Presentation is loading. Please wait.

Presentation is loading. Please wait.

Heat Objectives –Be able to distinguish between heat and temperature –Be able to explain thermal equilibrium –Identify the three ways heat can be transferred.

Published byMaud Butler Modified over 9 years ago

Similar presentations

Presentation on theme: "Heat Objectives –Be able to distinguish between heat and temperature –Be able to explain thermal equilibrium –Identify the three ways heat can be transferred."— Presentation transcript:

1 Heat Objectives –Be able to distinguish between heat and temperature –Be able to explain thermal equilibrium –Identify the three ways heat can be transferred –Understand specific heat and latent heat

2 What is Temperature? Temperature is our measurement of the average kinetic energy found in the random motions and vibrations of countless atoms and molecules. Temperature is a way of quantifying the kinetic energy of these atoms and molecules. Temperature is Energy.

3 Maxwell-Boltzman Velocity Distribution Higher temperatures mean higher velocities for atoms and molecules

4 Heat Transfer Three Modes of Heat Transfer Radiation Convection Conduction

5 Radiation Energy transport via electromagnetic waves

6 Convection Energy transport by mass motion

7 Conduction Energy transport by vibrational translation The jostling of atoms and molecules in close proximity in a solid, especially one with high conductivity.

8 Specific Heat Q = m c  T Q = HEAT ENERGY m = mass  T = Temperature difference c = specific heat responsible for the thermal properties of the substance (Joules/kg/Celsius)  T = Q/mc

9 Specific Heat  T = Q/mc For a given amount of heat energy, say 10,000 Joules, what is the temperature change for 1 kg of water and 1 kg of sand? C sand = 838 J/kg o C C water = 4186 J/kg o C  T sand = 10,000/1(838) = 11.9 o C  T water = 10,000/1(4186) = 2.4 o C

10 Heat Energy

11 Changes of State Energy Increased and Absorbed by Substance: SOLID to LIQUIDMelting LIQUID to GASBoiling SOLID to GASSublimation Energy Decreased and Released by Substance: GAS to SOLIDDeposition GAS to LIQUIDCondensation LIQUID to SOLIDFreezing

12 Latent Heat

13 Latent Heat of Fusion Heat Energy required to convert solid to liquid LfLf

14 Latent Heat of Vaporization Heat Energy required to convert liquid to gas. LvLv

15 Melting  T = Q/mc Amount of heat energy needed to bring a 25 g ice block to a temperature of 50 o C? Starting Temp = 0 o C Ending Temp = 50 o C Q = heat needed to make transition from ice to water + heat needed to heat water from 0 to 50 o C Q = mL f + mc  T

16 Melting Ice  Q = m L f + m c  T Q = heat needed to make transition from ice to water + heat needed to heat water from 0 to 50 o C = 80 cal/g*(25 g)*(4.186 J/1000 Cal) + 25 g *4.186 J/g o C *(50-0 o C) = 8.37 J + 5230 J = 5238.4 J

17 Temperature Conversions CELCIUS C = 5/9 (F-32) FAHRENHEIT F = (9/5 C) + 32 ABSOLUTE or KELVIN K = C + 273

Download ppt "Heat Objectives –Be able to distinguish between heat and temperature –Be able to explain thermal equilibrium –Identify the three ways heat can be transferred."

Similar presentations

The rope ladder of a boat hangs over the side of the boat and just touches the water. The ladder rungs are 8 inches apart. How many rungs will be under.

The rope ladder of a boat hangs over the side of the boat and just touches the water. The ladder rungs are 8 inches apart. How many rungs will be under.
TP Be able to Define thermal capacity. Explain the significance of high and low specific capacities.

TP Be able to Define thermal capacity. Explain the significance of high and low specific capacities.
Heat Chapter 9 &10. Kinetic-molecular Theory Matter is made up of many tiny particles that are always in motion In a hot body the particles move faster.

Heat Chapter 9 &10. Kinetic-molecular Theory Matter is made up of many tiny particles that are always in motion In a hot body the particles move faster.
Thermal Force Unit 1.4.

Thermal Force Unit 1.4.
Heat, Temperature, Heat Transfer, Thermal Expansion & Thermodynamics.

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

Heat, Temperature, Heat Transfer & Thermodynamics
Thermodynamics is a Study of heat. A major topic of in this field Is the Kinetic-Molecular Theory.

Thermodynamics is a Study of heat. A major topic of in this field Is the Kinetic-Molecular Theory.
Chapter 10 Heat Thermal Equilibrium Bring two objects into thermal contact. –They can exchange energy. When the flow of energy stops, the objects are.

Chapter 10 Heat Thermal Equilibrium Bring two objects into thermal contact. –They can exchange energy. When the flow of energy stops, the objects are.
Chapters 13 & 17 Phases and Heat. Phases of Matter Chapter 13.

Chapters 13 & 17 Phases and Heat. Phases of Matter Chapter 13.
Thermal Energy.  Matter is made of particles that are in constant random motion  The faster the particles move, the warmer an object gets.

Thermal Energy.  Matter is made of particles that are in constant random motion  The faster the particles move, the warmer an object gets.
Pre-AP Physics Unit 6: Thermodynamics. “Thermodynamics”  Is derived from Greek meaning “movement of heat.”

Pre-AP Physics Unit 6: Thermodynamics. “Thermodynamics”  Is derived from Greek meaning “movement of heat.”
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.
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.
Heat and States of Matter

Heat and States of Matter
Thermal Energy Heat.

Thermal Energy Heat.
Thermodynamics is a Study of heat. A major topic of in this field Is the Kinetic-Molecular Theory.

Thermodynamics is a Study of heat. A major topic of in this field Is the Kinetic-Molecular Theory.
Heat, Temperature, Heat Transfer, Thermal Expansion & Thermodynamics.

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

Temperature and Heat.
Heat and Heat Technology Chapter 10. What is Temperature?  Temperature- A measure of the average kinetic energy of the particles in an object.  All.

Heat and Heat Technology Chapter 10. What is Temperature?  Temperature- A measure of the average kinetic energy of the particles in an object.  All.
NS 3310 – Physical Science Studies

NS 3310 – Physical Science Studies

Similar presentations

Ads by Google