Emittance of hot bodies (Leslie cube)

Principle

Thermal radiation can be measured at all surfaces as long as their temperature differs from that of the surrounding. Therefore it applies that the hotter an object is, the more radiation it emits. Also the surface colour influences the behaviour: dark surfaces emit more thermal radiation than light ones. An example for application of this effect is a heat sink which is often coated with a black layer to emit more thermal radiation.

Benefits

  • Simple set-up
  • Affordable experiment
  • For both demonstration and student experiments

Table top on rod

Thermopile, Moll type

Shielding tube, for 08479-00

PHYWE Universal measuring amplifier

Funnel, glass, top dia. 50 mm

Glass beaker, tall form, 2000 ml

Students thermometer,-10…+110°C, l = 180 mm

Tripod base PHYWE

Immersion heater,1000W,220-250V

Leslie radiation cube

Stirrer for leslie cube

Digital multimeter 2005

Connecting cord, 32 A, 750 mm, red

Connecting cord, 32 A, 750 mm, blue

Barrel base expert

Tasks

  1. Measurement of the room temperature T0 (in Kelvin) before starting the experiment.
  2. Determination and comparison of the emittance for all four sides of the Leslie cube at a constant high temperature. Therefore, the thermal radiation of a cube filled with boiling water is measured with a Moll-type thermopile.
  3. Determination and comparison of the emittance for all four sides of the Leslie cube depending on the temperature.
  4. Plotting the thermoelectric voltage Vth as a function of the absolute temperature T or rather T4 – T04 for each side of the cube and validation of Kirchhoff’s law of thermal radiation for the used Leslie cube with the collected data.

What you can learn about

  • Thermal radiation and emittance
  • Kirchhoff’s law of thermal radiation
  • Leslie’s cube
  • Black and grey body

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Product number

P2350400

Emittance of hot bodies (Leslie cube)

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