The resistance of a wire is 16 ohm, this wire is stretched to double of its length. What will be its new resistance and resistivity?
Answers
Answer:
The new resistivity of the material of the wire is \dfrac{\rho R_{2}}{4R_{1}}
4R
1
ρR
2
.
Explanation:
Given that,
length l_{2}=2l_{1}l
2
=2l
1
The resistance of the wire is equal to the product of resistivity of the material and length of the wire divided by the area of cross section.
The resistance of the wire is defined as,
R = \dfrac{\rho l}{A}R=
A
ρl
Where, \rhoρ = resistivity of the material
A = area of cross section
R = resistance of the wire
The volume of both wire is same.
The volume of original wire = volume of new wire
So,V_{1}=V_{2}V
1
=V
2
A_{1}l_{1}=A_{2}l_{2}A
1
l
1
=A
2
l
2
If a wire is stretched to double its length
l_{2}=2l_{1}l
2
=2l
1
Then, A_{1}l_{1}=A_{2}\times2l_{1}A
1
l
1
=A
2
×2l
1
A_{2}=\dfrac{A_{1}}{2}A
2
=
2
A
1
The resistivity of the material is ,
\rho = \dfrac{RA}{l}ρ=
l
RA
The resistivity of the material of the original wire is
\rho = \dfrac{R_{1}A_{1}}{l_{1}}ρ=
l
1
R
1
A
1
.....(I)
The resistivity of the material of the new wire is
\rho' = \dfrac{R_{2}A_{2}}{l_{2}}ρ
′
=
l
2
R
2
A
2
.....(II)
The ratio of the resistivity of the material of the wire is
\dfrac{\rho}{\rho'}=\dfrac{ \dfrac{R_{1}A_{1}}{l_{1}}}{ \dfrac{R_{2}A_{2}}{l_{2}}}
ρ
′
ρ
=
l
2
R
2
A
2
l
1
R
1
A
1
Put the value in the equation
\dfrac{\rho}{\rho'}=\dfrac{R_{1}2A_{1}2l_{1}}{R_{2}A_{1}l_{1}}
ρ
′
ρ
=
R
2
A
1
l
1
R
1
2A
1
2l
1
\dfrac{\rho}{\rho'}=\dfrac{4R_{1}}{R_{2}}
ρ
′
ρ
=
R
2
4R
1
\rho'=\dfrac{\rho R_{2}}{4R_{1}}ρ
′
=
4R
1
ρR
2
Hence, The new resistivity of the material of the wire is \dfrac{\rho R_{2}}{4R_{1}}
4R
1
ρR
2
.