THERMAL ENERGY.

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Presentation transcript:

THERMAL ENERGY

Thermal energy vs. Temperature Thermal Energy (Heat): total kinetic and stored energy within an object. Temperature: The average kinetic energy of the particles within an object.

Example: Which contains more heat : a pot of boiling water or an iceberg?

Atoms and molecules are in constant motion When a material is heated the molecules move faster and as a result it will expand.

If an object is heated it will either: 1) Increase temperature 2) Change state

Heat will always flow from high to low concentration 1) Conduction 2) Convection 3) Radiation Until thermal equilibrium is achieved

The amount of heat transferred is found with: ∆EH = mc∆T ∆EH = Change in thermal energy (Joules) m = mass of object (kg) c = specific heat capacity (J/kgoC) ∆T = change in temperature (oC)

Specific Heat Capacity Some examples of SHC Specific Heat Capacity Water 4180 Carbon 720 Iron 460 Copper 390 Lead 130

Example: Mr. Trask makes a cup of coffee by boiling 250 g of water that is initially at 15o C. How much heat is needed?

Example: A 35 kg child goes down a 3. 2 m high slide Example: A 35 kg child goes down a 3.2 m high slide. The child is initially at rest and moving at 1.8 m/s at the bottom of the slide. If the slide is made of 12 kg of iron and all heat is transferred into the slide, by how much does the temperature of the slide increase?