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Page 1: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

Work

Page 2: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

Mechanical work

• Applying a force on an object that displaces the object in the direction of the force

Page 3: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

W = FΔd• Only when the magnitude of the force is

constant.• Scalar (no direction associated with work)• SI unit: N•m• When force and displacement are in the same

direction!

Page 4: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

N•m

• Also called the Joule for James Prescott Joule, who studied work, energy, and heat

• 1 N•m = 1 J

Page 5: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

• Work is only done when force and displacement are in the same direction!

• If a force is applied on the object but the object doesn’t move, no work is done

Page 6: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

activity

• Go around the room and explain in your notes why each of the situations presented is either an example where work is done or no work is done.

Page 7: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

example

Page 8: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

Example 2

• A curler applies 15.0 N on a stone. The stone accelerates from rest to 8.00 m/s in 3.50 s. How much mechanical work is done?

Page 9: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

Example 2

• A curler applies 15.0 N on a stone. The stone accelerates from rest to 8.00 m/s in 3.50 s. How much mechanical work is done?

Page 10: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force
Page 11: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force
Page 12: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

What if force and displacement are in different directions?

• When would this happen?

Page 13: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

This is the only force that causes the suitcase to move horizontally (same direction as the displacement

Fv does no work on the suitcase, because the suitcase isn’t displaced in the vertical direction!

Page 14: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

Prove it!

Page 15: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force
Page 16: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

Example with vacuuming

Page 17: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force
Page 18: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force
Page 19: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

Positive and negative work

• Most objects have several forces acting on them at one time.

• Total work = sum of work done by all the forces acting on an object

Page 20: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

• We assume forces act in the same direction as the displacement, or in the opposite direction of the displacement:

Page 21: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

sample

• A shopper pushes a shopping cart on a horizontal surface with a horizontal applied force for 41.0 N for 11.0 m. The cart experiences a force of friction of 35.0 N. Calculate the total mechanical work done on the shopping cart.

Page 22: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

sample

• A shopper pushes a shopping cart on a horizontal surface with a horizontal applied force for 41.0 N for 11.0 m. The cart experiences a force of friction of 35.0 N. Calculate the total mechanical work done on the shopping cart.

Page 23: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

• Both Fa and Ff do work on the cart

• Fa acts in the same direction as the cart’s displacement, and Ff acts in the opposite direction

Page 24: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

We will solve this problem in 3 partsa. Calculate work done by the applied force

Page 25: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

b. Calculate the work done by the force of friction

Page 26: Work. Mechanical work Applying a force on an object that displaces the object in the direction of the force

c. Calculate the total, or net, work done on the cart by calculating the sum of Wa and Wf


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