Presentation is loading. Please wait.

Presentation is loading. Please wait.

1 15 Temperature, Heat, Expansion Temperature & Heat Internal Energy & Specific Heat Homework: RQ: 1, 2, 7, 8, 9, 10, 15, 21, 24.

Published byHarry Lewis Modified over 8 years ago

Similar presentations

Presentation on theme: "1 15 Temperature, Heat, Expansion Temperature & Heat Internal Energy & Specific Heat Homework: RQ: 1, 2, 7, 8, 9, 10, 15, 21, 24."— Presentation transcript:

1 1 15 Temperature, Heat, Expansion Temperature & Heat Internal Energy & Specific Heat Homework: RQ: 1, 2, 7, 8, 9, 10, 15, 21, 24.

2 2 Temperature T ~ average kinetic energy T increase = increase in speed of molecules, e.g. hammered metal increases in temperature. liquids, gases, and solids usually expand when T increased

3 3 Water Expansion Water expands from 4°C to 100°C (as does most materials) However, water contracts when warmed from 0°C to 4°C. (transient ice melting)

4 4

5 5 What happens to the hole size?

6 6 Heat ‘heat’ is a transfer of thermal energy due to temperature difference Examples: ice in warm liquid: heat flows from liquid to the ice warm liquid is put in a refrigerator: heat flows from drink to air and refrigerator //

7 7 Internal Energy the total of all molecular energies, kinetic plus potential, that are internal to a substance. It is ~ (mass) x (temperature). Heat ≠ Internal Energy, however, for a thermal-only process, Heat =  (Internal Energy)

8 8 mixing: ‘hot’ and ‘cold’ = ‘warm’ for liquids & solids: heat ~ (mass)x(temperature change) when ‘hot’ and ‘cold’ are mixed, heat lost by ‘hot’ = heat gained by ‘cold’ Ex. 1kg water at 0°C is mixed with 1kg water at 20°C: (1kg)(T - 0) = (1kg)(20 – T) T = 20 – T 2T = 20 T = 10°C

9 9 more mixing Ex. 2kg water at 40°C is mixed with 1kg water at 20°C: (1kg)(T - 20) = (2kg)(40 – T) T – 20 = 80 – 2T 3T = 100 T = 100/3 = 33.3°C

10 10 Calories and Joules 1 Calorie = 1000 calories 1 calorie = 4.18 joule Calorie is the common food unit. Btu’s are also used, e.g. gas range

11 11 Specific Heat the specific heat of a substance is the quantity of heat required to raise the temperature of 1kg of a substance 1°C. //

12 12 c = Q/m  T [J/(kg·K)] heat needed per kg to raise temperature by 1 degree C or K. slope warming water =  T/Q = 1/(mc) specific heat

13 13 example c’s in J/(kg-C): aluminum 920 copper 390 ice 2100 water 4186

14 14 Example: A student wants to check “c” for an unknown substance. She adds 230J of heat to 0.50kg of the substance. The temperature rises 4.0K.

15 15 summary T ~ avg. KE most substances undergo thermal expansion (note the water exception) heat is an exchange of thermal energy specific heat = heat needed to raise temp. of 1kg by 1C (substance dependent)

16 16 Thermodynamics flow and effect of thermal energy on matter (solids, liquids, gases) temperature and internal energy heat engines

Download ppt "1 15 Temperature, Heat, Expansion Temperature & Heat Internal Energy & Specific Heat Homework: RQ: 1, 2, 7, 8, 9, 10, 15, 21, 24."

Similar presentations

Chapter 6: Thermal Energy

Chapter 6: Thermal Energy
Thermal Physics.

Thermal Physics.
Thermal Energy. Temperature  Measures the “hotness” (higher temperatures) or “coldness” (lower temperatures)  Gives very little information on the energy.

