Calculating Heat Energy from Falling Object

[dragon513]

Calculating heat energy...

Q. #1
A 16 kg object is dropped from a height of 25 m and strikes the ground with a speed of 18 m/s. How much heat energy was produced during the fall?

Choices
A) 0 J
B) 2 600 J
C) 1 300 J
D) 3 900 J

Well,according to my calculation, the average acceleration was about 6.48m/s, which means 3.32N/kg acted as air friction.

And I'm lost from there.

Help will be greatly appreciated!

 

[Tide]

HINT: Energy is conserved! :)

 

[Pyrrhus]

Like Tide said remember

[tex] \Delta K + \Delta U = W_{friction} [/tex]

 

[Andrew Mason]

Q. #1
A 16 kg object is dropped from a height of 25 m and strikes the ground with a speed of 18 m/s. How much heat energy was produced during the fall?
Choices
A) 0 J
B) 2 600 J
C) 1 300 J
D) 3 900 J
Well,according to my calculation, the average acceleration was about 6.48m/s, which means 3.32N/kg acted as air friction.
And I'm lost from there.
Help will be greatly appreciated!

You don't have to work out force or average speed. Just use potential energy: mgh.

AM

 

[dragon513]

ouch, I learned that a year ago and I have no idea how can I forget such thing ...Thx!