Chapter 5 - Biomechanical Movement (Paper 2)

Question 1

Define linear motion.

Answer 1

Motion in a straight or curved line, with all body parts moving the same distance at the same speed in the same direction.

Question 2

Define inertia.

Answer 2

The resistance an object has to a change in its state of motion.

Question 3

What is Newton’s first law of inertia?

Answer 3

A force is required to change the state of motion. If an object is at rest, it will remain still. Similarly, if it is moving in one direction it will continue to do so at the same velocity until another force is exerted upon it. The bigger the mass, the larger the inertia of a body or object. This means that more force will be needed to change its state of motion.

Question 4

What is Newton’s second law of acceleration?

Answer 4

The magnitude (size) and direction of the force determines the magnitude and direction of the acceleration.

Question 5

What is the rate of acceleration directly proportional to?

Answer 5

Force causing the change.

Question 6

How do you calculate Force?

Answer 6

Force = mass x acceleration (F=ma)

Question 7

What is Newton’s third law of motion?

Answer 7

For every action (force) there is an equal and opposite reaction (force). This law describes what happens when two bodies (or objects) exert forces on one another. Action and reaction are equal and opposite and always occur in pairs. Action acts on one of the body’s and the reaction to this action acts on the other body.

Question 8

What is the ground reaction force?

Answer 8

The equal and opposite force exerted on a performer who applies a muscular force on the ground.

Question 9

What is scalar quantity?

Answer 9

When measurements are described in terms of just their size or magnitude.

Question 10

Name some scalar quantities.

Answer 10

• Speed
• Distance
• Mass
• Temperature

Question 11

What is not taken into account regarding scalar quantity?

Answer 11

Direction

Question 12

How do you calculate speed?

Answer 12

Speed in metres per second (ms) = Distance covered in metres(m) / Time taken in seconds (s)

Question 13

What is centre of mass?

Answer 13

This is the point of balance and the point of concentration of mass.

Question 14

What is the line of gravity?

Answer 14

This is the line extending vertically downwards from the centre of mass.

Question 15

What are the factors affecting stability? Explain them.

Answer 15

• The height of the centre of mass - lowering the centre of mass will increase stability.
• Position of the line of gravity - should be central over the base of support to increase stability.
• Area of the support base - the more contact points, the larger the base of support becomes and the more stable they become.
• Mass of the performer - often the greater the mass, the more stability there is because of increased inertia.

Question 16

What is a fulcrum?

Answer 16

The point about which the lever rotates.

Question 17

What is resistance?

Answer 17

The weight to be moved by the lever system.

Question 18

What is effort?

Answer 18

The force applied by the user (muscle) of the lever system.

Question 19

What is a first class lever system?

Answer 19

The fulcrum lies between the effort and resistance.

Question 20

What is a second class lever system?

Answer 20

The resistance is between the fulcrum and the effort.

Question 21

What is a third class lever system?

Answer 21

The effort is between the fulcrum and the resistance.

Question 22

Memory tool for the lever systems

Answer 22

FRE 123

Question 23

What is the force arm?

Answer 23

The length of the line between where the fulcrum and effort are labelled.

Question 24

What is resistance arm?

Answer 24

The length of the line between where the fulcrum and the resistance are labelled.

Question 25

What is a mechanical advantage? What does this mean regarding movement?

Answer 25

Where the force arm is longer than the resistance arm. this means the lever system can move a large load over a short distance required little force.

Question 26

What is a mechanical disadvantage? What does this mean?

Answer 26

Where the resistance arm is longer than the force arm. This means the lever system cannot move as heavy a load but can do it faster.