The rate at which the energy in the wire is transformed into kinetic

AI Thread Summary
A potential difference of 50 mV is applied across a 9.70 m wire with a cross-sectional area of 25.0 mm² and conductivity of 6.80 x 10^6 (ohm.m)^-1. The resistivity is calculated as 1.471 x 10^(-7) ohm.m, leading to a resistance of approximately 0.0571 ohms. The power, or the rate at which energy is transformed into thermal energy, is computed to be about 0.0438 W. Despite the calculations appearing correct, there is uncertainty regarding the answer's accuracy as the professor indicates it is wrong. The discussion highlights the importance of verifying calculations in physics problems.
Pruddy
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Homework Statement



A potential difference of 50 mV is maintained between the ends of a 9.70 m length of wire whose cross section area is 25.0mm^2. The conductivity of the wire is 6.80 x 10^6 (ohm.m)^-1. Determine the rate at which the energy in the wire is transformed into kinetic to thermal energy.

Homework Equations


P = v^2/R

ρ = 1/c

R = ρ (L/A)

Where ρ = resistivity
c = conductivity
A = area
L = length
R = Resistance
V = Voltage
P = power


The Attempt at a Solution



ρ = 1/6.80 x 10^6 = 1.471 x 10^(-7)

R = 1.471 x 10^(-7) * ( 9.70/0.000025 )
= 0.0570748
P = (50 x 10^-3)/0.0570748
= 0.0438021
= 4.38 x 10^(-2) W

This is my complete work. I think my workings are correct but I am not to sure of the answer. I will be glad if anyone can help.

 
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You have an amazing calculator

P = (50 x 10^-3)/0.0570748
= 0.0438021

I think you got the correct answer
 
Thank you.
 
My professor says my answer is wrong.
 
I also confirm your answer.
 

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