Forces and Motion

Question 1

What is a distance-time graph?

Answer 1

A distance time graph shows how the distance of an object moving in a straight line (from a starting position) varies over time. They also show if the object is moving at a constant speed and how large or small the speed is.

Question 2

What represents ‘Constant Speed’ on a Distance-Time graph?

Answer 2

A straight line (slope).

Question 3

What can you tell from the slope of a straight line on a distance-time graph?

Answer 3

The magnitude of the speed.

Question 4

What speed is the object moving at if the slope is very steep, shallow, or flat on a Distance-Time graph?

Answer 4

• Large speed
• Small speed
• Stationary (not moving)

Question 5

How is changing speed shown in a Distance-Time graph?

Answer 5

a curve - changing slopes.

Question 6

If a slope on a curve is increasing/decreasing in a Distance-Time graph, what does it show?

Answer 6

• acceleration
• deceleration

Question 7

How can the speed of a moving object be calculated in a Distance-Time graph?

Answer 7

By the gradient - rise/run.

Question 8

What is a scalar quantity?

Answer 8

A quantity which only contains a magnitude (size) AND NOT direction.

Question 9

What is a vector quantity?

Answer 9

A quantity which contains magnitude (size) AND direction.

Question 10

What is the equation for calculating speed?

Answer 10

Average speed = distance moved/ time taken.

Question 11

What is acceleration?

Answer 11

Acceleration is defined as the rate of change of velocity, it describes how much an object’s velocity changes every second.

Question 12

What is the equation for acceleration?

Answer 12

acceleration = change in velocity/time taken (a = v-u/t

Question 13

How is change in velocity found?

Answer 13

final velocity - initial velocity

Question 14

What is the motion of an object speeding up/slowing down?

Answer 14

Acceleration/deceleration

Question 15

What does it mean when the acceleration is negative?

Answer 15

Decelerating/slowing down.

Question 16

What is a velocity-time graph?

Answer 16

A velocity-time graph shows how the velocity of an object varies with time- if an object is moving with constant acceleration/deceleration AND the magnitude of the acceleration/deceleration.

Question 17

What does a straight line mean on a velocity-time graph?

Answer 17

Constant acceleration.

Question 18

What does the slope of a line represent in a velocity-time graph? (steep, gentle, flat)

Answer 18

• Large acceleration/deceleration (the object’s speed changes very quickly)
• Small acceleration/deceleration (the object’s speed changes very gradually)
• Zero acceleration (the object is moving with a constant velocity)

Question 19

How can the acceleration of an object be calculated from a velocity-time graph?

Answer 19

Through the gradient (rise/run).

Question 20

What is displacement?

Answer 20

The distance and direction travelled by an object.

Question 21

How can you find the displacement in a velocity-time graph?

Answer 21

From the area under a velocity-time graph.

Question 22

What are the effects of forces?

Answer 22

• Changes in speed: forces can cause bodies to speed up or slow down
• Changes in direction: forces can can cause bodies to change their direction of travel
• Changes in shape: forces can cause bodies to stretch, compress, or deform.

Question 23

What is an applied force?

Answer 23

Push/pull

Question 24

What is a frictional force?

Answer 24

friction always acts in the opposite direction to motion and emerges when two or more surfaces rub against each other. This happens because of the way imperfections (not perfectly smooth) on the two surfaces at the molecular level push against each other

Question 25

What is a gravitational force?

Answer 25

the gravitational force we feel is called our weight- all masses attract other masses.

Question 26

What is normal reaction force?

Answer 26

when an object rests on a solid, it feels a reaction force at 90 degrees to the surface.

Question 27

What is air resistance (drag)?

Answer 27

Drag occurs when an object moves through fluid(air resistance in air). Drag is affected by the object’s shape, the fluid it travels in and its speed.

Question 28

What is thrust?

Answer 28

Thrust is a reaction force, it occurs when mass is pushed out the back of something, causing the object to move forwards, e.g. rockets, letting go of a balloon and jet engines.

Question 29

What is tension?

Answer 29

Tension acts in strings, chains and cables when they are stretched- the force always acts parallel to the string. The opposite of tension is compression.

Question 30

What is up-thrust?

Answer 30

Upthrust can only occur in fluids and is the reason things float. It is not the same as normal reaction force. Only when the object is in a fluid.

Question 31

What is lift?

Answer 31

Lift is the force produced due to the flow of a fluid over an aerodynamic surface. In an aircraft it acts against the gravitational pull.

Question 32

What is spring force?

Answer 32

A force required to stretch or compress a spring. The stretching force is directly proportional to the extension.

Question 33

What is electric force?

Answer 33

The attraction between oppositely charged objects/ the repulsion between similarly charged objects.

Question 34

What is Magnetic force?

Answer 34

Magnetic attraction(2 opposite poles)/ magnetic repulsion (two similar poles).

Question 35

Is distance a scalar or vector?

Answer 35

Scalar

Question 36

Is displacement a scalar or vector?

Answer 36

Vector

Question 37

Is force a vector or a scalar?

Answer 37

Vector

Question 38

What is resultant force?

Answer 38

A resultant force is a single force that describes all of the forces operating on a body.

Question 39

What does a resultant force define?

Answer 39

The direction and the magnitude.

Question 40

How can resultant forces be calculated?

Answer 40

By adding or subtracting all of the forces acting on the object. Forces working in opposite directions are subtracted from each other and forces working in the same direction will be added together.

