you have a 60-watt, 120 volt light bulb. the coiled tungsten filament of the bul
ID: 2026019 • Letter: Y
Question
you have a 60-watt, 120 volt light bulb. the coiled tungsten filament of the bulb is 2.0m long and it heats to 3000 degrees Celsius during normal operation.
(a) Assuming that the filament has a circular cross section, find the diameter of the filament. (b) Find the resistance of the filament at the operating temperature of 30000C and the (c) current flowing through it at that temperature. (d) Would the current be different at different temperatures, as the filament heats up to its operating temperature? Explain why.
Explanation / Answer
let the thermal resistivity be
temperature coefficient of resistivity be
we know that =room temp (1 + (temp))..........................................................1
3000 = room temp(1 + temp) =5.28*10^(-8) (1+ .0045(3000-20) )=76.08 * 10^(-8)
resiistance =l/Area ....................................................................................2
power =V^2/R gives R=120*120/80 =180
a) from 2 we get 180 = 76.08 * 10^(-8) 2/A
hence Area=1.183* 10^(-8) m^2
b) d^2/4 =area hence diameter d=1.22 * 10^(-4) m
c) resistance at 3000 degrees temp =180
d)current power =i^2 *R hence i=.666 A
e)from 1.we can say that resistivity depends on operating temperature hence resistance of the filament varies and hence current also varie
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