Thermal Energy. Temperature  Measures the “hotness” (higher temperatures) or “coldness” (lower temperatures)  Gives very little information on the energy.
Ch. 5 - Energy II. Thermal Energy (p.134-137, 141-144)  Temperature  Thermal Energy  Heat Transfer.

Ch. 5 - Energy II. Thermal Energy (p , )  Temperature  Thermal Energy  Heat Transfer.
Thermal Energy.

Thermal Energy.
Temperature, Heat & Expansion. Temperature - The quantity that tells how hot or cold something is compared with a standard. Temperature - The quantity.

Temperature, Heat & Expansion. Temperature - The quantity that tells how hot or cold something is compared with a standard. Temperature - The quantity.
Thermal Force Unit 1.4.

Thermal Force Unit 1.4.
1 Measuring Heat Energy. 2 Heat Energy that flows from something warm to something cooler A hotter substance gives KE to a cooler one When heat is transferred.

1 Measuring Heat Energy. 2 Heat Energy that flows from something warm to something cooler A hotter substance gives KE to a cooler one When heat is transferred.
 Matter is in constant random motion, and hot particles move faster than cold ones because hot particles have more kinetic energy  Temperature is the.

 Matter is in constant random motion, and hot particles move faster than cold ones because hot particles have more kinetic energy  Temperature is the.
TEMPERATURE INTERNAL ENERGY PER UNIT MOLECULE

TEMPERATURE INTERNAL ENERGY PER UNIT MOLECULE
Chapter 12.1. 1. Everything is made of particles 2. These particles move 3. Hot things move faster than cold things.

Chapter Everything is made of particles 2. These particles move 3. Hot things move faster than cold things.
Dr. Joseph W. Howard ©Summer 2006 Kinetic & Potential Energy on the Nanoscale.

Dr. Joseph W. Howard ©Summer 2006 Kinetic & Potential Energy on the Nanoscale.
Lab 12: Heat, Energy, and Temperature This is it!! Today we are going to measure the specific heat of an unknown metal. Important terms: Temperature, T:

Lab 12: Heat, Energy, and Temperature This is it!! Today we are going to measure the specific heat of an unknown metal. Important terms: Temperature, T:
Temperature, Heat and Expansion. All matter – solid, liquid and gas – is composed of continually jiggling atoms or molecules. These atoms and molecules.

Temperature, Heat and Expansion. All matter – solid, liquid and gas – is composed of continually jiggling atoms or molecules. These atoms and molecules.
What is heat? Heat is spontaneous transfer of energy from a hotter body to a colder one, other than by work or transfer of matter, whenever there is a.

What is heat? Heat is spontaneous transfer of energy from a hotter body to a colder one, other than by work or transfer of matter, whenever there is a.
Thermodynamics Chapter 12.

Thermodynamics Chapter 12.
Lecture 3 Heat Chapter opener. When it is cold, warm clothes act as insulators to reduce heat loss from the body to the environment by conduction and convection.

Lecture 3 Heat Chapter opener. When it is cold, warm clothes act as insulators to reduce heat loss from the body to the environment by conduction and convection.
Chapter 12 Temperature and Heat Temperature – Average kinetic energy of molecules. Heat – Transfer of energy due to temperature difference; flows from.

Chapter 12 Temperature and Heat Temperature – Average kinetic energy of molecules. Heat – Transfer of energy due to temperature difference; flows from.
Thermodynamics. Heat Vs Temperature 4 Temperature is NOT heat! 4 Heat is energy (kinetic energy of atoms and molecules) 4 Temperature is the level of.

Thermodynamics. Heat Vs Temperature 4 Temperature is NOT heat! 4 Heat is energy (kinetic energy of atoms and molecules) 4 Temperature is the level of.
A 50.0 g ball is dropped from an altitude of 2.0 km. Calculate: U i, K max, & W done through the fall.

A 50.0 g ball is dropped from an altitude of 2.0 km. Calculate: U i, K max, & W done through the fall.

Similar presentations

Ads by Google