The collision of an object that hits a mass which can halt that object, what primarily matters is the speed only. The power of the impact would be same, no matter is the weight and the size of the mass, since it is heavy enough to halt the object that is moving at a very high speed. But the degree of destruction of the object moving at a high speed is proportional to the weight, speed and mass of that object that is running towards the mass.
A collision where the velocity remains the same but there is impact still.
inelastic collision The formulas for the velocities after a one-dimensional collision are: where V1f is the final velocity of the first object after impact V2f is the final velocity of the second object after impact V1 is the initial velocity of the first object before impact V2 is the initial velocity of the second object before impact M1 is the mass of the first object M2 is the mass of the second object CR is the coefficient of restitution; if it is 1 we have an elastic collision; if it is 0 we have a perfectly inelastic collision
The collision of an object that hits a mass which can halt that object, what primarily matters is the speed only. The power of the impact would be same, no matter is the weight and the size of the mass, since it is heavy enough to halt the object that is moving at a very high speed. But the degree of destruction of the object moving at a high speed is proportional to the weight, speed and mass of that object that is running towards the mass.
Higher the velocity of an object means the larget the impact it'll have with it's collision. It's sort of like a baseball pitcher - the faster his pitch the faster the ball leaves the bat (and ballpark).
We know that momentum is conserved, so we'd have no trouble answering that question if you had just told us what their velocities were before the collision.
Head-on collision produces the greatest force of impact.
Side impact collision
The impact force depends upon the height from which it has fallen (IE- its velocity upon impact), and the duration of impact (determined by the elasticity of the collision). However, the object exerts no force upon the ground *while* falling.
A bad collision.
That is the correct spelling of "collision" (an impact).
Impact, Smash, Crash
collision