13 2 Transferring Thermal Energy I Transfer of

  • Slides: 14
Download presentation
13. 2 Transferring Thermal Energy

13. 2 Transferring Thermal Energy

I. Transfer of Energy A. Conduction-transfer of energy by direct contact.

I. Transfer of Energy A. Conduction-transfer of energy by direct contact.

1. Faster moving particles of one substance come into contact with slower moving molecules

1. Faster moving particles of one substance come into contact with slower moving molecules of another substance.

2. Conduction can take place in solids, liquids, & gases. 3. It is more

2. Conduction can take place in solids, liquids, & gases. 3. It is more likely to take place in solids 4. Metals are especially good conductors.

B. Convection-transfer of energy in a fluid by the movement of the heated particles.

B. Convection-transfer of energy in a fluid by the movement of the heated particles. 1. Any material that can flow is considered a fluid 2. Heated particles collide with each other and transfer their energy. 3. As particles move faster, they tend to be farther apart.

Offshore convection currents Convection currents form by fluids heating up, rising, cooling off, falling.

Offshore convection currents Convection currents form by fluids heating up, rising, cooling off, falling.

C. Radiation-the transfer of energy by electromagnetic waves.

C. Radiation-the transfer of energy by electromagnetic waves.

D. Insulators- materials that slows heat flow. 1. Metals are typically poor insulators. 2.

D. Insulators- materials that slows heat flow. 1. Metals are typically poor insulators. 2. Gases are very good insulators. 3. Some types of insulators use pockets of air to help keep heat from flowing.

II. Specific Heat A. Specific Heat-the amount of heat that is needed to raise

II. Specific Heat A. Specific Heat-the amount of heat that is needed to raise the temp. of 1 kg of some material by 1°C (or 1 K). 1. Specific heat is measured in J/kg·K OR J/g· 0 C Table 1 pg. 432 2. Water is a good coolant because it has a high specific heat.

Specific Heat Problem 1 How much energy must be transferred as heat to the

Specific Heat Problem 1 How much energy must be transferred as heat to the 420 kg of water in a bathtub in order to raise the water’s temperature from 250 C to 370 C? Symbol Meaning Unit Q Energy Joules (J) Dt change in temperature 0 C m mass Grams(g) OR kilograms(kg) c specific heat j/kg. K OR J/g. 0 C

Specific Heat Problem 2 Identify an unknown substance with a mass of 0. 455

Specific Heat Problem 2 Identify an unknown substance with a mass of 0. 455 kg that absorbs 6. 33 x 103 J, in which a temperature change of 15. 50 C is observed? Symbol Meaning Unit Q Energy Joules (J) Dt change in temperature 0 C m mass Grams(g) OR kilograms(kg) c specific heat j/kg. K OR J/g. 0 C

Practice Pg. 434 Questions 1 – 6

Practice Pg. 434 Questions 1 – 6