Experiment: Stefan-Boltzmann law (115 V, 50/60 Hz)

Experiment: Stefan-Boltzmann law (115 V, 50/60 Hz), 8000692 [UE4050200-115], Intensity of Radiation
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Objective: Verify that intensity of radiation is proportional to the fourth power of the temperature, T4


The way that intensity of radiation from a black body depends on temperature is described by the
Stefan-Boltzmann law. Similar dependence on temperature is exhibited by the intensity of radiation
from an incandescent lamp with a tungsten filament. In this experiment, a Moll thermopile is used to
make a relative measurement which verifies the law. The temperature of the filament can be determined
from the way its resistance depends on temperature, which can be determined very accurately
using a four-wire method.

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Stefan Boltzmann lamp, 1008523 [U8490050], Optical Lamps on Stem

Stefan Boltzmann lamp

1008523 [U8490050]
Unit price
$ 174.00
DC Power Supply 20 V, 5 A
(115 V, 50/60 Hz), 1003311 [U33020-115], Power Supplies

DC Power Supply 20 V, 5 A
(115 V, 50/60 Hz)

1003311 [U33020-115]
Unit price
$ 394.00
Thermopile, 1000824 [U8441301], Greenhouse Effect

Thermopile

1000824 [U8441301]
Unit price
$ 374.00
Digital Multimeter P3340, 1002785 [U118091], Hand-held Digital Measuring Instruments

Digital Multimeter P3340

1002785 [U118091]
Unit price
$ 73.40
Digital Multimeter P1035, 1002781 [U11806], Hand-held Digital Measuring Instruments

Digital Multimeter P1035

1002781 [U11806]
Unit price
$ 43.40
Barrel Foot, 1 kg, 1002834 [U13265], Bases

Barrel Foot, 1 kg

1002834 [U13265]
Unit price
$ 40.50
Set of 15 Safety Experiment Leads, 75 cm, 2.5 mm², 1002843 [U138021], Circuits

Set of 15 Safety Experiment Leads, 75 cm, 2.5 mm²

1002843 [U138021]
Unit price
$ 169.00
Item No.: 8000692 [UE4050200-115]
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