A bowling ball sitting on the rack kinetic or potential

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Question

Gauthmathier2947

Grade 10 · 2021-07-21

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is a bowling ball sitting on the rack kinetic or potential?

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Answer

potential. kinetic is only if it's moving

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Video Transcript

This problem is dealing with the difference between potential and kinetic energy, so we're going to go through different examples and i will number them and we'll see which ones are which so the first example is going to be a bicyclist that is pedaling, and so this bicyclist Is pedaling, and that means it's moving, and so it has to have kinetic energy to move. However, it's also gaining potential energy. So if you have the option to put both, i would put both and that's because it is going up a heel, so the cycling part means it has. Kinetic energy definitely has kinetic energy. So this, if there's only 1 option put that 1. If you're able to put 2 potential also, that's simply because if they're going up a hill, they are gaining potential gravitational potential energy, the other situations, i god give you do not have more than 1 answer, and so the second 1 would be when an archytos draws Back their bow, and so when they pull that string and hold it in place, they have now given the bow, a type of potential energy, and that is the elastic potential energy. And it has potential for that energy to turn an arrow into movement, which is kinetic energy. The third example would be volley ball. So if a volley ball players, spikes a ball, they are hitting this ball and giving it motion. And so remember, energy in motion is kinetic energy same thing with the baseball, so if you were to throw a baseball to a base, that ball is now moving through the air, and that is a kinetic energy. Remember kinetic is the energy associated with motion potential energy. Is stored, energy and so the next would be food, and so there is chemical bonds stored in food, and these are called chemical potential energy same thing with batteries. It has the potential to give energy to a human. That'S why we eat our food number. 6. Wind blowing through your hair. Well, when the wind blows through your hair, your hair is going to move that movement is kinetic energy, same thing when you're walking. If you're going for a walk down a street, you are moving you're, not elevating yourself to give you potential energy. You have kinetic energy if you were to sit on top of a tree. However, now you are up in the air and have gravitational potential energy? What'S your potential, you have the potential to fall out of that tree. If a ball is rolling down an alley like a bowling, ball rolling is motion, it is moving, so it has kinetic energy, and our last example will be that same bowling ball sitting up on a rack. Assuming this wreck is elevated and it has a potential to roll down, then it gets potential energy. And so let's look at some examples from around your house that can give you kinetic energy. So when you are looking around your house, anything that is moving, and so you could say your dog or your cat running, they would have a kinetic energy. You could say a pole table if you have poll table balls, so billiard balls is what they're called. Are poll table balls rolling after being hit to anything that is in motion? Another example could be a toy car in motion toy car, rolling anything that it has a mass and is moving has kinetic energy. So what about potential energy? Some examples of potential energy would be a book sitting on a shelf that has gravitational potential energy, and so that means it has potential to fall anything with the height batteries that are not in use. They have chemical potential energy. They have stored energy that they can give to an object and cause it to move so anything that is elevated, anything that is springy so a stretched spring. Anything like this is storing energy. Anything on a shelf candy in your pantry has chemical potential energy. That gives you energy after you eat it, so those are all examples of potential energy. So what does kinetic energy depend on? Well, kinetic energy depends on first this speed at which an object moves, so kinetic energy depends on the speed of an object and the mass it has. How do we know that? Look at our equation? Our kinetic energy equation is 1 half mass times velocity squared, so it depends on the things that are actually in the equation with it and so the greater a speed you can see. It'S all multiplied here, so the greater the speed, an object has the more kinetic energy kinetic energ. It will have so the more speed an object has the more kinetic energy it will have as well, and so what does kinetic energy depend on again? It depends on both mass and the speed of the object, and so since mass isn't going to be changing, the thing that would be changing would be speed, more speed, more kinetic at.

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