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Tuesday, September 18, 2012

Power Homework


Power


(Use    g = 9.8 Nkg-1)

 

Examples

 

A         Find the work done in lifting a mass of 6 kg through a height of 10 m.

            W = Fx            W        work done in J

 F         force in N

x          distance moved in the direction of the force in m

W = 6 x 9.8 x 10

    = 588 J

B) An escalator carries 100 people of average mass 70 kg to a height of 6 m in one minute.

Find the power necessary to do this.

Work done = F x = 100 x (70 x 9.8) x 6 J

Power = rate of doing work = work done per second

           = (100 x 70 x 9.8 x 6) / 60 s = 6860 W or 6.86 kW

 

  1. Find the work done to lift a mass of 10 kg through a height of 5 m. If this takes 15 s what is the power?

 

  1. A mass of 5 kg is pulled along a surface at a constant speed. Frictional force between the mass and the surface is 4N what work is done in moving the mass 2 m along the surface? Find the power if this takes 2 s.

 

  1. A girl of mass 50 kg runs up a flight of steps 4.5 m high in 5 s. What power does she develop?

 

  1. 2000000 kg of water per second flow over a large waterfall of height 50 m. What power is available?

 

  1. The first-stage rocket motors of the Saturn 5 moon rocket burnt fuel at the rate of 13600 kg per second. The work done by the pumps to drive the fuel into the combustion chambers was the same as that necessary to lift the fuel through 1680 m. What power is needed to do this? (Your answer is about twice the engine power of the largest ocean liner.)

 

  1. A gas turbine locomotive developing 6330 kW pulls a train at a steady velocity of 108 kmh- 1. What is the total force in Newtons resisting the motion?

 

  1. A mechanical loader driven by an engine developing 3 kW lifts a total load of 200000 kg to a height of 3 m in one hour. What is the work done on the load? How much power is developed lifting the load? How does this compare with the work done by the motor in the same time?

 

 

Monday, September 10, 2012

KE and GPE

Gravitational Potential Energy & Kinetic Energy

acceleration due to gravity = 9.8 m/s2

1. A car has a mass of 750 kg. Calculate its kinetic energy at the following velocities
(a) 10 m/s (b) 15 m/s (c) 20 m/s (d) 30 m/s (e) 35 m/s {NB 1 m/s =2 m p h}

2. (a) A car has a mass of 1000 kg. Calculate its KE at a velocity of 25 m/s.
(b) A train has a mass of 37 tonnes {1 tonne = 1000 kg}. If it also has a velocity of 25 m/s what is its kinetic energy ?

3. A woman has a mass of 65 kg.What is her GPE at the top of a 12 metre diving board ?

4. A cat has a mass of 6 kg. What is its GPE at the top of a tree that is 4.2 m above the ground ?

5. The Eiffel Tower is 300 m high. What is the GPE of a 100 g bird perched on the top of it ?

6. The Great Pyramid of Khufu (Cheops to the Greeks) is 146 m high. It is made of stones of mass 250 t. What is the GPE of the topmost stone ?

7. The Empire State Building is 449 m high(but this includes a 68 m TV mast).What is the GPE of a ball of mass 400 g at the top of the building (not the TV mast) ? If the ball is dropped over the side what will happen to the GPE ? What will be its speed at the instant before it hits the ground ? (Ignoring air resistance)

8. Olympus Mons is a volcano on Mars. It is 25 km high. What would be the GPE of a human of mass 50 kg on its summit ? (surface gravity = 0.38 that of Earth) Compare this with the same human standing on the summit of Everest 8534 m high.

9. The space shuttle has a mass of 80 t. Escape velocity (the velocity an object has to travel at in order to escape the earth's gravitational field) is 11 km/s. What is its KE at this speed? If all this KE is turned into GPE how high would it be ? What assumption do you have to make in your calculation.

How much energy would it take to accelerate the space shuttle to light speed (300 000 km/s). {This is not possible, also the equation you will use to calculate KE is not valid near the speed of light but it will do for this purpose} A nuclear power station produces around 500 MW
(500 000 000 J per second). How long would 100 power stations take to produce this amount of energy?
How feasible is travelling close to the speed of light?
The nearest star is about 4 light years away. How long would it take the space shuttle to get there at 11 km/s (22 000 mph)? {1 light year is the distance light will travel in 1 year}
How feasible is interstellar travel?