Presentation is loading. Please wait.

Presentation is loading. Please wait.

Ch. 5 - Energy II. Thermal Energy (p.134-137, 141-144)  Temperature  Thermal Energy  Heat Transfer.

Published byAlvin Hampton Modified over 9 years ago

Similar presentations

Presentation on theme: "Ch. 5 - Energy II. Thermal Energy (p.134-137, 141-144)  Temperature  Thermal Energy  Heat Transfer."— Presentation transcript:

1 Ch. 5 - Energy II. Thermal Energy (p.134-137, 141-144)  Temperature  Thermal Energy  Heat Transfer

2 A. Temperature Temperature  measure of the average KE of the particles in a sample of matter

3 B. Thermal Energy Thermal Energy  the total energy of the particles in a material  KE - movement of particles  PE - forces within or between particles due to position  depends on temperature, mass, and type of substance

4 B. Thermal Energy Which beaker of water has more thermal energy?  B - same temperature, more mass 200 mL 80ºC A 400 mL 80ºC B

5 C. Heat Transfer Heat  thermal energy that flows from a warmer material to a cooler material Like work, heat is...  measured in joules (J)  a transfer of energy

6 C. Heat Transfer Why does A feel hot and B feel cold? 80ºC A 10ºC B  Heat flows from A to your hand = hot.  Heat flows from your hand to B = cold.

7 C. Heat Transfer Specific Heat (C p )  amount of energy required to raise the temp. of 1 kg of material by 1 degree Kelvin  units: J/(kg·K) or J/(kg·°C)

8 C. Heat Transfer Which sample will take longer to heat to 100°C? 50 g Al50 g Cu Al - It has a higher specific heat. Al will also take longer to cool down.

9 C. Heat Transfer Q = m   T  C p Q:heat (J) m:mass (kg)  T:change in temperature (K or °C) C p :specific heat (J/kg·K)  T = T f - T i – Q = heat loss + Q = heat gain

10 C. Heat Transfer Calorimeter  device used to measure changes in thermal energy Coffee cup Calorimeter  in an insulated system, heat gained = heat lost

11 C. Heat Transfer A 32-g silver spoon cools from 60°C to 20°C. How much heat is lost by the spoon? GIVEN: m = 32 g T i = 60°C T f = 20°C Q = ? C p = 235 J/kg·K WORK: Q = m·  T·C p m = 32 g = 0.032 kg  T = 20°C - 60°C = – 40°C Q = (0.032kg)(-40°C)(235J/kg·K) Q = – 301 J

12 C. Heat Transfer How much heat is required to warm 230 g of water from 12°C to 90°C? GIVEN: m = 230 g T i = 12°C T f = 90°C Q = ? C p = 4184 J/kg·K WORK: Q = m·  T·C p m = 230 g = 0.23 kg  T = 90°C - 12°C = 78°C Q = (0.23kg)(78°C)(4184 J/kg·K) Q = 75,061 J

Download ppt "Ch. 5 - Energy II. Thermal Energy (p.134-137, 141-144)  Temperature  Thermal Energy  Heat Transfer."

Similar presentations

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

Ch. 5 - Energy II. Thermal Energy (p , ) Temperature
Ch. 6 – Thermal Energy I. Temperature and Energy Transfer Temperature

Ch. 6 – Thermal Energy I. Temperature and Energy Transfer Temperature
 Avg. KE of an object’s particles  Fast particles = High KE = High temp.  Slow particles = Low KE = low temp.  Units - ⁰F, ⁰C, K (Kelvin)  Kelvin.

 Avg. KE of an object’s particles  Fast particles = High KE = High temp.  Slow particles = Low KE = low temp.  Units - ⁰F, ⁰C, K (Kelvin)  Kelvin.
Thermal Energy.

Thermal Energy.
Thermal Energy & Heat Temperature Temperature  measure of the average KE (motion) of the particles.

Thermal Energy & Heat Temperature Temperature  measure of the average KE (motion) of the particles.
Ch. 6 Thermal Energy. 6.1: Temperature and Heat Temperature  measure of the average kinetic energy of the particles in a sample of matter.

Ch. 6 Thermal Energy. 6.1: Temperature and Heat Temperature  measure of the average kinetic energy of the particles in a sample of matter.
Ch 6 Thermal Energy and Heat. Thermal Energy Temperature & Heat Temperature is a measure of the average kinetic energy of the individual particles in.

Ch 6 Thermal Energy and Heat. Thermal Energy Temperature & Heat Temperature is a measure of the average kinetic energy of the individual particles in.
Chapter 2 Heat Capacity and Specific Heat

Chapter 2 Heat Capacity and Specific Heat
Thermal Energy, Specific Heat and Heat Transfer

Thermal Energy, Specific Heat and Heat Transfer
16.1: Thermal Energy and Matter. Heat Heat is the transfer of thermal energy from one object to another because of a temperature difference. Heat flows.

16.1: Thermal Energy and Matter. Heat Heat is the transfer of thermal energy from one object to another because of a temperature difference. Heat flows.
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.
» Heat and temperature are not the same. ˃Consider the picture below, both spoons are absorbing the same amount of heat. +But the metal spoon’s temperature.

» Heat and temperature are not the same. ˃Consider the picture below, both spoons are absorbing the same amount of heat. +But the metal spoon’s temperature.
Thermal Energy & Heat. What is Temperature? Temperature  measure of the average KE of all the particles within an object.

Thermal Energy & Heat. What is Temperature? Temperature  measure of the average KE of all the particles within an object.
Heat ICP Chapter 11.

Heat ICP Chapter 11.
Thermal Energy A. Temperature & Heat 1. Temperature is related to the average kinetic energy of the particles in a substance.

Thermal Energy A. Temperature & Heat 1. Temperature is related to the average kinetic energy of the particles in a substance.
Bell Ringer How is kinetic energy directly related to thermal energy?

Bell Ringer How is kinetic energy directly related to thermal energy?
Thermal Energy.

Thermal Energy.
Calculating Heat Changes First Law of Thermodynamics: the internal energy of an isolated system is constant Signs (+/-) will tell you if energy is entering.

Calculating Heat Changes First Law of Thermodynamics: the internal energy of an isolated system is constant Signs (+/-) will tell you if energy is entering.
Ch 6 Thermal Energy. Sec 1 Temperature and Heat   As you will find out in PS1, all matter is made up of tiny particles in constant motion   Because.

Ch 6 Thermal Energy. Sec 1 Temperature and Heat   As you will find out in PS1, all matter is made up of tiny particles in constant motion   Because.
Thermodynamics. What is Temperature Temperature is a measure of the kinetic energy of matter. Collision between molecules causes energy transfer Motion.

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

Similar presentations

Ads by Google