PAPER 1 - Biomechanics

Question 1

Define Newton’s First law of motion : INERTIA

Answer 1

body continues in a STATE OF REST/UNIFORM VELOCITY unless acted upon by an EXTERNAL/UNBALANCED FORCE

Question 2

Define Newton’s Second law of motion : ACCELERATION

Answer 2

• body’s RATE OF CHANGE in MOMENTUM = k(SIZE + Direction of FORCE applied)

Question 3

Define Newton’s Third law of motion : REACTION

Answer 3

• every ACTION FORCE applied to a body has an EQUAL + OPPOSITE reaction force

Question 4

What is the equation for VELOCITY ?

Units

Answer 4

displacement / time taken

m/s

Question 5

What is the equation for MOMENTUM ?

Units?

Answer 5

• mass x velocity

kgm/s

Question 6

What is the equation for ACCELERATION ?

Units?

Answer 6

acceleration = (final velocity - initial velocity) / time taken

m/s^2

Question 7

What is the equation for FORCE ?

Units?

Answer 7

force = mass x acceleration

Newtons

Question 8

Define FORCE

Answer 8

a PUSH or PULL that ALTERS a body’s state of motion

Question 9

Define INERTIA

Answer 9

RESISTANCE of a body to CHANGE its state of motion, at rest or while moving

Question 10

Define VELOCITY

Answer 10

the RATE OF CHANGE in DISPLACEMENT

Question 11

Define MOMENTUM

Answer 11

the QUANTITY of MOTION possessed by a moving body

Question 12

Define ACCELERATION

Answer 12

the RATE OF CHANGE in VELOCITY

Question 13

Define WEIGHT

Answer 13

GRAVITATIONAL PULL that the earth exerts on a body

Question 14

Define REACTION

Answer 14

• EQUAL+OPPOSITE FORCE in exerted by a body in response to action force placed upon it

Question 15

Define FRICTION

Answer 15

• Force that OPPOSES the motion of TWO SURFACES in contact

Question 16

Define AIR RESISTANCE

Answer 16

a force that OPPOSES that MOTION through the air

Question 17

What are LIMB KINEMATICS ?

Answer 17

• study of movement in relation to TIME AND SPACE

Question 18

What are FORCE PLATES ?

Answer 18

• measure ground reaction forces

Question 19

What are the functions of WIND TUNNELS ?

Answer 19

• test aerodynamic efficiency
• measure air resistance

Question 20

Define LINE OF GRAVITY

Answer 20

imaginary line that extends from CoM to the FLOOR

Question 21

What is a FIRST CLASS lever ?

Answer 21

effort - fulcrum - load

Question 22

What is a SECOND CLASS lever ?

Answer 22

effort - load - fulcrum

Question 23

What is a THIRD CLASS lever ?

Answer 23

load - effort - fulcrum

Question 24

What is the EFFORT ARM ?

Answer 24

distance from FULCRUM to EFFORT

Question 25

What is the LOAD ARM ?

Answer 25

distance from LOAD to FULCRUM

Question 26

What is MECHANICAL ADVANTAGE ?
Which lever acts at one?

Answer 26

• EA > LA
• 2nd class
• Large Load w/small effort

Question 27

What is MECHANICAL DISADVANTAGE ?
Which lever acts as one?

Answer 27

• LA > EA
• small load w/large effort
• Third Class

Question 28

What is an INTERNAL FORCE ?

Answer 28

• Force generated by the CONTRACTION of SKELETAL MUSCLE

Question 29

What is an EXTERNAL FORCE ?

Answer 29

comes from OUTSIDE the body and acts upon it

Question 30

What are the 4 examples of EXTERNAL FORCES ?

Answer 30

• weight
• reaction
• friction
• air resistance

Question 31

What are the 5 effects of FORCE ?

Answer 31

• create motion
• accelerate a body
• decelerate a body
• changing direction
• changing shape

Question 32

how does force CREATE MOTION ?

Answer 32

• football will remain at rest on the penalty spot until a force is applied to it

Question 33

how does force ACCELERATE A BODY ?

Answer 33

the greater the force applied by the foot on the ball, the greater it accelerates towards the goal

Question 34

how does force DECELERATE A BODY ?

Answer 34

• force of the foot on the ball = force of the ball on the foot

Question 35

how does force CHANGE THE DIRECTION OF A BODY ?

Answer 35

as the goalkeeper dives to save a high corner shot, he will apply force from his HANDS to the BALL, changing it’s direction pushing it AWAY from the goal

Question 36

how does force CHANGE THE SHAPE OF A BODY ?

