P5:Forces

Question 1

What do vector quantities have

Answer 1

•Magnitude •Direction

Question 2

Physical quantities of vectors include …

Answer 2

•force•velocity•displacement•acceleration•momentum

Question 3

What is a scalar quantity

Answer 3

A physical quantity that only contains magnitude and NOT DIRECTION

Question 4

Scalar quantities include…

Answer 4

•Speed•Distance •Mass•Temperature •Time

Question 5

What usually represents a vector, and what does this symbol show

Answer 5

Usually represented by an arrow •length of arrow represents magnitude •direction of arrow represents the direction of the quantity

Question 6

Forces can be…

Answer 6

•contact (when to objects have to be touching for a force to act) E.G:friction, air resistance OR•non-contact (when an object doesn’t need to be touching for a force to act) E.G:magnetic force, gravitational force

Question 7

A force is a…

Answer 7

Push or pull on an object that is caused by it interacting with something

Question 8

When two objects interact…

Answer 8

There is a force produced on both sides

Question 9

Define the term ‘interaction pair’

Answer 9

A pair of forces that are equal and opposite and act on two interacting objects

Question 10

Gravitational force is…

Answer 10

The force of attraction between masses

Question 11

What are gravity’s two main important effects

Answer 11

•on the surface of the planet, it makes all things fall towards the ground AND•it gives everything a weight

Question 12

Define the term ‘mass’

Answer 12

The amount of of ‘stuff’ in an object

Question 13

What is weight

Answer 13

Weight is the force acting on an object due to gravity.Close to the earth, this force is caused by the gravitational field around the eating

Question 14

Gravitational field strength varies, where is it strongest

Answer 14

It’s stronger the closer you are to the mass and it’s stronger for larger masses

Question 15

What does the weight of an object depend on?

Answer 15

The strength of a gravitational force at the location of the object. This means the weight of an object changes with location

Question 16

Weight is measured in …

Answer 16

Newtons

Question 17

What is the term to describe the weight force acting from a single point on an object

Answer 17

‘Centre of mass’

Question 18

Weight is measured using…

Answer 18

A calibrated spring balance or newtonmeter

Question 19

Mass and weight are directly proportional. What equation would you use to work out the weight of an object?

Answer 19

Weight(N)=Mass(KG) x Gravitational Field Strength(N/KG)

Question 20

Increasing the mass of an object increases his weight. Write this using the direct proportional symbol

Answer 20

W ∝ M

Question 21

What can you use to show the forces acting on an object

Answer 21

A free body diagram

Question 22

What do the things on a free body diagram represent

Answer 22

•The size of the arrows show the relative magnitudes of the forces •The direction show the direction of forces acting on the object

Question 23

A resultant force is…

Answer 23

The overall force on a point or object

Question 24

How many forces act on an object along any direction

Answer 24

At least two

Question 25

If you have a number of forces acting at a singles point what can you replace them with

Answer 25

A single force AKA: the resultant force

Question 26

If the forces all act along a parallel line, how is the overall effect found …

Answer 26

By adding those going in the same direction and subtracting any force going in the opposite direction

Question 27

If w resultant force moves an object through a distance…

Answer 27

Energy is transferred & work is done

Question 28

To make something move…

Answer 28

A force must be applied

Question 29

The thing applying the force needs…

Answer 29

A source of energy E.G:food or fuel

Question 30

Work is done even if the energy transferred is …

Answer 30

Useful or wasted

Question 31

Equation for work done

Answer 31

Work Done(J)=Force(N) x Distance(m) W=FxS

Question 32

One joule of work is done when a force of…

Answer 32

One newton caused an object to move a distance of one metre.

