Calculating Speed of Dropped Tennis Ball: Explaining Conservation of Energy

AI Thread Summary
To calculate the speed of a tennis ball dropped from a height of 20 meters, the potential energy (PE) is first calculated as 196 Joules using the formula PE = mgh. When the ball hits the ground, this potential energy is converted into kinetic energy (KE), which can be expressed as KE = 1/2mv^2. By applying the conservation of energy principle, it is established that the kinetic energy at impact equals the potential energy at the drop height, allowing the mass to cancel out in the equations. The final speed of the ball is determined to be approximately 19.79 m/s. The discussion emphasizes the assumptions made, particularly that energy is conserved without losses due to air resistance or other factors, which would differ on the moon compared to Earth.
RachelT
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Homework Statement


Using the formulae for potential energy and kinetic energy, find the speed that a tennis ball hits the ground when dropped from a height of 20m.

With reference to the principle of conservation of energy, explain why you could use these equations and what assumptions you have made.

Homework Equations


KE = 1/2mv^2
PE = mgh

The Attempt at a Solution


The first part I think I'm ok with. The tennis ball is dropped therefore no KE only PE.
PE = 9.8 x 20 = 196 Joules.

It is the second part that I don't really understand. What is it asking me? Can somebody maybe re-frase this part of the question. Thank you.
 
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sorry. I forgot to turn that PE into KE by making 196 = 1/2v^2
This would give 19.79m/s
 
RachelT said:

Homework Statement


Using the formulae for potential energy and kinetic energy, find the speed that a tennis ball hits the ground when dropped from a height of 20m.

With reference to the principle of conservation of energy, explain why you could use these equations and what assumptions you have made.

Homework Equations


KE = 1/2mv^2
PE = mgh

The Attempt at a Solution


The first part I think I'm ok with. The tennis ball is dropped therefore no KE only PE.
PE = 9.8 x 20 = 196 Joules.
You can't just drop mass from your equation because the ball's mass is not stated.
Keep mass where it belongs, but represent it by the symbol m.
PE = m x 9.8 x 20 = 196m Joules
 
Also best to avoid plugging in the number until the end.


PE = mgh
KE = 0.5mv2

0.5mv2 = mgh

Mass cancels.

Rearrange to give

v = SQRT(2gh)

Then put the numbers in.

As for part 2...

You need to explain why the KE the ball has when it hits the ground will be equal to the PE it had when dropped. What assumptions does that statement rely on?

Hint: Why would it be more reasonable to make that ssumption on the moon than on earth?

Make sure your answer mentions conservation of energy.
 
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