Syllabus Edition

First teaching 2020

Last exams 2024

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Physical Quantities & Units (CIE AS Physics)

Exam Questions

3 hours41 questions
1a
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2 marks

Distinguish between scalar and vector quantities.

1b
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6 marks
(i)

Energy is a scalar quantity. State three other scalar quantities.

[3]
(ii)
Force is a vector quantity. State three other vector quantities.
[3]
1c
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4 marks

Fig. 1.1 shows a block at rest on a slope.

Three forces, weight W, normal contact force N and the frictional force F act on the block. The forces are in equilibrium.

1-1-1c-e-1-1-e-box-slope-vector-combine-cie-ial-sq

(i)
Explain what is meant by 'the forces are in equilibrium'.
[2]
(ii)
Complete the vector triangle in Fig. 1.2. Label the missing vector and the angle between W and N.
 

1-1-1c-e-1-1-e-box-slope-vector-triangle-cie-ial-sq

[2]

1d
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4 marks

The frictional force has a magnitude of 60 N.

By resolving the vector, calculate the component of the force that acts

 
(i)
horizontally
[2]
(ii)
vertically.
[2]

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2a
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4 marks

Table 1.1 shows SI base quantities and their corresponding base unit.

Table 1.1
SI base quantity SI base unit
Mass kilogram, kg
Time  
Length  
   
   
 
(i)
Complete the missing SI base units for time and length in Table 1.1.
[2]
(ii)
Complete Table 1.1 by adding two other base quantities and their units.
[2]
2b
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2 marks

Newton's second law of motion describes the relationship between force F mass m and acceleration a:

F space equals space m a

The derived unit for force is the newton (N).

Use Newton's second law to write 1 N in SI units.

2c
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2 marks

The kinetic energy equation describes the relationship between energy E, mass, m, and velocity, v.

E subscript k space equals space 1 half m v squared

The derived unit for energy is the joule (J).

Use the equation linking kinetic energy and speed to write 1 J in SI base units.

2d
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2 marks

The derived unit for power P is the watt W.

Given that power is the energy transferred E per unit time t, deduce the SI base units for power

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3a
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3 marks

On Fig. 1.1, draw a line from each quantity to its correct unit.

 

1-1-e-connector-quantities-units

Fig. 1.1

3b
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3 marks

Complete the missing prefixes and powers of ten in Table 1.1

 

Table 1.1

Prefix

Power of ten

tera

 

 

109 

 

10

 centi

 10−2

milli

 

micro

 

 

10−9

pico

10−12

3c
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4 marks

Convert the following measurements into standard form and to the specified number of significant figures.

 
(i)      71 GJ to 3 s. f.
[1]
(ii)
24.5 kW to 4 s .f.
[1]
(iii)
0.003823 mm to 1 s. f.
[1]
(iv)
644.9 pN to 2 s.f.
[1]
3d
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4 marks

Estimate the orders of magnitude with an appropriate SI unit and correct prefix for the quantities in Table 1.2

Table 1.2

Quantity

Order of magnitude

Mass of a car

 

Thickness of a sheet of paper

 

Density of air

(at room temperature and pressure)

 

Time between two heart beats

 

 

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1a
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6 marks

Define the following quantities and state their SI base units

(i)
velocity
[2]
(ii)
acceleration
[2]
(iii)
density
[2]
1b
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2 marks

The pressure P due to a liquid of density rho is related to the depth h by the expression   

      P space equals space rho g h

where g is the acceleration of free fall.

Use this expression to determine the derived units of pressure P.

1c
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3 marks

The speed v of a sound wave through a gas of pressure P and density rho is given by the equation

         v space equals space square root of fraction numerator straight gamma P over denominator rho end fraction end root

where straight gamma is a constant.

Show that the constant straight gamma has no unit.

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2a
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2 marks

Estimate the speed of an apple as it hits the ground after falling from a tree.

2b
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2 marks

Estimate the number of kilowatt-hours used by a lightbulb if switched on for a whole day.

2c
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4 marks

Estimate the density, in g cm−3, of the head of an adult person.

2d
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4 marks

The radius of the Earth is approximately 6.4 × 106 m.

Estimate the number of people it would take to circle the Earth holding hands.

