A lift motor has to move a fully laden lift 4m between floors in 1.5, the lift has a mass of 1850kg (ignore friction).
A. Calculate the weight of the fully laden lift.
B. What is the work done by the motor?
C. What is the minimum Power of the motor to raise the lift at a steady speed.
Answers
Answer:
A lift motor has to move a fully laden lift 4m between floors in 1.5s. The lift has a mass of 1850kg (ignore friction). a) Calculate the weight of the fully laden lift.
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Answer:
A. The correct answer is 18500 N.
B. The correct answer is 74000 Joule.
C. The correct answer is 49333 W.
Explanation:
A. Weight = mg
= 1850 x 10 = 18500 N
So, the weight of the fully laden lift is 18500
B. Work Done = Force x distance
= 18500 x 4
So, work done by the motor = 74000 Joule
C. A body power reveals how quickly it is going the work. The power is expressed in watts or joules per second.
Power = work done in given time =
= 7400 × 1.5
= 49333 W So, minimum Power of the motor to raise the lift at a steady speed is 49333 W.
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