Answer 36

• force of the ball coming into contact with NET will change the shape of the net.

Question 37

What is NET FORCE ? (resultant force)

Answer 37

sum of all the forces acting on a body - when all individual forces are considered

Resultant Force

Question 38

What happens when the net force is 0?

Answer 38

• No change in motion as all forces are balanced

Question 39

Define BALANCED FORCES

Answer 39

two or more forces acting on a body that are EQUAL IN SIZE and OPPOSITE IN DIRECTION

Question 40

What are UNBALANCED FORCES ?

Answer 40

two or more forces UNEQUAL IN SIZE + OPPOSITE IN DIRECTION

Question 41

What are the 2 VERTICAL FORCES ?

Answer 41

• weight
• reaction

Question 42

equation for WEIGHT ?

Units?

Answer 42

mass x acceleration due to gravity

N

Question 43

What are the 2 HORIZONTAL FORCES ?

Answer 43

friction
air resistance

Question 44

How does VELOCITY affect air resistance ?

Answer 44

increased velocity of cyclist = increased air resistance

Question 45

How does SHAPE affect air resistance of a cyclist ?

Answer 45

tear-drop helmet = decreased air resistance

Question 46

What is STREAMLINING ?

Answer 46

SMOOTH AIR FLOW created around an AERODYNAMIC shape to minimise air resistance

Question 47

How does FRONTAL CROSS-SECTIONAL AREA affect air resistance ?

Answer 47

low crouched position of downhill skier = decreases air resistance

Question 48

How does SMOOTHNESS OF SURFACE affect air resistance ?

Answer 48

smooth lycra suits = decreased air resistance

Question 49

What is DIRECT FORCE ?

Answer 49

• force applied through CoM resulting in LINEAR MOTION

Question 50

What is DISTANCE ? w/units

Answer 50

• total length covered from start to finish (m)

Question 51

What is DISPLACEMENT ?

(units)

Answer 51

• shortest straight-line route from start to finish (m)

Question 52

What is SPEED ?

units

Answer 52

the rate of change in DISTANCE

m/s

Question 53

What is a DISTANCE/TIME graph ?

Answer 53

• DISTANCE travelled plotted AGAINST TIME taken

Question 54

What is a SPEED/TIME graph ?

Answer 54

• SPEED OF MOTION plotted AGAINST the TIME taken

Question 55

What is VELOCITY/TIME graph ?

Answer 55

• VELOCITY OF MOTION plotted against the TIME taken

Question 56

What is ANGULAR MOTION ?

Answer 56

• movement of a body/body part in a CIRCULAR PATH about an AXIS OF ROTATION

Question 57

What is an ECCENTRIC FORCE ?

Answer 57

a force applied OUTSIDE the CoM, resulting in ANGULAR MOTION

Question 58

What is TORQUE ?

Answer 58

a MEASURE of the TURNING force applied to a body

Question 59

What is a sporting example of linear motion ?

Answer 59

skeleton bob at top speed

Question 60

What is a sporting example of angular motion ?

Answer 60

somersault, gymnastics

Question 61

Where does the LONGITUDINAL AXIS run ?

Answer 61

from top to bottom of the body

Question 62

Where does the TRANSVERSE AXIS run ?

Answer 62

from side to side

Question 63

Where does the FRONTAL AXIS run ?

Answer 63

from front to back of the body

Question 64

What sport skill occurs in the longitudinal axis ?

Answer 64

• full twist on trampoline

Question 65

What sport skill occurs in the transverse axis ?

Answer 65

somersault on trampoline

Question 66

What sport skill occurs in the frontal axis ?

Answer 66

cartwheel in gymnastics

Question 67

What is ANGULAR VELOCITY ?

w/units

Answer 67

the rate of change in ANGULAR DISPLACEMENT

(radians per second)

Question 68

What is MOMENT OF INERTIA ?

units

Answer 68

• RESISTANCE of a body to change its state of ANGULAR MOTION

kgm^2

Question 69

How do you calculate moment of inertia ?

