A certain lightbulb has a tungsten filament with a resistance of 21.7 Ω when at 20.0°C and 146 Ω when hot. Assume the resistivity of tungsten varies linearly with temperature even over the large temperature range involved here. Find the temperature of the hot filament.

Question

Physics

Davon Perkins

30 March, 11:31

A certain lightbulb has a tungsten filament with a resistance of 21.7 Ω when at 20.0°C and 146 Ω when hot. Assume the resistivity of tungsten varies linearly with temperature even over the large temperature range involved here. Find the temperature of the hot filament.

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Answers (1)

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Sienna Mcneil · Answer 1

1321.57 °C

Explanation:

Using,

R = R'[1+α (T-T') ] ... Equation 1

Where R = final resistance of the tungsten filament, R' = Initial resistance of the tungsten filament, T = Final Temperature, T' = Initial temperature, α = Temperature coefficient of tungsten filament.

Make T the subject of the equation,

T = [ (R-R') / R'α]+T' ... Equation 2

Given: R = 146 Ω, T' = 21.7 Ω, T = 20 °C,

Constant: α = 0.004403/°C

Substitute into equation 2

T = [ (146-21.7) / (21.7*0.004403) ]+20

T = (124.3/0.0955) + 20

T = 1321.57 °C