Register
The resistance, R, to electricity of a cylindrical-shaped wire is given by the equation R=pL/(pi)d^2 where p represents the resistivity of the wire’s material, L represents the length of the wire, and
82.6k views
5 votes
The resistance, R, to electricity of a cylindrical-shaped wire is given by the equation R=pL/(pi)d^2 where p represents the resistivity of the wire’s material, L represents the length of the wire, and d represents the diameter of the wire.

What happens to the resistance of the wire as the diameter approaches 0?
The resistance approaches 0.
The resistance approaches pi.
The resistance approaches L.
The resistance approaches infinity.

User Ning Chen
by
7.5k points

1 Answer

4 votes

Answer:

The resistance approaches infinity

Explanation:

We are given

The resistance, R, to electricity of a cylindrical-shaped wire is given by the equation


R=(\rho L)/(\pi (d)^2)

where

p represents the resistivity of the wire’s material

L represents the length of the wire

d represents the diameter of the wire

now,

d approaches to 0

so, we can plug d=0 and find R


R=(\rho L)/(\pi (0)^2)


R=(\rho L)/(0)


R=\infty

So,

The resistance approaches infinity

User Chris Flesher
by
6.6k points
Ask a Question
Welcome to QAmmunity.org, where you can ask questions and receive answers from other members of our community.

7.8m questions

10.4m answers

Other Questions

How do you can you solve this problem 37 + y = 87; y =
What is .725 as a fraction
How do you estimate of 4 5/8 X 1/3
A bathtub is being filled with water. After 3 minutes 4/5 of the tub is full. Assuming the rate is constant, how much longer will it take to fill the tub?
i have a field 60m long and 110 wide going to be paved i ordered 660000000cm cubed of cement  how thick must the cement be to cover field
Link Copied!