Simple mechanical energy question [gr.11]

AI Thread Summary
The discussion revolves around a mechanical energy problem involving two children swinging from a rope. For the first child, with a mass of 40 kg running at 8.0 m/s, the maximum height reached is calculated to be approximately 3.27 meters. The second part of the question asks how fast a 30 kg child must run to reach the same height, leading to the conclusion that a speed of about 8 m/s is required. The key insight is that mass cancels out in the energy equations, allowing both children to achieve the same height despite their different masses. This highlights the principle of conservation of mechanical energy in a gravitational field.
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[urgent] simple mechanical energy question [gr.11]

Several children, pretending they are playing in the jungle, suspend a rope from an overhead tree limb. A child of mass 40 kg running at 8.0m/s grabs the rope and swings off the level ground.

a) What maximum height does the child reach?
b) How fast would a 30 kg child have to run to reach the same height as the 40 kg child?


½mv1²+mgh1 = ½mv2²+mgh2

a) m=40kg, v1=8.0m/s, h1=0m, g=9.8m/s², v2=0m/s (at max height v=0)

h2=?

½mv1²+mgh1 = ½mv2²+mgh2

½mv1²= mgh2

h2 = 3.27m = 3m (is this correct?)

im really confused with B... coz i got 8m/s... it doesn't make sense to me how they can run at the same speed and achieve the same height??!

this is really urgent... so please help me! >_< thanks!
 
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A)
I would say: the KE at the point of him grabbing it = the PE at his peak(all his KE has become PE) so KE=PE so ½mv²=mgh substituting:
.5*40*8²=40*9.8*h
1280=392h
h=3.265m

B)change 30 for 40 above and v is unknown
.5*30*v²=30*9.8*3.265
15v²=959.91
v²=63.994
v=7.999m/s

yes, it is the SAME v for both! Why? because the m cancels out on both sides of the equation: the m in ½mv² and the m in mgh divide out!
 
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thank you! ^^
 

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