 meter lever. Well those other 4 meters [Hand pushes on the lever]

02:23

of lever aren't doing you any good moving the force farther from the center

02:27

means a bigger R and that means more torque so the correct answer is (C). Okay [Hand pushes on the end of the lever]

02:32

there little dudes plug in your tiny little electric cars and crank up those

02:36

cute little washing machines, if only we could solve our energy problems with the [Tiny car drives next to man tied down]

02:40

you know a few drops of water...

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