Question 41

What does it mean if the forces acting in opposite directions are equal in size?

Answer 41

There will be no resultant force- the forces are said to be balanced.

Question 42

What is friction?

Answer 42

The force which opposes the motion of an object.

Question 43

What are balanced forces?

Answer 43

Balanced forces mean that the forces have combined in such a way that they cancel each other out and no resultant force acts on the body.

Question 44

What is an example of a balanced force?

Answer 44

A book resting on a table.

Question 45

What are unbalanced forces?

Answer 45

Unbalanced forces mean that the forces have combined in such a way that they do not cancel out completely and THERE is a resultant force on the object.

Question 46

What is an example of an unbalanced force?

Answer 46

A tug-of-war.

Question 47

What is the equation to find out force?

Answer 47

force (resultant) = mass * acceleration

Question 48

What is force measured in?

Answer 48

Newtons (N).

Question 49

What is mass measured in?

Answer 49

kilograms (kg)

Question 50

What is acceleration measured in?

Answer 50

m/s^2

Question 51

What is weight?

Answer 51

The force acting on an object due to gravitational attraction.

Question 52

What is the equation for weight?

Answer 52

W = mg

Question 53

What is weight measured in?

Answer 53

Newtons.

Question 54

What is gravitational field strength measured in?

Answer 54

m/s^2 OR N/kg

Question 55

What is stopping distance?

Answer 55

The total distance travelled during the time it takes for a car to stop in response to some emergency.

Question 56

What is the equation for stopping distance?

Answer 56

Stopping distance = Thinking distance + Braking distance

Question 57

What is the thinking distance?

Answer 57

the distance travelled in the time it takes the driver to react (reaction time) in metres (m)

Question 58

What is the braking distance?

Answer 58

the distance travelled under the braking force in metres (m)

Question 59

The greater the speed of the vehicle….

Answer 59

the greater the stopping distance.

Question 60

What are factors affecting stopping distance?

Answer 60

Vehicle speed, vehicle mass, road conditions, driver reaction time

Question 61

How does vehicle speed affect stopping distance?

Answer 61

the greater the speed, the greater the vehicle’s braking distance will be (because the brakes will need to do more work to bring the vehicle to a stop).

Question 62

How does the vehicle mass affect stopping distance?

Answer 62

a heavy vehicle, such as a lorry, takes longer to stop.

Question 63

How does road conditions affect stopping distance?

Answer 63

wet or icy roads make it harder to decelerate.

Question 64

How does driver reaction time affect stopping distance?

Answer 64

a driver’s thinking distance depends on their reaction time. Being tired, or intoxicated(i.e. alcohol, or drugs) can increase reaction time.

Question 65

Which two forces do falling objects experience?

Answer 65

• weight (due to gravity)
• air resistance (due to friction)

Question 66

What increases with speed?

Answer 66

the force of air resistance.

Question 67

What happens to Debbie when she leaves the aircraft to skydive?

Answer 67

She initially accelerates downwards due to her weight. The upwards air resistance increases as she falls until it eventually grows big enough to balance the weight force.

Question 68

Describe Debbie’s motion as she parachutes downwards. (STAGE 1)

Answer 68

Just after jumping, there is little air resistance acting on her, so she accelerates. However, her weight acts downwards which is why there is a large resultant force downwards, which is why the sky diver accelerates.

Question 69

Describe Debbie’s motion as she parachutes downwards. (STAGE 2)

Answer 69

She is still accelerating, but not as much as before. She is now moving downwards, so she experiences an air resistance force upwards. Her weight is the same as ever. Her resultant force is downwards, but it is not as large as before.

Question 70

Describe Debbie’s motion as she parachutes downwards. (STAGE 3)

Answer 70

She is moving at constant velocity(speed and direction). As her speed increases, the air resistance increases until it was equal in size to her weight. At this point, there was no longer any resultant force. With no resultant force, her velocity (speed and direction) stays the same (until she either hits the ground or opens the parachute).

Question 71

Describe Debbie’s motion as she parachutes downwards. (STAGE 4)

Answer 71

She is decelerating. When she opens the parachute, her air resistance increases dramatically (because of the parachute’s larger area). It now exceeds her weight, and so there is a resultant force upwards. This does not make her move upwards; it eats away at her downward speed.

Question 72

Describe Debbie’s motion as she parachutes downwards. (STAGE 5)

Answer 72

She is decelerating but at a lower rate. She has slowed down, so her air resistance has decreased. The resultant upwards force is therefore less than before.

Question 73

Describe Debbie’s motion as she parachutes downwards. (STAGE 6)

Answer 73

Her velocity is constant (until it hits the ground). This new terminal velocity is lower than the previous terminal velocity when she was in free fall. As her speed decreased, the air resistance decreased until it was equal in size to her weight, again. At this point, there was no more resultant force and her velocity no longer changed.

Question 74

How to set up an investigation to find the motion of an object?

Answer 74

a buggy moving down a slope. The buggy will have different weights on it- 10N, 20N and so forth, the weights pulling the buggy will also vary. This will be measured through light gates- giving the acceleration. f= m * a

Question 75

How can you tell acceleration and deceleration through ticatape?

Answer 75

Ticker timers and tape create representations of motion in a straight line. A strip of tape is attached to a moving object, such as your hand, and passed through the timer. The timer marks the tape with a dot at regular time intervals. Different speeds result in different distances between the dots. Far apart = accelerating
close together = decelerating
same distance apart = constant speed