Question 33

Conversion of joules to newton meters

Answer 33

1J = 1Nm

Question 34

How to use a scale drawing to find a resultant force

Answer 34

1.Draw all the forces acting on an object, to scale ‘tip-to-tail’2.Draw a straight line from the start of the first force to the end of the last force (resultant force)3.Measure length of resultant force on the diagram to find the magnitude, angle and direction of the force

Question 35

If all the forces acting on an object combine to give a resultant force of zero Or If the forces are balanced

Answer 35

The object is at an equilibrium

Question 36

For three forces the scale diagram should…

Answer 36

Form a triangle

Question 37

To draw an equilibrium the tip of the last force…

Answer 37

Should end where the tail of the first force you drew began

Question 38

If told to find the missing force when an object is at equilibrium, you should

Answer 38

•draw out the forces you do know•join the end of the last force to the start of the first force•^ this line is the missing force so you can measure its size and direction

Question 39

Not all forces act…

Answer 39

Horizontally or vertically, some are at awkward angles

Question 40

If you find a force with an awkward angle…

Answer 40

•split it into two components at right angles (acting together these components have the same effect as the single force)

Question 41

To resolve an single force…

Answer 41

•split it into components by drawing it on a grid •draw the force to scale•add horizontal and vertical components along grid lines •Then measure the components

Question 42

When you apply a force to an object you may cause it to…

Answer 42

Stretch, compress or bend ^these actions transfer energy

Question 43

If an object is being stretched, compressed or bent you need…

Answer 43

More than one force acting on the object otherwise the object would simply move in the direction of the applied force

Question 44

An object has been elastically deformed if…

Answer 44

It can go back to its original shape and length after the force has been removed. They are called elastic objects E.G: a spring

Question 45

An object has been inelastically deformed if…

Answer 45

It doesn’t return to its original shape and length after the force has been removed

Question 46

Work is done when a forced stretches or compressed an object because…

Answer 46

Energy is transferred to the elastic potential energy store of the object

Question 47

If work is done in an elastically deformed object…

Answer 47

ALL energy is transferred to the objects elastic potential energy store

Question 48

Extension is directly proportionately to force

Answer 48

F ∝ e This is the equation:F(N)=K(N/m) x e(m)

Question 49

The spring constant depends on…

Answer 49

The material that you are stretching•a stiffer spring has a greater spring constant

Question 50

The F=Ke equation also works for compression…

Answer 50

Where e is just the difference between the natural and compressed lengths (The compression)

Question 51

There is a limit to the amount of force you can apply to an object…

Answer 51

To keep on increasing it proportionally

Question 52

Distance is just how far an object has moved its has…

Answer 52

A scalar quantity

Question 53

Displacement measures the distance and direction in w straight line from an objects starting point to its finishing point

Answer 53

It is a vector quantity E.G: a bearing

Question 54

EXAMPLE:If you walk 5m north and 5m south…

Answer 54

Your displacement is 0 But the distance travelled is 10m

Question 55

Speed and velocity both measure how fast you’re going, but…

Answer 55

•Speed is a scalar quantity •velocity is a vector quantity

Question 56

you can have objects travelling at a constant speed with a changing velocity

Answer 56

When an object is changing direction whilst staying at the same speed E.G:a car going round a roundabout

Question 57

If you want to measure the speed of an object moving with a constant speed you should…

Answer 57

Time how long it takes the object to travel a certain distance

Question 58

The equation for measure an objects speed

Answer 58

Speed(m/s)= distance travelled(m) / time(s)V= m/s

Question 59

Objects rarely travel at a constant speed, your speed is always changing…

Answer 59

The formula:V=s / tGives the average (mean) speed during that time period

Question 60

A persons walking speed…

Answer 60

1.5m/s•many things can effect this, for example a persons fitness,age, distance travelled or the terrain

Question 61

A persons running speed

Answer 61

3m/s•many things can effect this, for example a persons fitness,age, distance travelled or the terrain

Question 62

A persons cycling speed

Answer 62

6m/s

Question 63

A cars speed

Answer 63

25m/s

Question 64

A trains speed

Answer 64

30m/s

Question 65

A planes speed

Answer 65

250m/s

Question 66

The speed of sound (330m/s in the air) changes depending on…

Answer 66

What the sound waves are travelling through, the speed of the wind

Question 67

Wind speed can be affected by things like

Answer 67

•Temperature •atmospheric pressure •buildings in that area Or•structures near by

Question 68

Acceleration is…

Answer 68

How quickly you’re speeding up, it is the change in velocity in a certain amount of time

Question 69

Equation for acceleration

Answer 69

Acceleration (m/s {squared}) =

Question 70

Uniform acceleration means…

Answer 70

A constant acceleration

Question 71

Acceleration due to gravity is uniform for objects in free fall.

