Question(II) A gondola can carry 20 skiers, with a total mass of up to 2250 kg . The gondola ascends at a constant speed from the base of a mountain, at 2150 m , to the summit at 3625 m . (a) How much work does the motor do in moving a full gondola up the mountain? (b) How much work does gravity do on the gondola? (c) If the motor could generate more work than found in , what is the acceleration of the gondola?
Studdy Solution
STEP 1
1. The gondola carries a maximum total mass of .
2. The gondola ascends from to .
3. The acceleration due to gravity is .
4. The gondola moves at a constant speed, so initial and final kinetic energies are the same.
STEP 2
1. Calculate the work done by the motor.
2. Calculate the work done by gravity.
3. Calculate the additional work and determine the acceleration.
STEP 3
Calculate the work done by the motor:
First, find the change in height ():
The work done by the motor () is equal to the gravitational potential energy gained:
Substitute the given values:
Calculate the result:
STEP 4
Calculate the work done by gravity:
The work done by gravity () is the negative of the work done by the motor, as it acts in the opposite direction:
STEP 5
Calculate the additional work and determine the acceleration:
First, calculate more work than found in (a):
The additional work provides kinetic energy for acceleration:
Assuming initial velocity , solve for :
Assuming constant acceleration over the distance :
The results are:
(a) Work done by the motor:
(b) Work done by gravity:
(c) Acceleration of the gondola:
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