(a) Explanation Given information: The thermal conductivity of the wire 14 W / m ⋅ K , the diameter of the wire is 1 mm , the current in the wire is 120 A and the resistivity of the wire is 45 × 10 − 8 Ω ⋅ m . Write the expression for the resistance of the wire. R e = ρ L A ...... (I) Here, the electrical resistivity is ρ , the length of the wire is L and the cross sectional area of the wire is A . Write the expression for the cross sectional area of the wire. A = π 4 D 2 Here, the diameter of the wire is D . Substitute π 4 D 2 for A in Equation (I). R e = ρ L ( π 4 D 2 ) ...... (II) Write the expression for the rate of heat generated in the wire. e ˙ gen = I 2 R e π r 0 2 L ...... (III) Here, the current of the wire is I and the outer radius of the wire is r 0 . Write the expression for the outer radius of the wire. r 0 = D 2 Substitute ρ L ( π 4 D 2 ) for R e and D 2 for r 0 in Equation (III). e ˙ gen = I 2 ( ρ L ( π 4 D 2 ) ) π ( D 2 ) 2 L = 16 I 2 ρ π 2 D 4 (b) To determine The maximum temperature in the wire.

6th Edition

ISBN: 9781260699326

Author: CENGEL

Publisher: MCG

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Chapter 2, Problem 100P

(a)

To determine

The rate of heat generated within the wire.

(b)

To determine

The maximum temperature in the wire.

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Chapter 2, Problem 99P

Chapter 2, Problem 101P

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