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Chapter-10 Temperature and Heat

Chapter-10 Temperature and Heat. 1 Temperature and its Measurement 2 Heat and Specific Heat Capacity 5 The Flow of Heat Everyday Phenomenon : Solar Collectors and the Greenhouse Effect. Thermometer. Thermometric Property. Mercury thermometer. Length of mercury column.

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Chapter-10 Temperature and Heat

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  1. Chapter-10 Temperature and Heat 1 Temperature and its Measurement 2 Heat and Specific Heat Capacity 5 The Flow of Heat Everyday Phenomenon:Solar Collectors and the Greenhouse Effect

  2. Thermometer Thermometric Property Mercury thermometer Length of mercury column Constant-volume gas thermometer Pressure of the gas Thermocouple Voltage Ear thermometer Infrared radiation Body Temperature

  3. Thermometer Calibration Standard Temperatures

  4. Fahrenheit scale Celsius scale Boiling point of water 212 100 Unknown temperature Tf Tc Freezing point of water 32 0 Temperature Conversion

  5. Absolute Zero Temperature

  6. Absolute Zero Temperature

  7. Temp. Conversion Problems E1 & E4 E1: An object has a temperature of 45°C. What is its temperature in °F? E4: The temperature on a warm summer day is 95 degrees F. What is this temperature a. In degrees Celsius? b. In Kelvin?

  8. Heat Heat is energy that flows from a higher-temperature object to a lower-temperature object because of the difference in temperatures.

  9. Units for Heat SI unit for heat is the joule, J. Calorie is another unit for heat. It comes with a lower case and an upper case. Nutritionists use the word “Calorie,” with a capital C, to specify the energy content of foods. For example, a regular 12-oz can of soda has about 140 Calories. The cgs unit of heat is the calorie, with a lower case. One calorie (1 cal) is defined as the amount of heat needed to raise the temperature of one gram of water by one Celsius degree. 1 food Calorie = 1000 calories = 1 kcal 1 calorie = 4.186 J.

  10. Specific Heat Capacity Specific heat capacity of a material is the quantity of heat needed to change a unit mass of the material by a unit change in temperature. It is a property of the material.

  11. Heat Q The heatQ that must be supplied or removed to change the temperature of a substance of mass m by an amount DT is, where c is the specific heat capacity of the substance. Unit for Specific Heat Capacity: SI: J/(kg · C°) cgs: cal/(g. C°) E6: How much heat is required to raise the temperature of 70 g of water from 20°C to 80°C?

  12. Calorimetry • SP4: A 150-g of a certain metal, initially at 120°C, is dropped into an insulated beaker containing 100 g of water at 20°C. The final temperature of the system is 35°C. • Ignore the heat capacity of the beaker. • How much heat has been transferred to the water from the metal? • What is the specific heat capacity of the metal?

  13. Phase Changes

  14. Latent Heat Latent heat changes the phase of water without changing its temperature. Latent heat of fusion of water = Lf = 80 cal/g. Latent heat of vaporization of water = Lv = 540 cal/g. E8: How much heat must be added to 60-g of ice at 0°C to melt completely?

  15. The Flow of Heat Heat can flow via conduction, convection, and radiation.

  16. Conduction When a metal block and a wooden block, both at room temperature, are picked up, the metal block feels cooler, due to conduction of heat. Conduction is the process whereby heat is transferred directly through a material.

  17. Convection Convection is the process in which heat is carried from place to place by the bulk movement of a fluid.

  18. Thermos Bottle Radiation Radiation is the process in which energy is transferred by means of electromagnetic waves. Heat transfer by radiation can take place through vacuum. This is because electromagnetic waves are involved in radiation and they can propagate through empty space. Q30: Which heat transfer process is responsible when heat flows through a glass windowpane?

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