Temperature and Heat Heat – the energy transferred between objects because of a temperature difference.

Temperature and Heat

Heat – the energy transferred between objects because of a temperature difference.


Thermal contact – two objects are in thermal contact if heat can flow between them.


Thermal equilibrium – if two objects are in thermal contact, but no heat flows between them, they are said to be in thermal equilibrium. (They must be at the same temperature).


Thermodynamics – the study of physical processes involving the transfer of heat.


Temperature – the quantity that determines whether two objects are in thermal equilibrium. The temperature of a system depends on the average kinetic energy of the particles making up the system.


Celsius temperature scale-

Freezing point of H2O = 0 oC

Boiling point of H2O = 100 oC


Celsius temperature scale-Notation- a temperature of five degrees celsius is written 5 oC


Celsius temperature scale-Notation- a temperature change of five degrees celsius is written 5 Co


Celsius temperature scale-

There are 100 divisions between the zero and 100 point


Fahrenheit temperature scale-

Freezing point of H2O = 32 oF

Boiling point of H2O = 212 oF


Fahrenheit temperature scale-

There are 180 divisions between the 32 and 212 point.


Kelvin temperature scale-

Freezing point of H2O=273.15 K

Boiling point of H2O=373.15 K


Kelvin temperature scale- an absolute scale with no negative equilibrium temperatures.

0 K = absolute zero


Conversions –

9T T 32

5F C


Conversions –

5T T 32

9C F

Figure 16-8The Mechanical Equivalent of Heat


James Prescott Joule demonstrated that mechanical work can be converted to heat, and that energy is conserved in the process. 1cal=4.186J

Temperature and HeatThermal expansion – when the temperature of most materials increases, they expand. When a substance is heated, its particles begin moving more and thus usually maintain a greater average separation.

Temperature and HeatLinear expansion –

the change in the length of a material

the coefficient of linear thermal expansion of the material

the original length of the material

the temperature change of the material

o

o

L L T

where

L

L

T

Temperature and HeatArea expansion –

2

the change in the area of a material


the original area of the material


o

o

A A T

where

A

A

T

Temperature and HeatVolume expansion –

3

the change in the volume of a material


the original volume of the material


o

o

V V T

where

v

V

T

Temperature and HeatVolume expansion –

When working with liquids we use the coefficient of volume expansion.

Temperature and HeatLinear expansion –

the change in the volume of a material

the coefficient of volume thermal expansion of the material

the original volume of the material


o

o

V V T

where

V

V

T

Temperature and HeatHeat flow–

Conduction – heat flow without bulk motion of matter. The result of atoms interacting with their neighbors.

Temperature and HeatHeat flow– Conduction

thermal conductivity of the material

heat exchanged

cross-sectional area of the material

the temperature difference between the two sides of the material

length of the m

TQ kA t

L

where

k

Q

A

T

L

aterial

the time interval during which the exchange took placet

Figure 16-9Heat Conduction Through a Rod


Convection – heat exchange due to the bulk motion of an unevenly heated fluid.

Figure 16-11Alternating

Land and Sea Breezes


Radiation – heat exchange due to electromagnetic radiation such as sunlight, infrared light, and microwaves. Does not require matter to transfer heat.

Temperature and Heat Heat – the energy transferred between objects because of a temperature difference.

Documents

heatconversions temperature

temperature change

temperature difference

heatarea expansion temperature

absolute scale

heat conduction

transfer of heat

heatthermal expansion