Section 1: Temperature and

HeatChapter 6: Thermal Energy

LEARNING GOALS Define temperature.

Explain how thermal energy depends on temperature.

Explain how thermal energy and heat are related.

Calculate the change in thermal energy.

WARM-UP: Name at least 3 ways you

can warm yourself on a cold day. What is the source of heat for each?

MATTER IN MOTION Matter is made up of tiny

particles (atoms and molecules) that are in constant, random motion.

MATTER IN MOTION Since particles are always

moving, they have kinetic energy.

The faster they move, the more kinetic energy those particles have.

http://youtu.be/6VdMp46ZIL8

TEMPERATURE Temperature: measure of the

average kinetic energy of the particles in an object.

SI Units Kelvin (K) More common Celsius (°C)

1 K is equal in size to 1 °C degree

TEMPERATURE SCALESWater freezes at: 32°F0°C273 K

TEMPERATURE SCALESWater boils at:212°F100°C373 K

TEMPERATURE SCALES Converting from Fahrenheit to

Celsius °C = 5 / 9 (°F - 32)

Converting from Celsius to Fahrenheit °F = 9 / 5 (°C )+ 32

TEMPERATURE SCALES Converting from Celsius to

Kelvin K = °C + 273

Converting from Kelvin to Celsius °C = K - 273

PRACTICE PROBLEMS Convert 46 °F to Celsius

PRACTICE PROBLEMS Convert 37 °C to °F

PRACTICE PROBLEMS Convert 25 °C to Kelvin

THERMAL ENERGY AND HEAT Thermal energy: the sum of

the kinetic and potential energy of all the atoms in an object Increases as temperature

increases At constant temperature, thermal

energy increases if mass increases

THERMAL ENERGY AND HEAT Which will cause the

greatest increase of temperature of a children’s swimming pool that is at 50°F? A cup of water at 100°F A large barrel of water at 80°F

THERMAL ENERGY AND HEAT Heat: thermal energy that

flows from something at a higher temperature to something at a lower temperature Heat is a form of energy, so it

can be measured in joules or calories

THOUGHT QUESTION: Your car is parked for several

hours outside on a hot, sunny summer day. You open the door to the car and sit down in the seat. What are you careful not to touch? What aren’t you afraid to touch? Why?

MEASURING HEAT Heat cannot be measured

directly. However, an increase in

temperature indicates that heat is being added.

A decrease in temperature indicates that heat is being removed.

MEASURING HEAT Heat will be measured in

calories (cal). calorie: the amount of heat

energy needed to raise the temperature of 1 gram of water by 1°C.

1 calorie = 4.184 J

MEASURING HEAT The amount of heat needed

for a given temperature change depends on the mass. It takes 1 calorie of heat to

change 1 gram of water by 1°C. It would take 10 calories of heat to change 10 grams of water 1°C.

SPECIFIC HEAT Specific heat: the amount of

heat energy that is needed to raise the temperature of 1 gram of a substance by 1°C Example: The specific heat of

water is 1 calorie per gram per degree Celsius. (1.00 cal/g°C)

SPECIFIC HEAT Heat gained or lost = Mass x

Change in Temperature x Specific Heat

q = m x ΔT x C q = heat in calories m = mass in g ΔT = change of temperature in °C C = Specific heat in cal/g°C

SPECIFIC HEAT m = (ΔT x C) / q

C = (m x ΔT) / q

ΔT = (m x C) / q

ΔT = Final temp – Initial temp

EXAMPLE How much heat is needed to

raise the temperature of 4 grams of aluminum by 5 °C? (The specific heat of aluminum is

0.22 cal/g ° C)

CALORIMETRY Calorimeter: an instrument

used to measure the heat given off by a chemical reaction Works because within a

closed container, the heat lost by one substance must equal the heat gained by another substance.

CALORIMETRY Heat energy will not change

the temperature of a substance when the heat energy is stored. Examples: food and gasoline Heat energy is released when

the substances burn

CHECK-IN: Using an arrow, draw the

direction of energy transfer between the two objects below:

78°C 89°C