Presentation is loading. Please wait.

Presentation is loading. Please wait.

Conduction, Convection+Radiation Conduction, Convection+Radiation.

Published byAron Perry Modified over 9 years ago

Similar presentations

Presentation on theme: "Conduction, Convection+Radiation Conduction, Convection+Radiation."— Presentation transcript:

1 Conduction, Convection+Radiation Conduction, Convection+Radiation

2 Question Touch base of chair, and desk top, which feels colder? A) BaseB) SameC) Desk Both must be the same temperature (room temperature), but metal feels colder because it conducts heat better/faster. 10

3 Heat Transfer: Conduction l Hot molecules have more KE than cold molecules l High-speed molecules on left collide with low-speed molecules on right è energy transferred to lower-speed molecules è heat transfers from hot to cold l I = rate of heat transfer = Q/t [J/s]  I =  A (T H -T C )/L »Q/t =  A  T/  x   = “thermal conductivity” »Units: J/s-m-C »good thermal conductors…high  »good thermal insulators … low   R = L/(A  = thermal resistance demos T H Hot T C Cold L =  x Area A 13

4 Question If you want to maximize the amount of Heat flow which substance should you choose? 1. Aluminum 2. Copper 3. Steel 15

5 Example: Boiling water l A steel pot with an area of 0.05m 2 and thickness of 0.006m is placed on top of a burner so that its bottom surface remains at 150 0 C. How much water boils away each minute?

6 Question If you want to limit the amount of Heat flow (Insulate) which substance should you choose? 1. Air 2. Wood 3. Glass 15

7 How does an oven work?

8 Heat Transfer Convection l Air heats at bottom l Thermal expansion…density gets smaller l Lower density air rises è Archimedes: low density floats on high density l Cooler air pushed down l Cycle continues with net result of circulation of air l Practical aspects è heater ducts on floor è A/C ducts on ceiling è stove heats water from bottom è “riding the thermals” heater demos 27

9 Heat Transfer: Radiation l All things radiate and absorb electromagnetic energy è I emit = eA  T 4 è I absorb = eA  T 0 4 è I net = I emit - I absorb = eA  (T 4 - T 0 4 ) »if T > T 0, object cools down »if T < T 0, object heats up T Surroundings at T 0 Hot stove HW 38

10 Summary l Conduction - contact l Convection - fluid motion l Radiation – Electromagnetic waves 50

Download ppt "Conduction, Convection+Radiation Conduction, Convection+Radiation."

Similar presentations

6.2 Thermal Energy & Temperature

6.2 Thermal Energy & Temperature
Physics 101: Lecture 28, Pg 1 Physics 101: Lecture 28 The Transfer of Heat l Today’s lecture will cover Textbook Chapter 13 è The Transfer of Heat »Convection.

Physics 101: Lecture 28, Pg 1 Physics 101: Lecture 28 The Transfer of Heat l Today’s lecture will cover Textbook Chapter 13 è The Transfer of Heat »Convection.
How does Heat Energy transfer from one substance to another?

How does Heat Energy transfer from one substance to another?
Physics 101: Chapter 13 The Transfer of Heat

Physics 101: Chapter 13 The Transfer of Heat
Question of the Day Label the heat movement as conduction, convection or radiation. 1.Lava Lamp2.Fire3.Spoon in soup.

Question of the Day Label the heat movement as conduction, convection or radiation. 1.Lava Lamp2.Fire3.Spoon in soup.
How does Heat Energy transfer from one substance to another?

How does Heat Energy transfer from one substance to another?
Physics 101: Lecture 26 Conduction, Convection, Radiation

Physics 101: Lecture 26 Conduction, Convection, Radiation
The Transfer of Heat Energy.

The Transfer of Heat Energy.
IPC Notes: Heat Transfer

IPC Notes: Heat Transfer
Energy as Heat Transfer

Energy as Heat Transfer
A MEMS Science Production 2009.  Heat is energy that flows from one object to another.  3 types of heat transfer:  Conduction, Convection, Radiation.

A MEMS Science Production  Heat is energy that flows from one object to another.  3 types of heat transfer:  Conduction, Convection, Radiation.
Thermal Energy.

Thermal Energy.
THERMAL Energy Chapter 5.

THERMAL Energy Chapter 5.
Thermal Energy and Heat. Temperature The measure of how HOT or COLD and object is.

Thermal Energy and Heat. Temperature The measure of how HOT or COLD and object is.
HEAT Miller. Introduction: Temperature = a measure of the AVERAGE kinetic energy in a substance. Heat energy is measure in Joules.

HEAT Miller. Introduction: Temperature = a measure of the AVERAGE kinetic energy in a substance. Heat energy is measure in Joules.
What’s the difference??? Heat is energy that is transferred from one object to another due to differences in temperature (hot  cold) Temperature is a.

What’s the difference??? Heat is energy that is transferred from one object to another due to differences in temperature (hot  cold) Temperature is a.
ICP 12/4/12 Heat and Temperature Notes Video: Classroom Video: Methods of Heat Transfer.

ICP 12/4/12 Heat and Temperature Notes Video: Classroom Video: Methods of Heat Transfer.
WELCOME BACK MINIONS Time to check workbooks!. REVIEW Let’s grade our “Take Home Quiz”.

WELCOME BACK MINIONS Time to check workbooks!. REVIEW Let’s grade our “Take Home Quiz”.
Heat Transfer Chapter 2, Section 2 p. 49-51. How Heat is Transferred Heat: the energy transferred from a hotter object to a cooler one.

Heat Transfer Chapter 2, Section 2 p How Heat is Transferred Heat: the energy transferred from a hotter object to a cooler one.
Heat Transfer. Heat is the transfer of thermal energy between substances that are at different temperatures.

Heat Transfer. Heat is the transfer of thermal energy between substances that are at different temperatures.

Similar presentations

Ads by Google