yr 13 - Revision of thermal physics

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Physics

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10th - 12th Grade

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Hard

Arunthathi Sankaran

Used 3+ times

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6 Slides • 5 Questions

yr 13 - Revision of thermal physics

Internal energy

The sum of the random distributions of kinetic and potential energies of all the molecules in the body.

Factors affecting internal energy

Temperature - If the temperature of a system rises, the molecules travel more rapidly.
Pressure- If the pressure changes - a change in potential energy and a change in internal energy
State - Any change in state involves a change in the potential energy and a change in internal energy

Gas laws

Boyle’s Law - p1V1 = p2V2 provided the temperature remains constant
Pressure Law - p1/ T1 = p2/T2 provided the volume of a gas is kept constant.
Charles law - V1/ T1 = V2/T2 provided the pressure of a gas is kept constant.

Ideal gas equation

pV=NkT
N - number of molecules
k - Boltzmann constant

Multiple Choice

When energy is supplied to a substance, changes in the average molecular kinetic energy (E_k) and the average molecular potential energy (E_p ) can occur. When energy is supplied to an ideal gas

both E_kand E_pmay increase

E_kmay increase

E_pmay increase

E_kincreases but E_pdecreases

Multiple Choice

A sealed gas jar contains a mixture of different gases. At a given temperature, the mean kinetic energy of the molecules of each gas

depends upon how much of each gas is present.

is greater for the gas with less massive molecules.

is greater for the gas with more massive molecules.

is the same for each gas in the mixture.

Multiple Choice

An inflated balloon is considered to be a sphere having a volume of 8.2 × 10^–3 m³ in at a room temperature of 22 °C. Calculate the number of air molecules if the pressure of air in balloon = 1.1 × 10⁵Pa

2.7 x 10²⁵

2.2 × 10²³

3.036 x 10²

2.2 x 10²⁴

Multiple Choice

Air is a mixture of mostly nitrogen and oxygen molecules. The mass of an oxygen molecule is slightly greater than the mass of a nitrogen molecule. On average, in a sample of air at a given temperature

the nitrogen and oxygen molecules have the same speed

the nitrogen molecules are travelling more slowly than the oxygen molecules

the oxygen molecules are travelling more slowly than the nitrogen molecules.

the molecules have relative speeds that depend upon the amount of each gas present.

SPECIFI HEAT CAPACITY

Q = mCΔT
C - Specific heat capacity

Multiple Choice

The heating element of an electric shower has a power of 6.0 kW. Water enters the shower at a temperature of 7.5 °C. Calculate the water flow rate required to give an output temperature of 37.5 °C. specific heat capacity of water = 4200 J kg^–1 K^–1

0.038 kgs^-1

0.1904 kgs^-1

0.0400

0.0476 kgs^-1

yr 13 - Revision of thermal physics

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