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Ch. 16 Sec. 1 Thermal Energy and Matter. Work and Heat In a drill, the drill does work on the screw –Energy is lost to the screw (friction) Heat is the.

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Presentation on theme: "Ch. 16 Sec. 1 Thermal Energy and Matter. Work and Heat In a drill, the drill does work on the screw –Energy is lost to the screw (friction) Heat is the."— Presentation transcript:

1 Ch. 16 Sec. 1 Thermal Energy and Matter

2 Work and Heat In a drill, the drill does work on the screw –Energy is lost to the screw (friction) Heat is the transfer of thermal energy Heat flows spontaneously from hot to cold objects

3 Temperature “How hot or cold something is” Meas. of avg. K.E. of the particles in the object. Scales ~ Celsius (°C) 0° - 100° ~ Fahrenheit (°F) 32° - 212° ~ Kelvin (K) 0 K – Absolute zero

4 Thermal Energy Depends on mass, temperature, and phase Grand total energy Which beaker has more thermal energy? Why?

5 Thermal Energy Contraction –Slower particles collide less often –Less force exerted –Gases pressure decreases

6 Thermal Energy Expansion –Increase in the volume of a material –Gases particles move further apart

7 Ability of a sub. to absorb heat energy. The amount of heat needed to raise the temp. of 1 g of the material 1 °C. Units: J/g-°C. Specific Heat Specific Heat of Materials SubstanceSpecific Heat (J/g-°C) Water4.18 Wood1.76 Aluminum.90 Glass.66 Iron.45 Copper.38 Silver.24

8 The thermal energy changes when heat flows into or out of objects. Q = mc∆t –Q = thermal energy (J) –M = mass (g) –C = specific heat (J/g-°C) –∆t = change in temp. (°C) Changes in Thermal Energy

9 Calculate Thermal Energy How much thermal energy is needed to raise the temperature of 400g of water from 21 °C to 100 °C? Q = mc∆t Q = 400g · 4.18 J/g-C · 79 ° C Q = 132,088 J

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