And let's just say it's in this direction here. The value of your tangential velocity is going to be five. And if you're walking in a circle, it doesn't matter which direction we just know. Right? So we've got the radius, which is sen. So the idea here is that you're walking and then also you just start to make a circle and we want to calculate this centripetal acceleration. We're moving at a constant 5 m per second, right, so this is basically our velocity, and then when we turn into a circle of radius 10, so we have our equals 10. Alright, so let's just go ahead and get to an example. This equation is the equation for centripetal acceleration, and it's just v tangential, squared, divided by big r And just like any other acceleration, the units for this acceleration are gonna be meters per second squared. We've got V A and R, and there's an equation that actually ties all of these up together. All right, so these are three important variables here. So we're just gonna use the letter Big are for this. And that's really just if you're traveling in a circle, that's really just the radius of that circle. Another variable that's important in circular motion is basically the distance from where you are on the set, on the path right in the circle that you're making towards the center. And again some textbooks will use a C or a rad. So this is your centripetal acceleration. So the idea here is that as your velocity changes direction as you're going around the circle, your acceleration actually always is changing direction so that it points towards the center. It could be a C, but some textbooks will also call us a RAB for radio. Centripetal just means center seeking, and the idea here is that this acceleration points towards the center of that circular path that you're making as two symbols. It's called the centripetal acceleration. And so this this acceleration has a special name. Right? Acceleration, remember, is a change in the velocity could be either the magnitude or the direction. Alright, so because the direction of your velocity is constantly changing, there's gonna be some acceleration. One way you can think about this is that if you were walking in a circle and for some reason just decided to stop turning, then you would just keep going off in a straight line like this. It's just a fancy math term, but the tangent really just means that it's a line that touches the circle only once and then keeps on going. This velocity here changes direction in uniform circular motion and your velocity at any point along the path has a special name. But because you are traveling in a circle, the direction of your velocity is constantly going to be changing. It doesn't really matter, Right? So the idea with uniform circular motion is that the magnitude of your velocity, the number is always going to be the same, right? Constant speed. So just imagine that you get and you start walking around in a circle, it could be counterclockwise or clockwise. The uniform part of circular motion just means that they're traveling with constant speed. So as the name implies, circular motion happens when you have objects, move in circular paths. So in this video, I want to introduce you to uniform circular motion. But now we're gonna start to see what happens when you have objects that move in circular motion. Everything's always been along a straight line, either in the X or Y axis or maybe at some angle like this. So up until now we talked about motion and forces.
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