a roller coaster car with a mass of 500kg is given a velocity of 4m/s at a heigh

Question

a roller coaster car with a mass of 500kg is given a velocity of 4m/s at a height of 30m above the ground. a. what is the initial kinetic energy of the roller coaster car? b. what is the initial potential energy of the roller coaster car c what are the kinectic and potential energies of the roller coaster when it reaches the ground if 60,000J of energy is lost to friction when it reaches the ground?

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Explanation / Answer

a).

Kinetic energy = mv^2/2

KE= 500*4^2/2

KE= 4000 Joules

b).

Potential energy, PE= mgh

PE=500*9.8*30

PE= 1,47,000 Joules

c).

from v^2-u^2=2as

v^2=2*9.8*30+4^2

v = 24.6 m/sis velocity near the ground

Therefore, KE near ground is mv^2/2

=500*24.6^2/2= 1,51,290 Joules

but 60,000 Joules lost due to friction.

So, the KE =1,51,290 - 60,000

KE= 91,290 Joules

PE = mgh=mg(0) since h =0 m at ground

PE = 0 Jolues

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