Theory

CH10 - IDEAL GASES

(a) (i) State what is meant by the Avogadro constant.    [1] (ii) State the relationship between the Avogadro constant $N_A$, the molar gas...

2024 Winter

3

Theory

CH10 - IDEAL GASES

(a) State three of the basic assumptions of the kinetic theory of gases.   [3] (b) Explain how molecular movement causes the pressure exert...

2024 Winter

3

Theory

CH10 - IDEAL GASES

(a) (i) State what is meant by the Avogadro constant.   [1] (ii) State the relationship between the Avogadro constant $N_A$, the molar gas ...

2024 Winter

3

Theory

CH10 - IDEAL GASES

(a)  (i) State what is meant by an ideal gas.   [2] (ii) Use one of the basic assumptions of the kinetic theory to explain what can be...

2024 Summer

4

Theory

CH10 - IDEAL GASES

(a) With reference to thermal energy, state what is meant by two objects being in thermal equilibrium. (b) Two cylinders X and Y each contain a sampl...

2024 Summer

8

Theory

CH10 - IDEAL GASES

(a) State what is meant by the internal energy of a system.   [2] (b) With reference to molecular kinetic and potential energies, describe ...

2024 Summer

5

Theory

CH10 - IDEAL GASES

(a) (i) State what is meant by an ideal gas.   [2] (ii) Use one of the basic assumptions of the kinetic theory to explain what can be deduc...

2024 Summer

5

Theory

CH10 - IDEAL GASES

(a) Define specific heat capacity. (b) An ideal gas of mass 0.35 kg is heated at a constant pressure of $2.0 \times 10^5$ Pa so that its internal ene...

2023 Winter

4

Theory

CH10 - IDEAL GASES

(a) The product $pV$ for an ideal gas is given by $pV = \frac{1}{3}Nm\langle c^2 \rangle$ where $p$ is the pressure of the gas and $V$ is the volume...

2023 Winter

3

Theory

CH10 - IDEAL GASES

(a) (i) State what is meant by an ideal gas.   [2] (ii) State the temperature, in degrees Celsius, of absolute zero.   [1] (b) A...

2023 Summer

6

Theory

CH2 - MEASUREMENT TECHNIQUES

Measurements made for a sample of metal wire are shown in Fig. 1.1. Fig. 1.1 (a) State the appropriate instruments used to make each of these meas...

2011 Summer

2

Theory

Kinetic Energy

(a) Explain what is meant by work done. [1] (b) A car is travelling along a road that has a uniform downhill gradient, as shown in Fig. 2.1. ...

2011 Summer

3

Theory

CH5 - FORCES, DENSITY & PRESSURE

(a) Explain what is meant by centre of gravity. (b) Define moment of a force. (c) A student is being weighed. The student, of weight $W$, stands 0.3...

2011 Summer

3

Theory

CH9 - DEFORMATION OF SOLIDS

(a) Define, for a wire, (i) stress,    [1] (ii) strain.    [1] (b) A wire of length 1.70 m hangs vertically from a fixed point,...

2011 Summer

3

Theory

CH20 - D.C. CIRCUITS

(a) A variable resistor is used to control the current in a circuit, as shown in Fig. 5.1. The variable resistor is connected in series with a 12V po...

2011 Summer

1

Theory

CH5 - FORCES, DENSITY & PRESSURE

(a) State two assumptions of the simple kinetic model of a gas.   [2] (b) Use the kinetic model of gases and Newton's laws of motion to exp...

2011 Summer

3

Theory

CH15 - SUPERPOSITION

(a) Explain the term interference.   [1] (b) A ripple tank is used to demonstrate interference between water waves. Describe (i) the appa...

2011 Summer

2

Theory

CH1 - PHYSICAL QUANTITIES & UNITS

(a) Distinguish between scalar quantities and vector quantities. [2] (b) In the following list, underline all the scalar quantities. accelerati...

2011 Summer

4

Theory

CH1 - PHYSICAL QUANTITIES & UNITS

(a) A sphere of radius $R$ is moving through a fluid with constant speed $v$. There is a frictional force $F$ acting on the sphere, which is given by ...

2011 Summer

2

Theory

Potential Energy

(a) (i) Explain what is meant by work done. [1] (ii) Define power. [1] (b) Fig. 3.1 shows part of a fairground ride with a carriage on rai...

2011 Summer

2