Thermal Conductivity of Metals

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UNDER CONSTRUCTION

Description of the Experiment

This experiment revolves around the conduction of heat. The user can study and compare how fast heat propagates through three bars of different materials.

<swf height="200" width="500">http://www.elab.tecnico.ulisboa.pt/anexos/descricoes-flash/ConducaoCalorFinal.swf</swf>


Experimental Apparatus

Two methods are used to study heat conduction through metals:

  1. Single thermal pulse, applied to both ends, and subsequent evolution through the three monitored points;
  2. Comparison of the output of each bar's first sensor.

Each bar has a 5mm diameter and 370mm length, and the three metals are iron, copper and brass.

Montagem: Sanduíche de lã de rocha cobrindo os cilindros dos metais.

The first 70mm of each bar have a heating resistor wrapped around them. 10mm away from the heat sink is the first batch of thermometers, the second being at 250mm and the third at 300. The heat sink keeps of of the ends at room temperature and is the reference point for the position axis. The bars are mounted in the middle of two 50mm thick layers of thermal insulation (rockwool) prevent heat convection and minimize thermal losses.

An electric current is applied to the heating resistor and this heats that end (through Joule's effect). The heating regime can be pulsed or periodic. The heat generated will run through the bar and be dissipated at the opposite end, with the sink.

By choosing the pulse width (it should be around one minute), heat propagation can be observed by measuring the three points described earlier.


Protocol

Run the experiment in pulse mode and observe how the pulse travels along the bars.

Note: The heat sink keeps the ends of the bars at room temperature, which means that the readings of one of the thermometers will not vary, having been chosen as the reference point for distance.