1.1.7 Thermal Energy

Heat Transfer

infoNote

Heat transfer occurs when there is a difference in temperature between two areas. The energy naturally flows from the area of higher temperature to the area of lower temperature.

There are three main methods of heat transfer:

Conduction
Convection
Radiation

Conduction

infoNote

Conduction is the process by which thermal energy (heat) travels through solids. This happens because the particles in a solid are tightly packed together in fixed positions.

infoNote

How Conduction Works

In a solid, particles are closely packed and vibrate in their fixed positions.
When the solid is heated, thermal energy is transferred to the particles, increasing their kinetic energy.
As the particles gain kinetic energy, they vibrate more vigorously.
These vibrations are passed from one particle to the next, allowing the heat to spread through the solid.

lightbulbExample

Example: Holding Ice in Your Hand

When you hold ice, thermal energy from your hand moves into the ice.
The vibrations (energy) are passed from the warmer particles in your hand to the colder particles in the ice.
As your skin loses thermal energy to the ice, your hand feels cold.

Conductors and Metals

infoNote

Metals are excellent conductors of heat because, in addition to particle vibrations, they have "free" electrons that move through the solid, carrying energy with them. This makes heat transfer through metals faster than through non-metals.

Convection

infoNote

Convection is the transfer of heat through fluids (liquids and gases) by the movement of the fluid itself.

infoNote

How Convection Works 5. When a fluid is heated, the particles gain energy and move faster, causing the fluid to expand and become less dense. 6. The warmer, less dense fluid rises, while the cooler, denser fluid sinks. 7. This creates a convection current that transfers heat throughout the fluid.

lightbulbExample

Example: Boiling Water

When water is heated in a pot, the water at the bottom warms up, becomes less dense, and rises.
Cooler water then sinks to replace it, creating a circulation pattern that heats the entire pot of water.

Radiation

infoNote

Radiation is the transfer of heat through electromagnetic waves, such as infrared radiation. Unlike conduction and convection, radiation does not require a medium and can occur in a vacuum.

infoNote

How Radiation Works

All objects emit thermal radiation based on their temperature.
The hotter an object, the more radiation it emits.
This energy can travel through space and be absorbed by other objects, increasing their temperature.

lightbulbExample

Example: The Sun

The Sun's energy travels through the vacuum of space to reach Earth.
This energy warms the planet, even though there is no medium (like air or water) in space to carry the heat.

Insulation

infoNote

Insulation works by reducing the rate of heat transfer. Air is a poor conductor of heat because its particles are far apart, making it difficult for heat to transfer. This property of air can be used to prevent heat loss from objects.

lightbulbExample

Examples of Insulation

Double Glazing: Traps air between two panes of glass, reducing heat transfer.
Clothing: Traps air between layers, keeping warmth close to the body.
Home Insulation: Insulating materials in walls and roofs trap air, reducing heat loss and lowering heating costs.

Thermal Energy Simplified Revision Notes for GCSE AQA Physics Combined Science

1.1.7 Thermal Energy

Heat Transfer

Conduction

Conductors and Metals

Convection

Radiation

Insulation

500K+ Students Use These Powerful Tools to Master Thermal Energy For their GCSE Exams.

Other Revision Notes related to Thermal Energy you should explore