Do now! Can you continue the questions on calculating Gravitational Potential Energy which you started last lesson?

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Presentation transcript:

Do now! Can you continue the questions on calculating Gravitational Potential Energy which you started last lesson?

Today’s lesson Learn what “work” is! Learn how to calculate work See who can do the most work! Learn what “power” is.

A reminder Energy cannot be made or destroyed, only transformed (changed). Energy is measured in Joules. That’s me!

Work In physics, work has a special meaning, different to “normal” English.

Work In physics, work is the amount of energy transformed (changed) when a force moves (in the direction of the force)

Important The force has to be in the direction of movement. Carrying the shopping home is not work in physics!

Can you copy it down please? Work In physics, work is the amount of energy transformed (changed) when a force moves (in the direction of the force)

Work For example, if Mr Porter pushes a table, he is doing work against the friction force of the table against the floor.

Calculating work The amount of work done (measured in Joules) is equal to the force used (Newtons) multiplied by the distance the force has moved (metres). Force (N) Distance travelled (m)

Work done(J) = Force(N) x Distance(m) Can you copy it down please?

Let’s look at an example

Work done (J) = Force (N) x distance (m) A woman pushes a car with a force of 400 N for a distance of 15m. How much work has she done?

Work done (J) = Force (N) x distance (m) A woman pushes a car with a force of 400 N for a distance of 15m. How much work has she done? Work = force x distance = 400 x 15 = 6000 J

Lifting objects When we lift objects, we are doing work because a force is moving. Force Distance moved

Lifting objects Our lifting force is equal to the weight of the object. Lifting force weight

Work done (J) = Force (N) x distance (m) A man lifts a mass of 120 kg to a height of 2.5m. How much work did he do?

Work done (J) = Force (N) x distance (m) A man lifts a mass of 120 kg to a height of 2.5m. How much work did he do? Force = weight = 1200N Work = F x d = 1200 x 2.5 Work = 3000 J

How much work can you do?

Can you stick this in? Name Mass (kg) Force (N) Distance (m) Work of one lift (J) # of lifts in 1 min Total work (J)

Arm curls Force required = weight of object = mass (kg) x 10 distance

Off you go! Name Mass (kg) Force (N) Distance (m) Work of one lift (J) # of lifts in 1 min Total work (J)

Power!

Can you copy it down please? Power! Power is the amount of energy transformed (changed) per second. It is measured in Watts (1 Watt = 1 J/s) Power = Energy transformed (work) time Can you copy it down please?

Power For each of the people in your table, can you calculate their power?

Let’s see if this dog floats! Let’s do some more work! Let’s see if this dog floats! Pull! ALL questions on page 85