acceleration in a circular motion :)
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Centripital force.
Going around on a Ferris wheel without stopping is an example of uniform circular motion.
As the ball moves in a circular path, it changes it's direction every moment. velocity is a vector and it depends both on speed and its direction. So, as the ball is changing its direction every time, we can say that it is changing its velocity as well. So, the ball is actually accelarating
It means he is in a curve, in which centripital action is causing an acceleration (a) equal to 6 times earths gravitational pull ( 6 * 9.82 = 58.92 (m/s)/s)the equation in use here would be:acceleration = velocity squared / (turn) radiusa = v^2 / rto achieve a 6 g turn at say 500 m / s, the radius would have to be v^2 / 58.92= 250 000 / 58.92 = 4 243 metres turn radius
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acceleration in a circular motion :)
Centripital force.
the moon rotates around the earth. The force keeping it in orbit around the earth aka the centripital force is caused by the gravitational force between the moon and the earth. If the gravitational force and thus the centripital force dissapeared, the moon would fly off tangent to its circular orbit
Because they are opposite in direction
centripital motion, gravity, friction, ect.
It is an resultant force directed toward the center of the rotating object
yes, this ADG helps the satellite to orbit earth. This is the centripital force
The motion would be circular characteristic of the centripital forces applied to the ball.
The Moon's speed is very constant. There are 2 kinds of acceleration: Linear and Centripital. Centripital acceleration is experienced by a body orbiting another body, like the Moon orbits the Earth, but it does not mean speeding up.
if you mean when they do a loop-de-loop-centripital force (centrifical force dosent exist)keeps them in their seets
Centripetal force is found using the equation F=mv2/r m=mass v=velocity r=radius