Want this question answered?
because it looses energy in the process (to the ground, environment) therefore not letting it permit to bounce as high as it previously did.
the potential energy gets changed into kinetic energy so when it hits the ground it will bounce back up.
This is because...when a ball is dropped onto the ground, some of its energy and momentom is lost due to friction from the surface and when it bounces back....the gravitaton force pulls it downwards.... so it does not bounce back to its original height.if the ball is dropped onto an arena where there is zero gravitaion and friction, it will keep on bouncing back to thr same height.Aakash Dangaakash.dang@gmail.comB.tech - IT (3rd Year).
Yes, as the bungee cord gets longer, the bounce height will become greater. The object attached to the bungee cord will fall longer before being snapped back up by the bungee cord, and in turn the object will bounce higher before being pulled back down by the bungee cord.
Yes. Under ideal circumstances - no air resistance, elastic collision (i.e., perfect bounce), the ball should bounce back to the same height from which it was dropped, due to conservation of energy. In practice, some energy is always lost, both due to air resistance and to a non-perfect bounce.
because it looses energy in the process (to the ground, environment) therefore not letting it permit to bounce as high as it previously did.
the potential energy gets changed into kinetic energy so when it hits the ground it will bounce back up.
This is because...when a ball is dropped onto the ground, some of its energy and momentom is lost due to friction from the surface and when it bounces back....the gravitaton force pulls it downwards.... so it does not bounce back to its original height.if the ball is dropped onto an arena where there is zero gravitaion and friction, it will keep on bouncing back to thr same height.Aakash Dangaakash.dang@gmail.comB.tech - IT (3rd Year).
As long as the tennis ball is not thrust downward, yes, the tennis ball will bounce back to the same proportion of its original height, no matter how far it's dropped, as long as the height is small enough that air resistance can be ignored. The ball will eventually come to rest due to this air resistance.
75%
Yes, as the bungee cord gets longer, the bounce height will become greater. The object attached to the bungee cord will fall longer before being snapped back up by the bungee cord, and in turn the object will bounce higher before being pulled back down by the bungee cord.
Yes. Under ideal circumstances - no air resistance, elastic collision (i.e., perfect bounce), the ball should bounce back to the same height from which it was dropped, due to conservation of energy. In practice, some energy is always lost, both due to air resistance and to a non-perfect bounce.
Bounce Back was created in 2002.
When you drop a ball from, say, 3 metres, it will bounce back to roughly 2 metres.
Yes. The farther down gravity pulls you the farther you'll go back up.
the cheque is being returned(bounced back) by the bank for non-sufficient funds. To bounce back a check means to To bounce back a check means to
The short answer is that mechanical energy, which is the sum of gravitational potential energy (= mgh) and kinetic energy (= 1/2 * mv^2) must remain constant as the ball drops. By dropping the ball from a higher point, you're increasing the value of mgh, thus giving it more energy with which to bounce back up.By simplifying the problem with assumptions (no friction/air resistance, perfect elasticity, instantaneous impulse, etc.) it can be shown that a ball dropped from height "H" will accelerate as it descends downwards, bounce off a flat surface, decelerate as it ascends back upwards and exactly reach its original height "H".