08 Work, Power, GPE, KE

Question 1

Calculate the work done on the block.

Answer 1

Work done = force x distance (in direction of force)

Work done = 15N x 8 m = 120 J

Question 2

Calculate the GPE gained by a basketball of 1 kg at the height of a basketball net of 3m.

Answer 2

GPE = mgh

GPE = 1 kg x 10 N/kg x 3 m

GPE = 30J

Question 3

A weight lifter lifted 50 kg dumb bell 2 metres

How would you calculate the work done by the weight lifter?

Answer 3

Weight of dumb bell W=mg

W = 50 kg x 10 N/kg = 500N

Work done = Force x distance

Work done = weight of dumb bell x height lifted

Work done = 500N x 2m = 1000J

Question 4

How would you calculate the speed of the rollercoaster at the top of the second hill?

roller coaster = 100kg

First hill 65 metres

Second hill 45 metres

Answer 4

GPE at first hill = mgh = 100 x 10 x 65 = 65 000J

GPE at second hill = mgh = 100 x 10 x 45 = 45 000J

GPE lost is 100% transferred to KE = 65 000J-45 000J = 20 000J

KE = 20 000J - use this to find speed

KE = 1/2 mv²

v² = 2 KE /m

v² = 2 x 20 000 / 100

v² =400

v=20 m/s

Question 5

Define power

Answer 5

Power is the rate of doing work or rate of energy transferred

OR

work done per unit time or energy transferred per unit time

Question 6

If a light bulbs power is 100W, how much electrical energy is transferred per second?

How much energy would be transferred in 10 seconds?

Answer 6

100 W = 100 joules transferred per second

1000 joules would be transferred in 10 seconds!

Question 7

If the speed of a car is doubled, what happens to its kinetic store?

Answer 7

It quadruples.

K.E. is proportional to the velocity²

If velocity is doubled, the K.E. is quadrupled

Question 8

If the height of a bird is doubled, what happens to its G.P.E store?

Answer 8

It also doubles.

G.P.E is proportional to height

Question 9

What do you need to measure to calculate the power output of a person running up stairs?

Answer 9

Mass of person, height of stairs and time it takes to run up stairs

The person is lifting their own weight

Weight = mass of person x gravity (10 N/kg)

Work = Force x distance (in direction of that force)

Work = weight of person x height of stairs

Power = work / time to run up the stairs

Divide the work done by the time it takes the person to run up the stairs

Question 10

How would you calculate the total work done by the person pushing the block up the ramp?

(Force applied = 45 N and frictional force = 5N)

Answer 10

Work done = force x distance (in direction of the force)

Force = Push force by person up ramp - frictional force

Force = 45N - 5N = 40N

Work done = Force x distance moved up ramp

Work done = 40 N x 12m = 480J

Question 11

What equation links gravitational potential energy, mass, gravity and height?

Answer 11

G.P.E = mass x gravity x height

G.P.E. = mgh

Question 12

What is the equation that link kinetic energy, mass and velocity

Answer 12

K.E. = 1/2 mass x (velocity)²

K.E. = 1/2 mv²

Question 13

What is the relationship between GPE at the top of a slide and KE at the bottom of the slide?

Answer 13

If 100% energy is transferred then…

GPE=KE

Question 14

If a child has 1000 J of gravitational potential energy at the top of a slide, how much kinetic energy do they have at the bottom of the slide?

Answer 14

GPE is converted to KE mechanically via gravitational pull

KE at bottom of slide = 1000J

(In reality some energy is lost to the surroundings)

Question 15

What is the equation that links work, force and distance?

Answer 15

Work = force x distance (in direction of force)

W = Fxd

Question 16

If an object is dropped from the leaning tower of Pisa, how much initial GPE does an object have 3/4 of the way down?

What percentage has converted to KE?

Answer 16

25% of the GPE is still stored in the object

75% of the energy is transferred to KE

Question 17

If work is done in half the time, what happens to the power?

Answer 17

Power is doubled

power is inversely proportional to time

Question 18

Calculate the rate of energy transferred to the block

Answer 18

Rate of energy transferred = power

Power = work done/ time

Work done = 15N x 8 m = 120 J

Power = 120J / 6 s = 720W

or 720 joules per second

Question 19

How would you calculate the efficiency of the slope?

Total work done by person pushing block up ramp = 480J

Useful work done on block (GPE of block) = 240J

Answer 19

Efficiency = Useful energy out/ total energy in

Efficiency = useful work done on the block / total work done by the person

Efficiency = GPE gained by block/ total energy put in by person

Eff = (240J / 480 J) x100

Eff = 50%

Question 20

Calculate the KE of a ball of 5kg travelling at 2m/s.

Answer 20

KE= 1/2 mv²

KE = 1/2 x 5kg x (2m/s)²

KE = 2.5 x 4

KE = 10J

Question 21

What is the equation that links power, work done and time taken?

Answer 21

Power = work done / time taken

P = W/t