Mechanics 2

Question 1

What does freefall mean?

Answer 1

Freefall is when the only force acting on an object is gravity.

Question 2

In which direction does g act?

Answer 2

Vertically down

Question 3

At what acceleration do objects in freefall accelerate towards the ground at?

Answer 3

g (9.81m s-2)

Question 4

What’s freefall motion called when the object is given an initial velocity?

Answer 4

Projectile motion

Question 5

What should you do if you need to use the SUVAT equations on an object that has an initial velocity at an angle to the horizontal?

Answer 5

Resolve the velocity into its vertical and horizontal components. Using the vertical velocity for the calculation with the SUVAT equations, to calculate how long it’s in the air. Then use the horizontal component of velocity along with the time calculated from the vertical component to calculate the distatance the projectile travelled.

Question 6

What is the only force present in free fall motion?

Answer 6

Weight

Question 7

Describe an experiment you could do to obtain data that you could use to determine the value of g.

Answer 7

Using light gates or an electomagnetic timer. Time the time taken for a ball bearing the fall through a certain distance. Take readings for each height and obtain an average.

Question 8

Explain how you can plot the data obtained from the measuring g practial on a graph to obtain the value for g.

Answer 8

Plotting height against time squared and drawing a line of best fit. Then find the gradient of that line. 1/2 the gradient will give you the acceleration due to gravity.

Question 9

Ignoring air resistance, which ball will accelerate fastest. One with a mass of 5kg or one with a mass of 50kg?

Answer 9

They will both accelerate at the same rate, g.

Question 10

What is the effect of air resistance on the trajectory of a projectile?

Answer 10

It will reduced the distance travelled by the projectile. If the projectile starts with vertical velocity, it will reduce the height the projectlie reaches.

Question 11

What is meant by friction?

Answer 11

A force which opposes the motion of an object.

Question 12

What is meant by drag?

Answer 12

A force which opposes the motion of an object in a fluid.

Question 13

In what direction does a frictional force act?

Answer 13

In the opposite direction to the motion of the object.

Question 14

In what direction does lift act, relative to a flowing fluid?

Answer 14

At right angles to the flowing fluid.

Question 15

What can you say about the frictional forces and the driving forces acting on an object when it reaches terminal velocity?

Answer 15

They are equal and opposite (balanced)

Question 16

Sketch a velocity-time graph for an object falling through the air and reaching terminal velocity.

Answer 16

Initially there is some uniform acceleration, the rate of acceleration slows as the the air resistance increases, eventually leading to a constant velocity.

Question 17

How can a skydiver reduce her terminal velocity?

Answer 17

Open her parachute to increase the drag force acting on her.

Question 18

How does friction change the energy store of an object?

Answer 18

Converts kinetic energy into thermal energy.

Question 19

Explain how air resistance affects the maximum speed of a car.

Answer 19

As the speed of the car increases, the air resistance acting on the car also increases, until these forces are balanced and the car is travelling at it’s top speed. The force of air resistance limits the maximum speed of the car. A larger air resistance will mean a slower top speed, a smaller force of air resistance means a higher top speed.

Question 20

Other than increasing the power of the engine, how could the maximum speed of the car be increased?

Answer 20

Make the body of the car more aerodynamic to reduce air resistance.

Question 21

What affect does speed have on air resistance?

Answer 21

Air resistance increases as speed increases.

Question 22

How can frictional forces acting on an object be reduced?

Answer 22

By making the object more streamlined.

Question 23

Which of these graphs shows the velocity-time graph of an object falling through air and reaching terminal velocity?

Answer 23

Teacher to draw

Question 24

What does the acceleration-time graph look like for a parachutest falling and reaching terminal velocity?

Answer 24

Acceleration starts at 9.81 ms-2 and reduces in a non-uniform way until reaching 0 ms-2 where the parachutest reaches terminal velocity.

Question 25

What is the initial rate of acceleration on earth? Why does it decrease as the object falls?

Answer 25

9.81 ms-2. Air resistance increases reducing the resultant force.

Question 26

Why does a kicked football move in a parabolic curve/projectile motion

Answer 26

Because the horizontal velocity remains constant, while the vertical velocity is affected by acceleration downwards due to gravity.

Question 27

When looking at projectile motion questions, how should you treat the horizonal and vertical components of motion?

Answer 27

Horizontal and vertical components of motion should be treated independently.

Question 28

Define terminal velocity

Answer 28

The maximum velcoity an object will fall at when the force of weight is balanced by the force of air resistance

Question 29

State Newton’s first law of motion

Answer 29

If there is no resultant force acting on an object it will either stay at rest or move with a constant speed in the same direction.

