Forces - paper 2

Question 1

Define a scalar

Answer 1

A quantity that only has magnitude.

Question 2

Give some examples of scalar quantities

Answer 2

Speed, distance, time, mass, volume

Question 3

Define a vector quantity

Answer 3

A quantity that has magnitude and direction.

Question 4

Give some examples of vector quantities

Answer 4

Velocity, displacement, acceleration, momentum, any force

Question 5

State some examples of non contact forces

Answer 5

Friction, air resistance, drag, upthrust, tension, normal contact force

Question 6

State some examples of contact forces

Answer 6

Gravity, magnetism, electrostatic

Question 7

State the equation with all units for Weight

Answer 7

weight (N) = mass (kg) × gravitational field strength(N/kg)

Question 8

What is the mathematical relationship between weight and mass.

Answer 8

They are directly proportional

Question 9

What equipment can be used to measure weight?

Answer 9

Weight is measured using a calibrated spring-balance called a newtonmeter

Question 10

Define a resultant force

Answer 10

When a number of forces acting on an object may be replaced by a single force that has the same effect as all the original forces acting together.

Question 11

When is work done?

Answer 11

When a force causes an object to move through a distance

Question 12

What is the relationship between work done and energy transferred

Answer 12

Work done = energy transferred

Question 13

State the equation and all units for work done

Answer 13

work done (J) = force (N) × distance moved along the line of action of the force (m)

Question 14

Define 1 joule of work

Answer 14

One joule of work is done when a force of one newton causes a
displacement of one metre. 1 joule = 1 newton-metre

Question 15

State Hooke’s law

Answer 15

The extension of an elastic object, such as a spring, is directly proportional to the force applied, provided that the limit of proportionality is not exceeded.

Question 16

State Hookes law equation with all units

Answer 16

force (N) = spring constant (N/m) × extension (m)

Question 17

When an object is stretched or squared what form of energy does it store?

Answer 17

Elastic potential energy.

Question 18

Define elastic deformation

Answer 18

When the forces are removed the object returns to its original length

Question 19

Define inelastic deformation

Answer 19

When the forces are removed the object doesn’t returns to its original length, it stays permanently stretched.

Question 20

Define a moment

Answer 20

The turning effect of a force

Question 21

State the equation for a moment, with all units

Answer 21

moment of a force (Nm) = force (N) × perpendicular distance (m)

Question 22

If an object is balanced what can you say about the clockwise and anticlockwise moments

Answer 22

They must be equal

Question 23

Define a liquid

Answer 23

Either a liquid or gas, particles must be able to move past each other

Question 24

State the equation for pressure with all units

Answer 24

pressure = force / area
Pressure - Pa
Force - N
Area - m2

Question 25

What is the relationship between pressure from a liquid and depth

Answer 25

As depth increases pressure increase due to a greater number of particles and force pushing on the object.

Question 26

How does liquid pressure cause upthrust?

Answer 26

A partially (or totally) submerged object experiences a greater pressure on the bottom surface than on the top surface, (pressure increases with depth). This creates a resultant force upwards. This force is called the upthrust.

Question 27

Define the atmosphere

Answer 27

The atmosphere is a thin layer (relative to the size of the Earth) of air round the Earth.

Question 28

State the relationship between altitude and the density of the atmosphere

Answer 28

he atmosphere gets less dense with increasing altitude.

Question 29

As altitude increase why does atmospheric pressure decrease?

Answer 29

Air molecules colliding with a surface create atmospheric pressure.
The number of air molecules (and so the weight of air) above a surface decreases as the height of the surface above ground level increases. So as height increases there is always less air above a surface than there is at a lower height. So atmospheric pressure decreases with an increase in height.

Question 30

State the difference between distance and displacement

Answer 30

Distance is a scalar - doesn’t involve direction
Displacement is a vector and is measured in a straight line from the start point to the finish point and the direction of that straight line.

