TOPIC 5 FORCES PART 2

Question 1

What is meant by the term ‘fluid’?

Answer 1

A liquid or a gas.

Question 2

In any fluid, at what angle do the forces due to pressure act on a given surface?

Answer 2

At right angles (normal to) the surface.

Question 3

State the equation used to calculate pressure. Give appropriate units.

Answer 3

Pressure = Force/Area
Pressure (Pascals), Force (Newtons), Area (metre2)

Question 4

What happens to the density of the atmosphere with increasing altitude?

Answer 4

The atmosphere becomes less dense as altitude increases.

Question 5

Explain why atmospheric pressure decreases with an increase in height.

Answer 5

● Pressure is created by collisions of air molecules
● The quantity of molecules (and so weight) decreases as the height increases
● This means atmospheric pressure decreases
with an increase of height

Question 6

What is the Earth’s atmosphere?

Answer 6

A thin (relative to the magnitude of the Earth) layer of gas surrounding the Earth.

Question 7

How does pressure in fluids increase with depth?

Answer 7

As the depth increases, the mass of liquid above that depth also increases. This means that the force due to the mass increases. Since the force has increased whilst the area has remained constant, the pressure will
increase.

Question 8

Why does pressure in fluids increase with density?

Answer 8

As the density of a fluid increases, the number of
particles in a given volume increases. Consequently the weight of the fluid is greater. This means that the force from the fluid above a certain point is larger. Since the force has increased, the pressure also increases.

Question 9

What equation shows the magnitude of pressure in liquids at different depths?

Answer 9

Pressure due to a column of liquid(Pa) = Column height(m) x density(kg/m3) x gravitational field strength(N/kg)
P = hρg

Question 10

What is upthrust always equal to?

Answer 10

The weight of the fluid that the object displaces.

Question 11

What factors influence whether an object will sink or float?

Answer 11

● Upthrust
● Weight
● Density of fluid

Question 12

Explain why an object with a density greater than that of water can never float.

Answer 12

Upthrust is equal to the weight of the displaced fluid. If the density of the object is high, there would not be enough volume displaced to produce an upthrust larger than the object’s weight. This means that it will sink.

Question 13

Does a distance quantity require a specific direction? i.e. is it a scalar or vector quantity?

Answer 13

No specific direction is required so it is a scalar quantity.

Question 14

State a typical value for the speed of sound.

Answer 14

330 m/s

Question 15

What is a typical value for human walking speed?

Answer 15

1.5 m/s

Question 16

What is a typical value for human running speed?

Answer 16

3 m/s

Question 17

What is a typical value for human cycling speed?

Answer 17

6 m/s

Question 18

Why can an object travelling at a constant speed in a circle not have a constant velocity?

Answer 18

● Speed is a scalar quantity
- Velocity is a vector quantity which means it canonly be constant if the direction is constant
- In circular motion, the direction is continuously changing

Question 19

How can speed be calculated from a distance-time graph?

Answer 19

The speed is equal to the gradient of the graph.

Question 20

What must be done to calculate speed at a given time from a distance-time graph for an accelerating object?

Answer 20

● Drawing a tangent to the curve at the required time
● Calculating the gradient of the tangent

Question 21

Give an approximate value for the acceleration of an object in free fall under gravity near the Earth’s surface.

Answer 21

9.8 m/s2

Question 22

State Newton’s first law for a stationary object.

Answer 22

If the resultant force on a stationary object is zero, the object will remain at rest.

Question 23

State Newton’s first law for a moving object.

Answer 23

If the resultant force on a moving object is zero, the object will remain at constant velocity (same speed in same direction).

Question 24

What can be said about the braking forces and driving forces when a car is travelling at constant velocity?

Answer 24

The braking forces are equal to the driving forces.

Question 25

What is inertia?

Answer 25

The tendency of an object to continue in its state of rest or uniform motion.

Question 26

State the defining equation for Newton’s Second Law.

Answer 26

Resultant force = Mass x Acceleration F = ma

Question 27

State Newton’s Second Law in words.

Answer 27

An object’s acceleration is directly proportional to the resultant force acting on it and inversely proportional to its mass.

Question 28

What is inertial mass?

Answer 28

● A measure of how difficult it is to change a given object’s velocity
● The ratio of force over acceleration

Question 29

State Newton’s Third Law.

Answer 29

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

Question 30

What is the stopping distance of a vehicle equal to?

Answer 30

The sum of thinking distance and braking distance.

Question 31

Give a typical range of values for human reaction time.

Answer 31

0.2 seconds - 0.9 seconds

Question 32

Give three factors which can affect a driver’s reaction time.

Answer 32

1. Tiredness 2. Drugs 3. Alcohol

Question 33

Give two factors which may affect braking distance.

Answer 33

1. Adverse (wet/icy) road conditions
2. Poor tyre/brake conditions

Question 34

Describe the energy transfers that take place when a car applies its brakes.

Answer 34

● Work is done by the friction force between the brakes and wheel
● Kinetic energy of the wheel is converted to heat and is dissipated to the surroundings
through the brake discs

Question 35

To stop a car in a given distance, if its velocity is increased, what must happen to the braking force applied?

Answer 35

The braking force must also be increased.

Question 36

State two consequences of a vehicle undergoing very large decelerations.

Answer 36

1. Kinetic energy converted to heat is very high causing brakes to overheat
2. Loss of control of the vehicle

Question 37

State the equation used to calculate an object’s momentum.

Answer 37

Momentum = Mass x Velocity

Question 38

What is the unit used for momentum?

Answer 38

kg m/s
kilogram metres per seconds

Question 39

In a closed system, what can be said about the momentum before and after a collision?

Answer 39

The total momentum before is equal to the total momentum afterwards.

Question 40

State an equation linking change in momentum, force and time

Answer 40

Force x Time = Change in Momentum

Question 41

What quantity is equal to the force experienced in a collision?

Answer 41

The rate of change of momentum

Question 42

If an object’s change of momentum is fixed, what is the only way to reduce the force that the object experiences?

Answer 42

Increase the length of time over which the change of momentum occurs

Question 43

Perujan

Answer 43

Chopsticks