Question 30

State Newtons second law of motion

Answer 30

If there is a resultant force acting on an object it will accelerate in the direction of the resultant force. The acceleration of an object is proportional to the resultant force acting on it.

Question 31

State Newtons third law

Answer 31

If object A exerts a force on object B, object B will exert and equal force on A but in the opposite direction.

Question 32

Explain with reference to Newton’s third law how we are able to walk across the floor.

Answer 32

In order to walk across the floor, you must push back on the floor with your foot; then, according to Newton’s Third Law, the floor pushes forward on your foot, which propels you forward. This, of course, requires friction to work.

Question 33

Explain why the equal and opposite force of a books weight on the table is not the reaction force of the table acting on the book.

Answer 33

The forces are acting on the same object, the forces are of different types.

Question 34

Name the equal and opposite force of a book’s reaction force on a table according to Newton’s third law.

Answer 34

The reaction force of the table acting on the book.

Question 35

How much resultant force is needed to accelerate a 24.1 kg mass by 3.5 ms-2?

Answer 35

84 N (2.s.f)

Question 36

A resultant force of 18N is applied to a toy car with a mass of 0.61 kg. What will the magnitude of the car’s acceleration be?

Answer 36

30 ms-2 (2.s.f)

Question 37

Two ice skaters of mass 55.0 kg and 60.0 kg push against each othere. The heavier ice skater accelerates away at 2.3 ms-2. What will the magnitude of the lighter ice skaters acceleration be?

Answer 37

2.5 ms-2 (2.s.f)

Question 38

Explain how a swimmer moves forwards in the water.

Answer 38

The swimmer pushes back against the water with their arms and legs, the water pushes the swimmer forwards with an equal sized force.

Question 39

State Newton’s three laws of motion and briefly explain what they mean.

Answer 39

Newton’s first law: The velocity of an object won’t change unless a resultant force acts on it. This means a body will stay still or move in a straight line at a constant speed unless there’s a resultant force acting on it. Newton’s second law: Resultant force = mass x acceleration. This means a larger force acting on an object causes a larger acceleration, and a larger mass means a smaller acceleration for a given force. Newton’s third law: If an object A exerts a force on object B, then object B exerts an equal and opposite force on object A. This means every action has an equal and opposite reaction.

Question 40

Draw a diagram showing what forces are acting on a book when it’s sitting still on the floor.

Answer 40

Gravity pulls down on book, floor pushes up on book

Question 41

What are the two conditions necessary for two equal and opposite forces to obey Newton’s third law?

Answer 41

The forces must act on different objects, they must be the same type of force.

Question 42

Why does a bird lift into the air when it flaps its wings?

Answer 42

When a bird flaps its wings it pushes down on the air. The air then pushes back up o the bird’s wings with the same force, which causes it to lift.

Question 43

How can Newton’s second law be written as a formula?

Answer 43

F = ma

Question 44

Give the formula for momentum, including the units for each quantity

Answer 44

p= mv , p, momentum, measured in kgms-1 , m, mass, measured in kg, v, velocity, measured in ms-1

Question 45

What unit is momentum measured in?

Answer 45

kgms-1

Question 46

Is momentum a vector or a scalar quantity?

Answer 46

Vector

Question 47

What two quantities does momentum depend on?

Answer 47

Mass and velocity

Question 48

Which of the following gives a body’s change in momentum? A) The gradient of a force-time graph. B) The area under a force-time graph. C) The grdient of a force-distance graph. D) The area under a force-distance graph.

Answer 48

B) The area under a force-time graph.

Question 49

Moving objects with mass are said to have __________?

Answer 49

Momentum

Question 50

State the law of conservation of momentum

Answer 50

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

Question 51

What is conserved in an elastic collision?

Answer 51

Kinetic energy and momentum

Question 52

What is conserved in an inelastic collision?

Answer 52

Only momentum

Question 53

What is the formula for kinetic energy?

Answer 53

E = 1/2 mv2

Question 54

How can Newton’s second law be written in terms of momentum?

Answer 54

F = ma –> F = m Δv/ Δt –> F = Δp/ Δt

Question 55

How do crumple zones make cars safer?

Answer 55

They are designed to crumple easily, which increases the impact time, reducing the average force that is needed to stop you.

Question 56

What is the formula for impulse?

Answer 56

F Δt = Δ(mv)

Question 57

What is impulse?

Answer 57

Force x time

Question 58

What are the units of impulse?

Answer 58

Ns

Question 59

The impulse on a body is equal to ……

Answer 59

The change in momentum of that body

Question 60

What does the area under a force-time graph give you?

