THERMAL ENERGY By definition, thermal energy is the sum of all internal energy.

Slides:

Advertisements

Similar presentations

Chapter 9 Thermal Energy

Advertisements

Thermal Energy and Heat

Integrated Science Unit 9, Chapter 25.

Temperature and Heat Transferring Thermal Energy

Thermal Physics.

Thermal Energy.

Heat & Temperature Calculations

Chapter 16: Temperature and Heat. Heat Thermal energy that flows from something of high temp. to something of low temp. Warm  Cold Metric unit  Joules.

Energy as Heat Transfer

Thermal Energy Transfer  Thermal Energy can be transferred by three methods Conduction Convection Radiation.

Thermal Energy and Matter

Thermal Energy.

Heat, Temperature, Heat Transfer & Thermodynamics

Matthew Hursky, Brendan Donovan, Jacob Day, Vivian Zhang.

Heat. Heat and Temperature Kinetic Molecular Theory – Is the theory that matter is made up of atoms (smallest piece of matter) and that these atoms are.

Energy, Heat and Heat Transfer

Heat vs Temperature Heat: The energy that transfers from one object to another because of a temperature difference between them. a higher-temperature object.

1 1 Temperature and Thermal Energy Temperature and energy Glencoe: Chapter 9 – Section 1: pages

Thermal Energy and Matter Chapter 16. Heat Heat is the transfer of thermal energy from one object to another due to a temperature difference – Flows from.

Chapter 14.2 – Energy Transfer

1 What is all of this about?. 2 3 Hang Glider They can “catch thermals” and rise up hundreds of feet into the air without a motor then glide back down.

Integrated Physics and Chemistry

Physics Unit 6: Thermodynamics

Chapter 6.  Temperature ◦ Is something hot or cold? ◦ Relative measure.

Ch 16 Thermal Energy and Heat

Thermal Energy Heat.

Heat, Temperature, Heat Transfer, Thermal Expansion & Thermodynamics.

HEAT Miller. Introduction: Temperature = a measure of the AVERAGE kinetic energy in a substance. Heat energy is measure in Joules.

HEAT & THERMAL ENERGY CH. 16. State indicator 17. Demonstrate that thermal energy can be transferred by conduction, convection or radiation (e.g., through.

Thermal Energy & Heat. Temperature Measure of how hot or cold something is compared to reference point Units: –Celsius –Fahrenheit –Kelvin.

Physical Science Applications in Agriculture Unit Physical Science Systems.

Heat is a flow of energy due to temperature differences

Energy, Heat and Heat Transfer Earth Science Intro Unit.

10.1 Temperature, Thermal Energy, and Heat The kinetic molecular theory explains that all matter is made up of tiny particles.  These atoms and molecules.

Heat and the 2 nd Law of Thermodynamics.  Although we learned in the first law that the total amount of energy, including heat, is conserved in an isolated.

Thermodynamics. What is Temperature Temperature is a measure of the kinetic energy of matter. Collision between molecules causes energy transfer Motion.

Thermodynamics. Temperature  How hot or cold something feels compared to a standard  Typically water is our standard  Function of kinetic energy 

Thermal Energy and Heat. Kinetic Theory of Matter ALL particles that make up matter are constantly in motion. ALL particles that make up matter are constantly.

Heat and Temperature Chapter 14.

Chapter 12: Thermal Energy What’s hot and what’s not…

Unit 6. Temperature Temperature – A measure of the average kinetic energy of the particles in an object (how hot or cold). There are three common temperature.

Thermal Energy and Heat Ch 13 in our textbook. Thermal energy and heat Heat is energy flowing between 2 objects because there is a difference in temperature.

Chapter 5 Thermal Energy

The First Law of Thermodynamics The Law of Conservation of Energy.

Heat, Temperature, and Internal Energy

Thermal Energy Intro Video.

Temperature and Thermal Energy. Temperature Temperature – average K.E. of the particles in a sample. Depends on the size of the particles and their velocity.

Thermal Energy. Warm Up: To shape metal into a horseshoe, the metal is heated in a fire. Why will a horseshoe bend when it’s very hot, but not after it.

Heat The motion of the particles of matter. Heat Transfer Heat flows from an area of high heat to an area low in heat. Heat flows from an area of high.

@earthscience92. What is Energy? Energy – Is the ability to cause change – Many forms of energy – Two general forms of energy are Kinetic energy Potential.

Temperature and Thermal Energy Section 12.1 Physics.

Thermal Energy Chapter 12 Physics Principles and Problems Zitzewitz, Elliot, Haase, Harper, Herzog, Nelson, Nelson, Schuler and Zorn McGraw Hill, 2005.

Thermal Energy and Heat Notes. Temperature   Temperature is a measure of the average kinetic energy of the individual particles in matter.   We use.

I will know the difference between temperature and heat. I will know that thermal energy depends on different variables. I will be able to graph temperature.

Introduction to Thermodynamics Principles of Engineering 1.

