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Temperature, Heat and Internal Energy Temperature The degree of hotness.

Published byJason Phillips Modified over 8 years ago

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Presentation on theme: "Temperature, Heat and Internal Energy Temperature The degree of hotness."— Presentation transcript:

1 Temperature, Heat and Internal Energy Temperature The degree of hotness

2 Temperature, Heat and Internal Energy Temperature Scales (1) Ice point 0 o C (melting ice) (2) Steam point 100 o C (boiling water) Celsius Scale

3 Temperature, Heat and Internal Energy Kelvin Scale Ice pt : 273 K Steam pt : 373 K 1K = 1 o C T(in K) = T (in o C) + 273 Absolute zero -273 o C or 0 K

4 Temperature, Heat and Internal Energy Particle motion and Temperature Examine the relationship HERE Temperature Particles move faster Average K.E. increases

5 Temperature, Heat and Internal Energy Thermometer Instrument to measure temperature Common type of thermometer: Liquid-in-glass thermometer (1) mercury-in-glass (2) alcohol-in-glass

6 Temperature, Heat and Internal Energy Clinical Thermometer Thermal Expansion in liquid Around 37 o C Narrow bend : avoid running back

7 Temperature, Heat and Internal Energy Rotary Thermometer Thermal Expansion in solid About –40 to 60 o C (small range)

8 Temperature, Heat and Internal Energy Thermocouple Thermometer Voltage / current -200 o C to 1700 o C (very large range) Industry (ovens / furnaces)

9 Temperature, Heat and Internal Energy Resistance Thermometer Resistance, Current -200 o C to 1200 o C Industry

10 Temperature, Heat and Internal Energy Thermistor Thermometer Resistance, Current Up to hundreds Home use Not very accurate

11 Temperature, Heat and Internal Energy Calibration of a Thermometer Click HERE to see the calibration of a thermocouple thermometer

12 Temperature, Heat and Internal Energy Internal energy K.E. + P.E. Force between particles Distance  P.E. Solid < liquid < gas Motion of particles T increases  K.E. increases T o C

13 Temperature, Heat and Internal Energy Heat T A > T B Heating A B

14 Temperature, Heat and Internal Energy REMARKS ON HEATING 1. Heating ends when T A = T B 2. Energy Transfer: (a) Doing work - force (b) Heating – temp. diff. 3. Power of heating? * P = E / t * in W, kW * Joulemeter / kWh meter and stop watch

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