Answer 60

Impulse

Question 61

How do air bags work?

Answer 61

The person’s kinetic energy is absorbed by the air bag, the impact time is lengthened, reducing the force on the passenger.

Question 62

How does a seat belt work to make a passenger safer?

Answer 62

The seat belt stretches, increasing the time it takes you to stop, reducing the force needed to stop you.

Question 63

As force is equal to the rate of change of momentum, how can the force acting be increased?

Answer 63

Decreasing the time the change in momentum takes place over.

Question 64

A squash ball moving horizontally hits a squash racquet. How would you calculate the impulse acting on the ball?

Answer 64

Impulse is equal to the change in momentum, so you would need to subtract the momentum before the collision from the momentum after the collision.

Question 65

What are the units of work done?

Answer 65

Joules

Question 66

What is the formula for work done when the force and direction moved are in the same plane?

Answer 66

W = Fs

Question 67

How do you calculate work done when the direction of the movement is different from the direction of the force making it move?

Answer 67

Resolve the force in the direction of the motion. W =F s cos θ

Question 68

What does work mean in physics?

Answer 68

Work is the amount of energy transferred from one form to another when a force causes a movement of some kind.

Question 69

How do you calculate work done? Give the units for each quantity.

Answer 69

W = F s W is work done, measured in Joules (J) F is force, measured in Newtons (N) s is distance moved, measured in meters (m)

Question 70

How do you calculate power?

Answer 70

P = ΔW/Δt

Question 71

What unit is power measured in?

Answer 71

Watts (W)

Question 72

What is the Watt defined as?

Answer 72

1 Watt is one joule per second

Question 73

What is transferred when work is done?

Answer 73

Energy

Question 74

Power is the rate of doing what?

Answer 74

Doing work

Question 75

What does the ares under a force-displacement graph tell you?

Answer 75

Work done

Question 76

Which equation links power and speed of a moving object?

Answer 76

P = W/t –> P = Fs/t –> P = Fv

Question 77

What does the principle of conservation of energy state?

Answer 77

The principle of conservation of enegry states: Energy cannot be created or destroyed. Energy can be transferred from one form to another but the total amount of energy in a closed system will not change.

Question 78

Efficiency is a measure of how well energy is __________.

Answer 78

Transferred.

Question 79

What is the formula for kinetic energy?

Answer 79

E = 1/2 mv2

Question 80

When an object falls, _______ energy is transferred to ___________ energy.

Answer 80

When an object falls, gravitational potential energy is transferred to kinetic energy.

Question 81

Why are no machines 100% efficient?

Answer 81

Whenever energy is transferred, some energy is converted to less useful forms (such as heat and sound)

Question 82

What is the formula for elastic potential energy?

Answer 82

E = 1/2k (ΔL)2

Question 83

What is the formula for gravitational potential energy?

Answer 83

E = mgh

Question 84

How is efficiency caculated in terms of energy?

Answer 84

Efficiency = useful energy output/ total input energy

Question 85

Which of the following is the correct unit for efficiency? A) joules B) watts C) seconds D) Efficiency has no units

Answer 85

D) Efficiency has no units

Question 86

How is efficiency caculated in terms of power?

Answer 86

Efficiency = useful power output/ total input power

Question 87

Describe the energy transferes involved when a catapult string is drawn back and a pellet is fired out of the catapult.

Answer 87

Work is done by the hand to pull the catapult string back, transferring he kinetic energy of the hand to elastic potential energy is stored in the string. When the string is released the elastic potential energy is converted into kinetic energy, which is transferred to the pellet. As the pellet travels through the air the kinetic energy of the pellet is transferred to thermal energy of the surroundings.

Question 88

True or false? The drag force felt by an object moving in a fluid depends on the objects shape.

Answer 88

True.

Question 89

What is the difference between an elastic and inelastic collision?

Answer 89

In an elastic collision both momentum and kinetic energy are conserved. In an inelastic collision only momentum is conserved.

Question 90

Explain, with regards to Newton’s second law, why landing on the crash mat is less likely to cause injury to a gymnast than the gymnast landing directly onto the floor.

Answer 90

From Newton’s second law, force is equal to the rate of change of momentum. The crash mat increases the time over which they gymnast is brought to rest from her initial velocity. This reduces the gymnast’s rate of change of momentum. Due to Newton’s second law, this means that the force acting on her is less than it would be if she landed directly only the floor, and this smaller force is less likely to cause injury.

Question 91

In physics, what does it mean to say that ‘work is done’?

Answer 91

Energy is transferred when an object is moved by a force.