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Adding Heat Raises energy.

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Presentation on theme: "Adding Heat Raises energy."— Presentation transcript:

1 Adding Heat Raises energy

2 Board Work The 2004 Tour de France Alpe d’Huez time trial stage was a climb with a finish 1200 m higher than the start. The winner, Lance Armstrong, had a mass (with gear) of 84 kg. Assuming friction is negligible, how much work did he do on the climb? Muscle is about 20% efficient. How much energy did he expend? How much became thermal energy? (84 kg)\(9.8 N/kg)(1200 m) = 987,840 J, about 1 MJ. 1 MJ = 0.20 * 5 MJ MJ.

3 Raising Temperature by adding heat § 12.7

4 Specific Heat (Capacity)
Heat needed to change the temperature of a unit amount of a substance. c = q mDT q = heat input m = mass of sample Dt = temperature change Units: J/(kg K) or cal/(kg K) or J/(mol K)… Intensive

5 Board Work Show that DT = q/(mc)

6 Board Work Lance Armstrong’s mass was 75 kg. Assume c = 4184 J/(kg K). If he were a closed system, what would have been his change in temperature?

7 Latent Heats of phase changes § 12.8

8 Solid Water (Ice) Source: M. Chaplin, Water Structure and Behavior.

9 Solids Strong connections between atoms
rigidity and elasticity Atoms vibrate about fixed positions

10 Solid < Liquid < Gas
Phase Changes Potential energies: Solid < Liquid < Gas During a phase change, potential energy, not kinetic energy (temperature) changes. Heating or cooling a changing phase does not change its temperature! Demo solid ice + hot water. Final temperature is NOT midway between initial temperatures; it is lower. Some energy was used to raise potential energy of the system.

11 Evaporation of a Liquid
More energetic jostling = higher temperature An especially fast molecule at the surface may detach.

12 Evaporation Evaporating molecules carry away energy KE PE
Remaining liquid cools (KE decreases) Adding heat is how we convert liquid water to gas (steam, vapor)!

13 Melting of a Solid Solid structure maximizes favorable interactions
Higher energy allows more movement Molecules slow as potential energy increases

14 Heating Curve for Water
steam Water boils Liquid water Ice melts ice

15 Latent heat Potential energy of phase change (energy required to change the phase of 1 kg of substance) Water’s latent heat of fusion (melting): 335,000 J/kg Water’s latent heat of vaporization: 2,255,000 J/kg

16 Whiteboard Work During the Alpe d’Huez climb, how much sweat would Lance have needed to evaporate to keep his body temperature constant? The heat q needed to vaporize a mass m of water is q = m (2.255  106 J/kg). Solve for mass m and substitute in the values.

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