Answer 71

It’s roughly equally to 9.8m/s² bear the earths surface and has the same value as gravitational field strength

Question 72

Equation for uniform acceleration

Answer 72

V² - U²= 2asFinal velocity(m/s) - initial velocity(m/s) = acceleration(m/s²) x distance (m)

Question 73

To estimate an acceleration…

Answer 73

Use the typical speed of the object and ÷ by the time

Question 74

Use distance time graphs to show…

Answer 74

An object moving on a straight line

Question 75

Gradient = speed

Answer 75

The steeper the graph, the faster the speed

Question 76

DTG:Flat sections

Answer 76

Stationary

Question 77

DTG:Straight uphill

Answer 77

Travelling at a steady speed

Question 78

DTG:Curve

Answer 78

Acceleration or deceleration

Question 79

DTG:Steepening curve

Answer 79

Speeding up

Question 80

DTG:Levelling off curve

Answer 80

Slowing down

Question 81

Velocity time graphs show…

Answer 81

How an objects velocity changes

Question 82

VTG:Gradient

Answer 82

Acceleration

Question 83

VTG:Flat section

Answer 83

Steady speed

Question 84

VTG:Steeper gradient

Answer 84

Greater acceleration or deceleration

Question 85

VTG:Uphill sections (/)

Answer 85

Acceleration

Question 86

VTG:Downhill sections()

Answer 86

Deceleration

Question 87

VTG:A curve

Answer 87

Change in acceleration

Question 88

The area under any section of the graph is…

Answer 88

Equal to the distance travelled in that time interval

Question 89

If the graph is curved…

Answer 89

Use a tangent to the curve at a point to find the acceleration

Question 90

If an object has no force propelling it along he will always…

Answer 90

Slow down and stop because of friction

Question 91

Friction always acts in…

Answer 91

The opposite direction to movement

Question 92

To travel at a stress speed…

Answer 92

The driving forces need to balance the frictional forces

Question 93

You get friction between two surfaces in contact…

Answer 93

Or when an object passes through fluid (this is also know as drag)

Question 94

You can reduce friction between surface by using…

Answer 94

Lubricant

Question 95

Drag is the resistance you get in a…

Answer 95

Fluid (a gas or a liquid)•Air resistance is a type of drag

Question 96

The most important factor by far in reducing drag is…

Answer 96

Keeping the shape of the object streamlined (This is where the object is designed to allow fluid to flow easily across it, reducing drag)

Question 97

Parachutes work in the opposite way…

Answer 97

They want as much drag as they can get

Question 98

Frictional Forces from fluids always…

Answer 98

Increase with speed(E.G: a car has much more friction to work against when travelling at 70mph compared to 30mph)

Question 99

When a falling object first sets off, the force of gravity is much more…

Answer 99

Than the frictional force slowing it down, so it accelerates

Question 100

When an object is falling, as the speed increases…

Answer 100

•The friction builds up, this gradually reduces the acceleration •Eventually the frictional force is equal to the accelerating force •The resultant force is zero •It will have reached its maximum speed or terminal velocity and will fall at a steady speed

Question 101

Typically, the less streamlined an object is…

Answer 101

The lower it’s terminal velocity

Question 102

Objects with a large surface area…

Answer 102

Tend to have lower terminal velocity as there is more air resistance acting on it at any given speed

Question 103

Terminal velocity depends on shape and area

Answer 103

For example, if you dropped a marble and a beach ball off a tall building, the marbles terminal velocity would be higher than the terminal velocity of the beach ball.The beach ball spends less time accelerating before the air resistance is large enough to equal the accelerating force

Question 104

Newton’s first law

Answer 104

A resultant force is needed to make something start moving, speed up or slow down •if the resultant force on a stationary object is zero, the object will stay stationary•if the resultant force on a moving object is zero, it will just carry on moving at the same velocity

Question 105

A non zero resultant force will always…

Answer 105

Produce an acceleration or deceleration in the direction of the force •On a free body diagram, the arrows will always be unequal

Question 106

Five different forms acceleration can take

Answer 106

•Starting•Stopping•Speeding up•Slowing down •Changing direction

Question 107

Acceleration is proportional to the resultant force

Answer 107

F ∝ a

Question 108

Acceleration is also…

Answer 108

Inversely proportional to the mass of the object

Question 109

Newton’s second law

Answer 109

F= m aResultant force (N) = Mass(Kg) x Acceleration(m/s²)

