Ch.12 Thermal Energy Thermal (Heat) Engine 14/11/2018.

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Presentation transcript:

Ch.12 Thermal Energy Thermal (Heat) Engine 14/11/2018

Ch.12 Thermal Energy Read Ch. 12 Sec. 12.1 p.241 – 248 Make own notes of the sections: kinetic-molecular theory of heat energy, Temperature vs Thermal energy,Celsius vs Kelvin Temperature scale Do Practice Problems: #1- 4 p. 247 14/11/2018

Ch.12 Thermal Energy Kelvin Scale Conversion: 14/11/2018

Ch.12 Thermal Energy Kinetic Molecular Theory: Temperature vs. Thermal (Heat) energy: Thermal Energy Transfer: (Conduction, Convection, Radiation) 14/11/2018

Ch.12 Thermal Energy Conduction: Aluminum Copper Iron glass Time: Prediction 14/11/2018

Ch.12 Thermal Energy Specific Heat Capacity (Cp) Different materials are able to absorb (and release) heat energy at different rates. Most metals are good conductors of heat and are able to heat up quickly and therefore are also able to lose heat just as quickly. (Metals make great conductors, but bad insulators.) 14/11/2018

Ch.12 Thermal Energy Specific heat capacity = Some materials require more energy to heat up and take longer to cool. In general the longer it takes for a material to heat up or cool down the larger the specific heat capacity for that material. The amount of heat energy required to heat up 1kg of that material by 1oC Specific heat capacity = 14/11/2018

Ch.12 Thermal Energy Look on p. 248 of your text book Which material on your list has the largest Cp? Ans: Water = 4180 J/kgK Which material on your list has the smallest Cp? Ans: lead = 130 J/kgK 14/11/2018

Ch.12 Thermal Energy Which material would require the most energy to heat up? Ans: Water = 4180 J/kg*K Which material would retain the most energy upon heating? Ans: Water = 4180 J/kg*K Which material would be the worst insulator? Ans: Lead = 130 J/kg*K 14/11/2018

Ch.12 Thermal Energy Q = Eh = m x Cp x ΔT Where: m = mass in kg This is the heat energy equation: Q = Eh = m x Cp x ΔT Where: m = mass in kg Cp = specific heat capacity in J/kg*oC or (J/kg*K) ΔT = change in temperature (K or oC) (Difference between starting and final temperature.) 14/11/2018

Ch.12 Thermal Energy Example 1: How much heat energy is require to increase the temperature of 55 kg of iron from 25 oC to 320 oC? Solution: Eh = m x Cp x ΔT = 55 x 450 x 295 = 7300000 J 14/11/2018

Ch.12 Thermal Energy Example 2: ΔT = Eh/m*Cp A 6.7 kg piece of aluminum is initially at 78 oC. Water is used to cool the aluminum and removes 45000 J of heat energy. What is the final temperature of the aluminum? Solution: ΔT = Eh/m*Cp = 45000 / (6.7 x 903) = 7.4 oC Therefore: Tf = Ti – 7.4 Tf = 78 – 7.4 = 70.6 oC 14/11/2018

Ch.12 Thermal Energy Example 3: A 24 kg piece of copper is initially at 65 oC. A total mass of 55 kg of water initially at 10 oC is used to cool the copper. What is the final temperature of the copper and water? (Solution will be shown on overhead.) Thermal or Heat Energy Go on to the worksheet. Get ready for Lab Test next class. 14/11/2018