F = M a
a = F / M = 65 / 10 = 6.5 meters per second2
it would be rolling friction
5.6 cm/sec2
F = ma, 1N = 1kg(m/s^2) 65 N = 10kg * a a = 65N / 10kg a = 6.5 m/s^2
0 since the speed is constant
Remember Newton's Second Law of Universal Dynamics. Put into algebraic form it is F = ma To answer your question a = F/m Acceleration is equal to force(F) divided by mass(m) of the object being pushed/[pulled.
Inertia is the resistance of any object (in a physical state) to change pressed upon its current movement. It can be found by the Formula F=ma.F being force in relation to inertia, M being Mass, A is Acceleration.
5.6 cm/sec2
F = ma, 1N = 1kg(m/s^2) 65 N = 10kg * a a = 65N / 10kg a = 6.5 m/s^2
0 since the speed is constant
Use the formula for centripetal acceleration: velocity squared / radius.
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Sisyphus. After his death, King Sisyphus was condemned to Hell; he would be freed when he managed to roll an enormous boulder out of the valley. But the boulder was enchanted; it would always roll back down the hill into the valley again, and Sisyphus would spend the rest of eternity repeating this same hopeless task.
rocks being pushed together
Convert the speed to meters per second. Use the formula acceleration = speed squared / radius to find the centripetal acceleration. Then use the formula force = mass x acceleration to find the corresponding force.
Remember Newton's Second Law of Universal Dynamics. Put into algebraic form it is F = ma To answer your question a = F/m Acceleration is equal to force(F) divided by mass(m) of the object being pushed/[pulled.
The action is the bullet being pushed out of the barrel. The equal and opposite reaction is the gun being pushed back.
Inertia is the resistance of any object (in a physical state) to change pressed upon its current movement. It can be found by the Formula F=ma.F being force in relation to inertia, M being Mass, A is Acceleration.
1) The most obvious is that a boulder is significantly larger than a pebble or smaller boulder or rock. This would give the illusion of a smaller pebble weathering quiker than a boulder, when they are actually weathering at the same rate 2) The way they are being weather can be a factor. If you have a boulder being hit by only water or air while a pebble is all over the river bottom and sand than the pebble will weather quicker because there are more forces acting on it than the boulder.