The higher the height at which the ball is dropped from, the higher the ball bounces. Look at it in terms of energy. Initially, before the ball is dropped, the ball's potential energy, E is given by E = mgh, where m is the mass of the ball, g is the gravitational acceleration and h is the height of the ball. When the ball is dropped, the potential energy is converted to kinetic energy, and at the point of impact, , i.e. when the ball is level with the ground, and h = 0, the kinetic energy is E, given by E = 0.5mv2, where v is the velocity of the ball. The ball hits the ground, and rises again - its kinetic energy is being converted back to potential energy. The ground absorbs some of the energy upon impact, but most of the energy stays with the ball. So the kinetic energy is converted to potential energy, and once all of the kinetic energy is converted, the ball reaches its maximum height. Clearly, a higher kinetic energy corresponds to a higher bounce height. 0.5mv2 = mgh The amount of energy that the ground absorbs does not change much with the height of the ball as well.
As the drop-height increases, the bounce-height too will increase, but not always in direct proportion. The efficiency will decrease as the drop height is increased.
there's a term called coefficient of restitution that is a mutual property of the two surfaces(here the ball and the ground) which will come in contact due to collision.In case of perfectly elastic collision,all the potential energy possesed by the ball at the height from where it is dropped, is completely converted into kinetic as it reaches the ground. During collision,no energy is lost as heat/sound.So, after collision,the ball rises to the initial height since it has same energy as before. In reality, we can't have perfectly elastic collision(for perfectly elastic collision,coeff. of restitution=1).Some energy is lost during collision and the ball after collision rises upto a height corresponding to its left up energy.
The amount of energy given to the ball by gravity is directly proportional to its height of dropping. Typically, a ball will bounce to a certain percentage of its drop-height. So (within limits) higher drop-height means higher bounce.
They higher the point at which it's dropped the higher it will bounce.
Certainly, try bouncing a rubber ball on the beach. For that matter, try bouncing it off the ocean.
It bepends on the elasticity and mass of the object and the gravity ofthe area and the medium through Which the object in question is traveling
its weight aslo effects the bounce its weight aslo effects the bounce
trjntrjkhntrjntr
The height you drop the ball from will affect the bounce height this is because as the drop height increases so does the bounce height it is all to do with energy transfers. Also the waste energy is the sound and heat energy hope this helps.
Think of it like this, if you pick up a ball that you drop on the floor, and squeeze that ball, if it is made out of a material like rubber, it is easy to squeeze, therefor it will bounce high. If the ball is made out of steel, then I personaly could not be able to squeeze it and it won't bounce very high or not bounce at all.
Yes the force and the energy affect the bounciness of the ball.If the ball is released from 1 meter above the ground, it will fall with certain force and energy.Now let say we drop the same ball from a height of 10m then we have increased its potential energy so this time striking the surface with more force and energy and higher the ball will bounce in this case.The ball has its "bounciness" built in. The amount of energy transferred on a bounce (or series of bounces) simply "explores" what the ball already has.
When you drop a ball from a height, that is NOT periodic motion.Periodic motion is motion that repeats, with a regular time interval between repetitions.If the ball hits the floor and bounces several times, that will resemble motion that isnearly periodic. But it will not really be periodic, because the time between bounceswill keep shrinking, as the ball loses energy with each bounce.
trjntrjkhntrjntr
The height you drop the ball from will affect the bounce height this is because as the drop height increases so does the bounce height it is all to do with energy transfers. Also the waste energy is the sound and heat energy hope this helps.
yes
Yes - the greater the height an item dropped the resulting bounce is higher
It depends what height you drop the ball and what surface the ball is being dropped on.
The higher the boiuncy ball is the more times if u do it with a small bouncy ball but if you do it with a big bouncy ball it will stay the same ever time u go up in height. The smaller the bouncy ball the more times it will bounce at a higher drop-height but if you try it with a big bounce ball it will still the same number of times each time you go up in inches
Should to around 75% of the height that you drop it from.
it differs because the weight and height you throw it at differs making the force that it hits the ground differ which obviously will differ how much it goes up
When you drop a ball from, say, 3 metres, it will bounce back to roughly 2 metres.
If you drop it from a certain height the first bounce will be ideally about 90% of height, at best, on a smooth hard surface, or 0.9 h. On the tenth bounce it is 0.9 to the 10th power or about 35%,or 0.35 h.
you drop it.
Meter stick.