Heat Energy. I. Conduction - Transfer of thermal energy by direct contact Always from a solid hot object to a solid cold object Takes place in solid,

Thermal Energy and Heat. Temperature Temperature is a measure of the average kinetic energy of the individual particles in matter. The higher the temperature,

Heat Energy. What is Heat Energy? Heat Energy Heat Energy is the sum total of all of the energy of the particles of an object. Heat energytemperature.

Lecture: Heat. What is heat? What is the unit for heat? Does the amount of energy of a heated steel nail equal the energy of a heated aluminum nail?

Lecture 5 Heat Transfer –Conduction –Convection –Radiation Phase Changes.

Heat transfer. Why does heat transfer happen? Heat is a type of energy called thermal energy. Heat can be transferred (moved) by three main processes:

Heat, Temperature, Heat Transfer, Thermal Expansion & Thermodynamics.

Heat and Temperature.

Thermal Energy and Heat

Thermal Energy and Matter

Temperature and Heat Transfers

Thermal Energy and Matter

Warm up: In your composition book.

Heat, Temperature, & Thermodynamics

Heat and Temperature Chapter 14.

Presentation transcript:

THERMAL ENERGY By definition, thermal energy is the sum of all internal energy.

Kinetic Theory  In chemistry, you learned that all particles are moving as long as the temperature is above absolute zero.  Even solids particles vibrate. This is the internal energy that is called thermal energy.

Three types of thermal energy.  Conduction Temperature difference exists between substances. Particles collide and transfer energy. Typically between solids. Demonstration of dominoes.

Three types of thermal energy.  Convection Different density fluids at different temperatures. Typically liquids and gases. Weather is a great example, hot air rises.

Three types of thermal energy.  Radiation Electromagnetic Radiation waves (EMR) This includes light, ultraviolet, infrared, gamma rays, microwaves, radio waves, Xrays and more. All travel at the speed of light, which is c=3.00 x 10 8 m/s

Temperature or Heat?  Heat Amount of energy that flows due to a difference in temperature. Measured in joules or calories.  Temperature Average speed of the particles. Measured in Celsius or Kelvin. K=C+273

SPECIFIC HEAT  The heat required to raise 1g of a substance 1 o C.  In chemistry, we only used water and used c=1calorie/gram o C  In physics, we will use many materials and use the units joules.

SPECIFIC HEAT CONSTANTS Water c=4180joules/kg o C Others from page 279 in your text: Aluminum c=903joules/kg o C Copper c=385joules/kg o C Iron c=450joules/kg o C

H = mcT  H is the change in heat, measured in joules  m is the mass measured in kilograms.  C is specific heat constant.  T is the change in temperature, can be measure in Celsius or Kelvin.

1 st Law of Thermodynamics Thermal Energy = work done on a system + heat added to a system. Example: An engine converts heat into mechanical energy.

2 nd Law of Thermodynamics Entropy = The disorder of system. This is a natural process, all things tend to move away from order to a state of disorder. Example: The energy of a hot system will move to a cold system.

More on Entropy If you reach into the freezer and pull out some ice, your hand feels cold because your hand is transferring heat to the ice. If you touch a hot pan on the stove your hands feels hot because the pan is transferring heat to your hand.

Practice Problem You place a 200g piece of copper in the oven until it is 234 o C. You place the hot copper into 300g of water that is at room temperature (22 o C). What is the final temperature of the water?

Problem Solving Hints  Convert to kilograms  Assume the heat lost by the hot metal is equal to the heat gained by the cold water.  Set variable T equal to the final temperature. Solve for T.  Water c = 4180joules/kg o C  Copper c=385joules/kg o C

Answer H (hot Cu) = H (cold H 2 O) mcT = mcT.2kg*385*(234-T) =.3kg*4180*(T-22) 18,018 – 77T = 1254T – 27, , T +77T +27,588 45,606 = 1331T T = 34.3 o C

Look at your Discovery #1 – The water in the cup absorbed the heat and didn’t allow the cup to burn. # 2 – Rubber bands are a strange material, they release heat when they expand. Most materials expand when the gain heat.

More about the Discovery #3 - The fish is a multi-layered material and bends due to the heat of your hand. One layer contracts while the other layer does not. #4 – The black side absorbs the light and the white side reflects the light.

More about the Discovery #5 – Same as #1, water absorbs the heat and doesn’t allow the balloon to bust. #6 and #7 – The fluid inside has a low boiling point. The heat causes the fluid to expand, hence the center of gravity tips the bird.

More about the Discovery #8 – Hot air rises and hot air has a lower density. Therefore the teabag floats in the column of hot air. #9 – Styrofoam is a material that does not conduct heat, therefore hot liquids stay hot OR cold liquids stay cold.

More about the Discovery #12 – Fat is a great insulator, that’s one of the reasons why polar bears can stay so warm in the arctic.

Another problem I want to use a 500g piece of iron to raise the temperature of 100g of water from 20 o C to 45 o C. How hot does the piece of iron have to be before it is put into the water? Hint: c=450joules/kg o C for iron

FINAL ANSWER The iron will have to change 46.4 o C. Therefore, it will have to start at 91.4 o C.