Question 31

State the difference between speed and velocity

Answer 31

Speed is a scalar

Velocity is a vector

Question 32

State the following typical speeds:
walking
Running
Cycling
Sound

Answer 32

walking - 1.5 m/s
Running - 3.0 m/s
Cycling - 6.0 m/s
Sound - 330 m/s

Question 33

State the equation with all units to calculate speed

Answer 33

distance (m) = speed (m/s) × time (s)

Question 34

how can speed be calculated from a distance - time graph

Answer 34

Using the gradient

Question 35

State the equation to calculate average acceleration, with all units

Answer 35

acceleration = change in velocity / time

acceleration - m/s2
velocity - m/s
time - s

Question 36

How can acceleration be found from a velocity - time graph

Answer 36

From the gradient

Question 37

How can displacement be found from a velocity - time graph

Answer 37

From the area under the line

Question 38

What is the initial rate of acceleration for an object falling close to the earths surface?

Answer 38

9.8 m/s2

Question 39

What is terminal velocity and when does it occur?

Answer 39

the maximum velocity an object can fall at, this happens when forces are balanced

Question 40

What factors can increase the size of air resistance

Answer 40

Speed
Surface area
Density of the fluid which the object is falling through

Question 41

State Newtons first law

Answer 41

if the resultant force acting on an object is zero the object will stay at rest or move at a constant velocity

Question 42

The tendency of objects to continue in their state of rest or of uniform motion is called?

Answer 42

Inertia

Question 43

State Newtons second law

Answer 43

The acceleration of an object is proportional to the resultant force acting on the object, and inversely proportional to the mass of the object.

Question 44

State the equation with all units for Newtons Second law

Answer 44

resultant force (N) = mass (kg) × acceleration (m/s2)

Question 45

Define inertial mass

Answer 45

Inertial mass is a measure of how difficult it is to change the velocity of an object
inertial mass is defined as the ratio of force over acceleration.

Question 46

State Newton’s third law

Answer 46

Whenever two objects interact, the forces they exert on each other are equal and opposite.

Question 47

Define stopping distance

Answer 47

The stopping distance of a vehicle is the sum of the distance the vehicle travels during the driver’s reaction time (thinking distance) and the distance it travels under the braking force (braking distance).

Question 48

Define thinking distance

Answer 48

the distance the car travels whilst a driver reacts to a situation

Question 49

Define braking distance

Answer 49

the distance the car travels whilst the brakes are applied

Question 50

State the typical reaction times for a human

Answer 50

0.2 s to 0.9 s.

Question 51

State some factors that can affect a persons reaction times

Answer 51

tiredness, ages, drugs and alcohol, Distractions

Question 52

State some factors that can affect the braking distance of a car

Answer 52

Rain, ice, snow, poor quality brakes, poor quality tyres, gradient of the road, mass of the car

Question 53

State the one factor that can increase both the thinking distance and braking distance

Answer 53

Speed

Question 54

State the equation for momentum

Answer 54

momentum = mass × velocity

Question 55

State the units for momentum

Answer 55

kg m/s

Question 56

Define the conservation of momentum

Answer 56

In a closed system, the total momentum before an event is equal to the total momentum after the event.

Question 57

What is required to change the momentum of an object

Answer 57

A force

Question 58

explain safety features such as: air bags, seat belts, gymnasium crash mats, cycle helmets and cushioned surfaces for playgrounds with reference to the concept of rate of change of momentum.

Answer 58

A air bag increases the time for a person to stop.
Therefore for the same change of momentum a smaller force can be used.
Force = change in momentum/time

Question 59

Define acceleration

Answer 59

when an object speeds up, slows down or changes direction.

Question 60

Units of force

Answer 60

Newtons (N)

Question 61

What is the centre of mass of an object?

Answer 61

The point at which the mass may be thought to be concentrated

Question 62

Where does the centre of mass lie in symmetrical objects?

Answer 62

Along the line of symmetry

Question 63

How can the centre of mass of an irregular shape be found?

Answer 63

by hanging the shape from a point and a plumb line is used to draw a vertical line downwards from the pivot. this is repeated from different points
Where the lines meet is the centre of mass

Question 64

What is a gear?

Answer 64

A rotating machine with cogs that mesh with another toothed part to transmit a moment

Question 65

What do gears act as?

Answer 65

A force multiplier