A scientist cooled the air inside a container: 1 - AQA - GCSE Physics Combined Science - Question 2 - 2019 - Paper 1

To find the mass of ice produced, we can use the relationship between internal energy and latent heat:

$ext{Internal Energy Change} = ext{Mass} imes ext{Latent Heat}$

Given:

• Change in internal energy, (0.70, \text{kJ} = 700, \text{J})
• Latent heat of fusion of water, (L = 330, \text{kJ/kg} = 330000, \text{J/kg})

Using the formula:

$700 = m \times 330000$

Solving for mass (m):

$m = \frac{700}{330000} = 0.00212\, \text{kg}$

Therefore, the mass of ice produced is approximately (0.0021, \text{kg} ).

At -190 °C:

• Oxygen: Solid ✓
• Nitrogen: Solid ✓
• Carbon dioxide: Solid ✓

All three substances are in a solid state at -190 °C.

As the temperature decreases from 20 °C to -190 °C, the arrangement and movement of argon particles undergoes significant changes:

1. Cooling: As the argon cools, the particles lose kinetic energy. Consequently, they move slower.
2. Transition to Liquid: When the temperature falls to around the boiling point, the argon transitions from a gas to a liquid. The particles move closer together but maintain some random motion.
3. Transition to Solid: Continuing to cool to -190 °C, the argon freezes into a solid. The particles are closely packed in a regular arrangement, minimizing their movement, and vibrate around fixed positions.

These changes illustrate how thermal energy affects particle states and arrangements.