FM1 - Turning forces, centre of gravity and moments

Question 1

What is a moment?

Answer 1

The turning effect of a force

Question 2

What is the equation linking moment, force and distance?

Answer 2

Moment(Nm) = Force(N) x perpendicular distance (m) (between line of action and pivot)

Question 3

Explain what happens with a spanner and a nut (force? moment?)

Answer 3

The force on the spanner causes a turning effect or moment on the nut. A larger force would mean a larger moment

Question 4

What happens if you use a longer spanner (same force as smaller spanner but different distance) ?

Answer 4

Exerts a larger moment because the distance from the pivot is greater

Question 5

What do you need to do to get the maximum moment?

Answer 5

Push at right angles to the spanner

Question 6

Why cant you push at any other angles?

Answer 6

It means a smaller moment because the perpendicular distance between the line of action and the pivot is smaller

Question 7

Where does the centre of gravity hang directly below?

Answer 7

The point of suspension

Question 8

What is the centre of gravity of an object?

Answer 8

The point at which the weight of the body acts

Question 9

When will a freely suspended object stop swinging?

Answer 9

When it is vertically below the point of suspension - no moment as the pivot is in line with the line of action of the force

Question 10

Describe how you can find the centre of gravity of any flat shape using a plumb line

Answer 10

1) Suspend the shape and a plumb line from the same point and wait to until they stop moving
2) Draw a line along the plumb line
3) Do the same again but suspend shade from different pivot point
4) The centre of gravity is where the two lines meet

Question 11

How can you work out the centre of gravity for simple shapes eg a square?

Answer 11

Look at the lines of symmetry (where two lines cross in the middle is the c.og)

Question 12

What is the principle of moments?

Answer 12

Total anticlockwise moments = Total clockwise moments

When acting in a balanced object

Question 13

*Why do you ignore the weight of a seesaw when working out a question?

Answer 13

Its centre of mass is on the pivot, so it does have a turning effect

Question 14

If a light rod (when you ignore weight in the calculations) is being supported at both ends, will the upwards force be the same?

Answer 14

No - if a heavy object is placed on the rod, the support closest to the object will provide a larger force

Question 15

If the total anticlockwise moments do not equal the total clockwise moments, what will there be?

Answer 15

A resultant moment - so the object will turn!