Experiment 4: thermal conductivity – PASCO TD-8564 THERMAL EFFICIENCY APPARATUS User Manual

Thermal Efficiency Apparatus

012-05443A

20

Experiment 4: Thermal Conductivity

Introduction

The rate at which heat is conducted through a material of thickness x and cross-sectional
area A depends on the difference in temperature between the sides (

∆

T) and the thermal

conductivity (k) of the material.

Power =

Heat

Time

=

kA (

∆

T)

x

For the Thermal Efficiency Apparatus, the Peltier device has 71 couples and each couple
consists of 2 elements, so there is a total of 142 elements which conduct heat (Figure 9).

Each element has a length to area ratio of 8.460 cm

-1

. So

x

A

=

8.460cm

–1

142

. Use the data taken

in Experiment 2 for the Open Mode to calculate the thermal conductivity of the Peltier
device:

k =

P

H (OPEN)

(x / A)

∆

T

Question

➀

How does the thermal conductivity of the Peltier device compare with the thermal conduc-
tivity of copper?

Figure 4.1 One Couple Equals Two Elements

Copper

P

N