Answer 69

sum(mass x distribution of mass from axis of rotation)

Question 70

What is ANGULAR MOMENTUM ?

units

Answer 70

• QUANTITY of ANGULAR MOTION possessed by a body

kgm^2/s

Question 71

4 types of spin on an object

Answer 71

Topspin
Backspin
Sidespin Hook
Sidespin Slice

Question 72

Topspin w/effect on a projectile

Answer 72

• Eccentric force applied above COM
• Shortens flight path of projectile

Question 73

Backspin w/effect on a projectile

Answer 73

• Eccentric force applied below CoM
• Lengthens flight path of a projectile

Question 74

Sidespin Hook w/effect on projectile

Answer 74

• Eccentric Force applied right of COM
• deviates flight path to the left

Question 75

Sidespin Slice w/effect on projectile

Answer 75

• Eccentric Force applied left of COM
• deviates flight path to the right

Question 76

Equation for Force

Units

Answer 76

Mass X Acceleration

N

Question 77

Equation for Momentum

Units

Answer 77

Mass X Velocity

Kg

Question 78

Equation for Acceleration

Units

Answer 78

(Final Velocity - Initial Velocity)/time taken

m/s^2

Question 79

Equation for Weight

Units

Answer 79

Mass X Gravitational field strength

N

Question 80

4 factors impacting magnitude of air resistance/drag on a body or object

Answer 80

• velocity
• frontal cross-sectional area
• streamlining + shape
• surface characteristics.

Question 81

Equation for Angular Momentum

Answer 81

Moment of Inertia X Angular Velocity

Question 82

Object with a parabolic flight path

Answer 82

Shotput

Question 83

Object with a non-parabolic flight path

Answer 83

badminton shuttle

Question 84

what happens when a net force is present?

Answer 84

• Change in motion as forces are unbalanced

Question 85

What are external forces split into?

Answer 85

• horizontal / vertical

Question 86

4 factors affecting friction

Answer 86

• Roughness of ground surface
• Roughness of contact surface
• Temperature
• Size of normal reaction

Question 87

Example of roughness of ground surface affecting friction?

Answer 87

• Athletes run on rough, rubberised tracks

Question 88

Example of roughness of the contact surface affecting friction

Answer 88

• Athletes wear spiked shoes

Question 89

Example of temperature affecting friction

Answer 89

• F1 drivers have warm-up lap to increase tyre temp.

Question 90

Example of normal reaction size affecting friction

Answer 90

Shot putters have high mass = high equal + opposite reaction force

Question 91

Origin + Direction of Weight Arrow

Answer 91

• From CoM extending vertically downwards

Question 92

Origin + Direction of Reaction Arrow

Answer 92

• From point of contact extending vertically upwards

Question 93

Origin + Direction of Friction Arrow

Answer 93

• From point of contact extending horizontally in same direction as motion

Question 94

Origin + Direction of Air Resistance

Answer 94

From CoM extending horizontally against the direction of motion

Question 95

Define Centre of Mass

Answer 95

• point at which an object/body is balanced in all directions

Question 96

4 Factors affecting stability

Answer 96

• Mass of body
• Height of CoM
• Size of base of support
• Line of Gravity

Question 97

How does mass affect stability?

Answer 97

• Greater mass = greater inertia
• E.G. Sumo wrestler

Question 98

How does height of CoM affect stability?

Answer 98

• lower CoM = greater stability

Question 99

How does size of base of support affect stability?

Answer 99

• More points of contact = wider base of suport + stability

Question 100

How does line of gravity affect stability?

Answer 100

• More central = more stability

Question 101

Example of when stability is maximised

Answer 101

• Sprinter preparing in blocks

Question 102

Example of when stability is minimised

Answer 102

• Sprinter falling forwards when gun is fired

Question 103

2 main functions of lever systems

Answer 103

• generate muscular effort to overcome a given load
• increase speed of given movement

Question 104

Example of First Class Lever

Answer 104

• Extension of neck during header in football

Question 105

Example of Second Class Lever

Answer 105

• Ball of foot in high jump take off

Question 106

Example of third class lever

Answer 106

• Flexion of elbow during bicep curl

Question 107

Define Limb Kinematics

Answer 107

• Study of movement in relation to time + space

Question 108

Define Force Plates

Answer 108

• Measure ground reaction forces in lab conditions

Question 109

Define Wind Tunnels

Answer 109

• Steel fame buildings w/wide fans
• produce artificial wind

Question 110

1 use of Limb Kinematics

Answer 110

• 3D analysis evaluates
• Movement Efficiency

Question 111

1 use of Force plates

Answer 111

Assess size + direction of forces acting on athlete

Question 112

1 use of wind tunnels

Answer 112

• F1 cars tested for aerodynamic efficiency

Question 113

1 way of optimising performance with limb kinematics

Answer 113

• data produced improves performance

Question 114

1 way of optimising performance with force plates

Answer 114

• Balance rehab + physiotherapy

Question 115

1 way of optimising performance using wind tunnels

Answer 115

• Improving air flow around objects

Question 116

Equation for speed w/units

Answer 116

Distance/time taken - m/s

Question 117

Define Linear Motion

Answer 117

• Movement of a body in a straight/curved line, where all parts move in same direction, distance + time

