The two main reasons are (1) the collision is inelastic and (2) friction. Both these factors reduce the ball's energy.
72 meter
89
i dont knoe
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
At the time the ball is thrown, which is "time 0" the downward speed is 40 m/s.Each second, the downward speed will increase by 9.8 m/s.1. Work out the speed at the end of the first second. This will be 49.8 m/s.2. Then work out how many meters it would have gone in the first second.3. Now work out the ball's height. This is the height at "time 1".4. Draw the ball at time 0 and time 1 on a sheet of paper to help you think.Now, repeat steps 1-4 until the ball's height is close to 0 or goes past 0. Your current "time X" will tell you how many seconds went by for it to get that far.
The height of the bounce decreases because of many factors but two main factors are gravity and friction. * * * * * Gravity has nothing to do with the decrease in height. The two main factors are friction and the fact that the collision is not elastic.
The time taken by the ball to reach the maximum height is 1 second. The maximum height reached by the ball is 36 meters.
72 meters
72 meter
1 metre
34.5 feet
Answer: 66 Meters. Just had that same problem on a math mates worksheet.
89
A bouncing ball lowers and its height each time it bounces because of gravity counter acts the force of rise
i dont knoe
Every time the ball rebounds, some energy is lost. Also, the pull of gravity is stronger every time it lands.
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