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6 March, 02:45

A 50 kg student climbs 3 m to the top of a set of stairs.

Calculate the change in the student's gravitational potential energy from the bottom to the top of the stairs. Show your calculations and include units in your answer.

How much total work does the student do while climbing the stairs? Show your calculations or explain your reasoning. Include units in your answer.

It takes the student 30 s to climb to the top of the stairs.

What is the average power generated by the student climbing the stairs? Show your calculations and include units in your answer.

The next day the student carries a 10 kg backpack up the same stairs and again takes 30 s to reach the top of the stairs.

Is the average power you calculated in part (c) greater than, less than, or equal to the average power the student generated the next day? Explain your answer.

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Answers (1)
  1. 6 March, 03:46
    0
    1) PE=mgh

    mass 50 kg; height 3; g 9.81

    50*3*9.81=1471.5 J

    2. The student is opposing gravity force so

    Fgrav=m*g

    50 * 9.81 = 490N

    Work=force*displacement

    490*3=1470J (this should always be the same as the potential energy)

    3. Power=work*time

    4410 W=1470*3

    4. Greater than: power is dependent on work, work is dependent on force, force is dependent on weight,
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