Question 118

Define Gradient

Answer 118

Slope of a graph at a particular moment in time

Question 119

Equation for Angular Momentum

Answer 119

MI x Angular Velocity

Question 120

2 factors affecting the size of the MOI of a rotating body

Answer 120

• mass of the body
• distribution of mass from axis of rotation

Question 121

How does the mass of the body affect MOI

Answer 121

Greater mass = Greater MOI

Question 122

How does distribution of mass affect MI

Answer 122

• Further mass from axis of rotation = greater MI

Question 123

What happens if MOI is high?

Answer 123

• High resistance to rotation
• Low AV
• Slower rate of spin

Question 124

What happens if MOI is low?

Answer 124

• Low resistance to rotation
• High AV
• Faster rate of spin

Question 125

Define Conservation of Angular Momentum

Answer 125

• remains constant unless an external eccentric force/torque is applied

Question 126

Which one of Newtons laws does angular momentum relate to + what does it state

Answer 126

• 1st law - rotating body will continue to turn about its axis of rotation

Question 127

What happens during take-off + landing phase of a triple axel jump in ice skating

Answer 127

• Distribution of mass is away from longitudinal axis
• MOI is high
• AV is low

Question 128

What happens during flight phase of the triple axel jump in ice skating

Answer 128

• Distribution of mass is close to longitudinal axis
• MOI is low
• AV is high

Question 129

Define Drag

Answer 129

• Force that opposes the direction of motion of a body through water

Question 130

4 factors affecting horizontal distance travelled by a projectile

Answer 130

• Speed of release
• Angle of release
• Height of release
• Aerodynamic factors

Question 131

How does speed of release affect the horizontal distance of a projectile and which law does it link to?

Answer 131

• greater outgoing speed = greater distance
• 2nd Law

Question 132

How does angle of release affect horizontal distance of a projectile

Answer 132

• 45 degrees optimises horizontal distance

Question 133

How does height of release affect horizontal distance of a projectile

Answer 133

• Release height>landing height = <45 degrees
• release height< landing height = >45 degrees
• release height = landing height = 45 degrees

Question 134

Which 2 aerodynamic forces affect the horizontal height of a projectile?

Answer 134

• Bernoulli Force
• Magnus Force

Question 135

Define Parabolic Flight path

Answer 135

• Symmectrical flight path about its highest point caused by AR on a projectile

Question 136

Define Non-Parabolic Flight Path

Answer 136

• Asymmetrical flight path about its highest point caused by AR on a projectile

Question 137

Define Aerofoil

Answer 137

• Streamlined shape w/curved upper surface + flat lower surface adding lift to a body

Question 138

Define Lift Force

Answer 138

• Additional force created by a pressure gradient, increasing the time a projectile hangs in air

Question 139

Define Angle of Attack

Answer 139

• optimises lift force of a projectile due to bernoulli principle

Question 140

Define Magnus Force

Answer 140

• Force created by pressure gradient acting on a spinning body moving through the air

Question 141

Example of an object that creates an upwards lift force

Answer 141

Discus

Question 142

Example of an object that creates a downwards lift force

Answer 142

• F1 Racecar at high speeds around corners

Question 143

How is spin created?

Answer 143

Applying an external force outside CoM

Question 144

Effect of topspin rotation on magnus force

Answer 144

• Downwards MF = shortened flight path

Question 145

Effect of magnus force on backspin rotation

Answer 145

• MF Upwards = lengthens flight path

Question 146

Effect of sidespin rotation on Magnus Force

Answer 146

• MF to right + left = slice/hook

Question 147

What happens above an aerofoil?

Answer 147

• Air velocity + distance increases, pressure decreases

Question 148

What happens below an inverted aerofoil?

Answer 148

• Air velocity + distance increases
• pressure decreases

Question 149

What happens below an aerofoil?

Answer 149

• Air velocity + distance decreases, pressure increases

Question 150

What happens above an inverted aerofoil?

Answer 150

• Air velocity + distance decreases, pressure increases

Question 151

What is common between the bernoulli lift force and magnus force?

Answer 151

• Air always opposes the direction of motion

Question 152

How is linear motion created

Answer 152

• Direct force applied through CoM

Question 153

How is Angular Motion created?

Answer 153

• Eccentric force applied outside the CoM

Question 154

Balanced forces

Answer 154

• Forces that are equal in size + opposite in direction