Force Problem Set #1 Equlibrium

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Force Problem Set #1

Please make sure to include PoPFPST for # 4-15

Equlibrium

F = Net Force = Balanced Forces = 0

1.

A loaf of bread weighs 5.3 N on Earth. What mass does it have on Earth?

2.

The same loaf of bread is now on the Moon, where the acceleration due to gravity is 1/6 the magnitude on Earth. A) What would the bread weigh on the Moon? B) What mass does it have on the Moon?

3.

On Jupiter the acceleration due to gravity is g = 25.2m/s/s. What is the mass and weight of the bread on Jupiter?

4.

How much tension is in a string holding a 2.5 kg rainbow trout?

5.

How much force does a table have to apply to a 50.0 kg TV that is placed on it?

6.

The Red and the Blue team are having a tug of war. After 2 minutes the flag has not budged a bit. The red team has 12 people each pulling with 200 N of force. If the Blue team has 10 people, how hard are each of them pulling. (assume they all pull with equal strength and neglect the weight of the rope)

Constant Speed

F = Net Force = 0 = Balanced Forces

7.

How much force does water need to apply to a 15.0 kg rock to make it sink at a constant speed of 2.50 m/s?

8.

In a lab experiment Jack pulls a block (F g

= 2.50N) with a force meter horizontally across a level table at a constant velocity. If the force meter reads 6.5 N, what is the force of friction between the table and the block?

9.

A crane is lifting a 1500 kg car with a cable vertically at a constant speed of 4.0 m/s.

What is the tension in the cable?

10.

Terminal velocity is the constant speed objects reach when they fall. The faster the object goes, the more air it hits, and the more air resistance it experiences. If air pushes on a skydiver with 250 N of force at the moment it reaches terminal velocity, what is the mass of the skydiver?

Changing Motion (accelerating)

F = ma Unbalanced Forces

11.

Problem # 69 on page 113 in Textbook

12.

Problem # 70 on page 113 in Textbook

13.

Problem # 73 on page 114 in Textbook

14.

Problem # 74 on page 114 in Textbook

15.

Problem # 77 on page 114 in Textbook

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