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Question

A portion of length π m is cut out of a conical solid wire. The two ends of this portion have circular cross-sections of radii r1=5 cm and r2=10 cm. It is connected lengthwise to a circuit and a current I=2A is flowing through it. The resistivity of the material of the wire is ρ=1.5×103 Ωm. Calculate the resistance R, of the considered portion and the voltage, V developed across it.

A
R=0.3Ω , V=0.6 volts
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B
R=0.6Ω , V=0.6 volts
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C
R=0.6Ω , V=0.3 volts
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D
R=3Ω , V=6 volts
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Solution

The correct option is A R=0.3 Ω , V=0.6 volts
It follows from the figure, that

tanθ=r2r1L

Therefore, radius at distance x from the left end, r=r1+xtanθ=r1+x(r2r1L)=r1L+x(r2r1)L


Cross-sectional area at this point,

A=π(r1L+x(r2r1)L)2

Resistance for the element of length dx

dR=ρL2dxπ[r1L+(r2r1)x]2

So, the total resistance offered by the wire,

R=L0dR=ρL2πL0dx[r1L+(r2r1)x]2

R=ρL2π[{r1L+(r2r1)x}1]L0(1(r2r1))

R=ρLπ(r2r1)(1r21r1)=ρLπ(r1r2)

Substituting the given values we get,

R=1.5×103×ππ×5×10×104=0.3 Ω

And the voltage developed across it,

V=IR=IρLπr1r2

By susbtituting the given values we get,

V=2×0.3=0.6 volts

Hence, option (a) is the correct answer.
Why this question?

But this formula can be applied directly if conical shape is given. If the area is nonuniform we have to take an element and then solve using integration.

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