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3a
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2 marks

Derive the SI base unit of force.

3b
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2 marks

As a spherical object of radius r moves through the air at speed v, it experiences a force F due to air resistance.

The resistive force F is given by 

      F space equals space k r v

Where k is a constant.

Derive the SI base unit of the constant k.

3c
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7 marks

The relationship can be used to model a spherical raindrop falling vertically in the air.

Fig 1.1 shows the forces acting on the raindrop as it accelerates downwards.

1-1-3c-m-1-1-raindrop-sphere-vector-forces-cie-ial-sq

The raindrop has a radius of 1.5 mm and falls at a velocity of 3.5 m s−1. The constant k has a magnitude of 0.0124 in air.

Other than the resistive force F described in (b), two other forces, X and Y, act on the raindrop drop as it falls through the air. 

 
(i)
State the names of forces X and Y.
[2]
  
(ii)
Calculate the magnitude of the resistive force F in µN.
[2]
 
(iii)
Force X has a value of 137 µN and force Y has a value of 0.18 µN.
 
Using Fig. 1.1, determine the magnitude and direction of the resultant force on the raindrop.
[3]
3d
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3 marks

On a windy day, the resultant force on the raindrop is 105 µN at an angle of θ to the vertical as shown in Fig. 1.2. 

1-1-3d-m-1-1-raindrop-sphere-vector-angle-cie-ial-sq

Use your answer to (c)iii to show that the angle θ between the resultant and the vertical is about 47°.

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4a
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2 marks
(i)
State the difference between a scalar quantity and a vector quantity.
[1]
(ii)
Underline all the vectors in the list below.
 
power           length           density           velocity           momentum
[1]
4b
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4 marks

Two gusts of wind exert forces of magnitude 5.5 N and 11.9 N on a wind turbine at a point O. Both forces act away from point O and the angle between them is 30°.

Fig. 1.1 shows two lines at an angle of 30° to one another.
 

1-1-4b-m-1-1-vector-force-triangle-cie-ial-sq

Fig. 1.1

 
On Fig. 1.1, draw a vector diagram to determine the magnitude of the resultant of the two forces.
4c
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5 marks

Fig 1.2 shows a turbine that is used to generate electrical power P from wind travelling with velocity v.

1-1-wind-turbine-catalogue-cie-sq-ial

The useful power output P of the turbine is given by

P space equals space C subscript P L squared rho v cubed

Where L is the length of each blade, ρ is the density of air, v is the wind velocity and CP is a constant.

Show that the constant CP has no units.

4d
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5 marks

A local council is looking into building wind turbines to supply power to 2500 households in a village. The average energy consumption of a household in the village is 3000 kWh a year.

Fig. 1.3. shows an image from a catalogue detailing the different sizes and power outputs of available wind turbines.

1-1-4d-m-1-1-vector-force-triangle-cie-ial-sq

They decide to build 8 of the same wind turbine to supply the entire village with electricity. 

(i)
Determine which of the wind turbines in Fig. 1.3. the council decided to build.
[3]
(ii)
The chosen turbine delivers the power specified at a CP value of 0.45. This value can only be achieved above certain wind velocities.
 
Estimate the average wind velocity needed to power the village for a year. The density of air is 1.3 kg m−3.
[2]

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5a
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4 marks

Fig. 1.1 shows a 2 tonne wrecking ball being used on a demolition site. 

1-1-5a-m-1-1-wrecking-ball-resolving-vectors-cie-ial-sq

The ball is suspended from a cable which makes an angle θ with the vertical. The ball is pulled into the position shown by a rope that is kept horizontal. The tension in the rope is 6400 N.

Write expressions for tension T using

 
(i)
the vertical component of the tension in the cable
[2]
(ii)
the horizontal component of the tension in the cable. 
[2]
5b
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4 marks

Determine

(i)
the angle θ the cable makes with the vertical
[2]
(ii)
the magnitude of the tension T in the cable
[2]
5c
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3 marks

On the same demolition site, there is a uniform beam supported by two light cables, AB and AC, which are attached to a single steel cable from a crane, as shown in Fig. 1.2.

The beam is stationary and in equilibrium.

q5c_vectors--scalars-in-physics_ib-sl-physics-sq

Fig. 1.2

Draw the vector triangle for this situation labelling the tension in both cables and the weight of the beam. 

