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Heat Capacity. The work - energy principle applies to all objects. If an object speeds up it gains kinetic energy. If an object slows down it loses kinetic energy. Work In. Work done on a system. v 1. v 2. Temperature change is due to heat (Q).
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The work - energy principle applies to all objects. If an object speeds up it gains kinetic energy. If an object slows down it loses kinetic energy. Work In Work done on a system v1 v2
Temperature change is due to heat (Q). If an object’s temperature increases it gains heat. If an object’s temperature decreases it loses heat. Heat In Heat into a system
Heat Capacity • The ratio of the change in heat to the change in temperature is the heat capacity (C). • Depends on material • Depends on the mass • Measured in J/K
The ratio of the change in heat to the change in temperature is the heat capacity (C). Depends on material independent of the mass Measured in J/kg-K MaterialSpecific heat Mercury 140 J/kg-K Copper 390 J/kg-K Steel 500 J/kg-K Granite 840 J/kg-K Aluminum 900 J/kg-K Wood 1400 J/kg-K Ice 2100 J/kg-K Water 4200 J/kg-K Specific Heat
You are last to use the shower today and the temperature in the water heater has dropped to 18 C from the normal temperature of 50 C. The heater holds 150 kg and has a 50 kW heating coil. How long should you wait before starting your shower? Find the heat required. DQ = mcDT = (150 kg) (4200 J/kg-K) ( 32 C) DQ = 2.1 x 107 J Find the time from the power, and set the heat to the work. P = DW/Dt t = DQ / P (2.1 x 107 J) / (5 x 104 W) t = 4000 s = 1.1 hr Take a Shower
Equilibrium Temperature • Two systems in thermal contact will adjust to reach the same temperature - thermal equilibrium • If they are thermally insulated, all the heat goes from the hot system to the cold system. 1 2
A 1.5 kg aluminum pan is heated to 180 C then placed into a sink with 8 kg water at 20 C. If no water boils, what is the equilibrium temperature? Setup the equation for an unknown equilibrium temperature T. Solve for T. T = 26 C Doing Dishes next