Question 110

To estimate the acceleration

Answer 110

Use the typical speed of an object and multiply it by the mass

Question 111

Inertia is…

Answer 111

The tendency for motion to remain unchanged

Question 112

An objects inertial mass measures how…

Answer 112

Difficult it is to change the velocity of an object

Question 113

Inertial mass can be found using Newton’s second law

Answer 113

m= F ÷ a•inertial mass is just the ratio of a force over acceleration

Question 114

Newton’s third law

Answer 114

When two objects interact, the forces the exert on each other are Raquel and opposite E.G:If you push a trolley, the trolley will push back against you just as hard & when you stop pushing, so does the trolley

Question 115

An example of Newton’s third law is…

Answer 115

An equilibrium situation, but if the two forces are different types and not acting on the force this isn’t an example of Newton’s third law

Question 116

In an emergency, a driver may perform an emergency stop…

Answer 116

This is where maximum force is applied by the brakes in order to stop the car in the shortest possible distance

Question 117

The longer it takes to perform an emergency stop…

Answer 117

The higher the risk of crashing into what ever is infront if you

Question 118

Distance it takes for a car to stop in an emergency is found by…

Answer 118

Stopping distance = thinking distance + braking distance

Question 119

Thinking distance

Answer 119

How far the car travels during the drivers reaction time

Question 120

Braking distance

Answer 120

The distance taken to stop under the braking force (once brakes are applied)

Question 121

Breaking distance if a car is travelling at 30mph

Answer 121

14m

Question 122

Breaking distance if a car is travelling at 60mph

Answer 122

55m

Question 123

Breaking distance if a car is travelling at 70mph

Answer 123

70m

Question 124

Thinking distance is affected by

Answer 124

•your speed - the faster you’re going the further you’ll travel during the time it takes you to react•your reaction time - the longer your reaction time, the longer you thinking distance

Question 125

Braking distance is affected by…

Answer 125

•Your speed - for a given braking force, the faster a vehicle travels, the longer it takes to stop•Weather or road surface - if it’s wet or icy, or there are leaves or oil on the road, there is less grip(so less friction), can causes tyres to skid •Condition of tyres - if bald, they can’t get rid of water in wet conditions = skidding•How good your brakes are - if worn or faulty, they won’t apply as much force

Question 126

When the brake is pushed, this causes brake pads to be pressed onto the wheels…

Answer 126

Contact force = friction, which causes work to be done.

Question 127

The work done between the brakes and the wheels transfer energy from the kinetic energy stores of the wheels…

Answer 127

To the thermal energy stores of the brakes. The brakes increase in temperature.

Question 128

The faster a vehicle is going, the more energy it has in its kinetic stores…

Answer 128

So the more work needs to be done to stop it. This means that the greater braking force is needed to make it stop within a certain distance

Question 129

A larger braking force means…

Answer 129

A larger deceleration

Question 130

Very large deceleration can be dangerous because…

Answer 130

They may cause brakes to overheat (they don’t work as well) or could cause the vehicle to skid

Question 131

Estimate the forces involved in accelerations if vehicles by…

Answer 131

Using typical values

Question 132

Momentum(kg m/s)…

Answer 132

Mass(kg)x velocity(m/s) P=m x v

Question 133

Momentum is…

Answer 133

A property that all moving objects have

Question 134

The greater the mass of an object, or the greater its velocity…

Answer 134

The more momentum the object has

Question 135

In a closed system the total momentum before an event (e.g a collision)…

Answer 135

Is the same after the event. This is called conservation of momentum

Question 136

A closed system…

Answer 136

Is the fancy was of saying that no external forces act

Question 137

If the momentum before an event is zero, the momentum after will be zero…

Answer 137

E.G:In an explosion, the momentum before is zero. After the explosion, the pieces fly off in different directions, so that the total momentum cancels out to zero

Question 138

A moving car hits into the back of a parked car. The crash causes the two cars to lock together, and they continue moving in the direction that the original moving car was travelling at, but at a lower velocity…

Answer 138

Before: The momentum was equal to mass of moving car x it’s velocity After: The mass of the moving object has increased, but it’s momentum is equal to the momentum before the collision. So an increase in mass causes a decrease in velocity