5d
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2 marks

The tension in the cable AB is 9 N and the tension in the cable AC is 12 N.

Calculate the resultant force required in the beam BC to keep the system in equilibrium.

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1a
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8 marks

Convert the following measurements

 
(i)
42 km3 into mm3 
[2]
(ii)
25 light-years into nm
[3]
(iii)
0.05 kWh into PeV
[3]
1b
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3 marks

The frequency f of a stationary wave on a string is given by 

         f to the power of k space equals space fraction numerator T over denominator 4 m L squared end fraction

where L is the length of the string, T is the tension in the string, m is the mass per unit length of the string and k is a dimensionless constant.

By considering the homogeneity of the equation, determine the value of k.

1c
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4 marks

The current I through a semiconductor diode given by 

I space equals space I subscript 0 space e to the power of negative fraction numerator q V over denominator n T end fraction end exponent

where I subscript 0 is the initial current, q is the charge of an electron, V is the applied potential difference, T is the temperature and n is a constant.

(i)
By considering the homogeneity of the equation, determine the units of n.
[3]
(ii)
Use the datasheet to determine the name of this constant.
[1]
1d
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4 marks
Complete the following table by giving the SI base units. Then estimate the order of magnitude for each of the physical quantities.
    

Physical Quantity

SI Base Unit

Order of Magnitude

Acceleration of freefall Earth (g)

 m s−2

 

Stephan-Boltzmann constant (σ)

 

10−7

Speed of a β particle

 

 

Specific heat capacity of water (c)

 

 

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2a
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2 marks

Estimate the time it takes light to cross the nucleus of a hydrogen atom.

2b
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6 marks

A foil made from gold has a thickness of 0.132 µm. A gold atom has a radius of 146 pm.

(i)
Estimate the number of layers of atoms in the gold foil to the nearest hundred.
[2]

(ii)
The radius of a gold nucleus is about 20 000 times smaller than its atomic radius. The cross-sectional area of a nucleus is commonly measured using the unit barn, which is represented by the symbol b
 
Estimate the cross-sectional area of a gold nucleus in barns (b).
 
1 b = 100 fm2
[4]
2c
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3 marks

The atomic mass unit u is a common unit used in nuclear physics. 1u is equivalent to 931.5 MeV c–2

Show that 1u is approximately equal to the mass of a proton in kg.

2d
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3 marks

An acre is a unit of land measurement approximately equal to 4050 m2 which is roughly equivalent to the size of a football field.

An Astronomical Unit, or 1 AU, is defined as the average distance between the Earth and the Sun and is approximately equal to 150 million km.

Estimate the number of football fields that could fit lengthways between the Earth and the Sun.

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3a
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4 marks

Fig. 1.1 shows two taut, light ropes that keep a pole vertically upright by applying two tension forces, one of magnitude 200 N and one of magnitude T

sl-sq-1-3-hard-q3a

Fig. 1.1

By constructing a scale diagram, determine the weight of the pole W and the magnitude of T

3b
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3 marks

A canoeist can paddle at a speed of 3.8 m s–1 in still water. The canoeist encounters an opposing current, moving at a speed of 1.5 m s–1 at 30° to their original direction of travel, as shown in Fig. 1.2. 

sl-sq-1-3-hard-q3b

Fig. 1.2

Using Fig. 1.2 to construct a scale diagram, determine the magnitude of the canoeist's resultant velocity. 

3c
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4 marks

The boat shown in Fig. 1.3 is being towed at a constant velocity by a towing rope, which exerts a tension force FT = 2500 N.

There are two resistive forces indicated; the force of the water on the keel FK and the force of the water on the rudder, FR

sl-sq-1-3-hard-q3c

Fig. 1.3

By scale diagram or otherwise, determine the magnitude of FR

3d
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4 marks

Another boat wishes to cross a river. The river flows from west to east at a constant velocity of 35 cm s–1 and the boat leaves the south bank, due north, at 1.5 m s–1 as shown in Fig. 1.4.

sl-sq-1-3-hard-q3d

Fig. 1.4

Construct a scale diagram to show that the new direction of the boat is about 13° East of North.

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