A current 1 flows along the length of an infinitely long, straight and thin?walled pipe. Then:

Option 1 -

The magnetic field at all points inside the pipe is the same but not zero

Option 2 -

The magnetic field at any point inside the pipe is zero

Option 3 -

The magnetic field is zero only on the axis of the pipe

Option 4 -

The magnetic field is different at different points inside the pipe

0 1 View | Posted 2 weeks ago
Asked by Shiksha User

  • 1 Answer

  • R

    Answered by

    Raj Pandey | Contributor-Level 9

    2 weeks ago
    Correct Option - 2


    Detailed Solution:

    The magnetic field at any point inside the pipe is zero

Similar Questions for you

R
Raj Pandey

Using Ampere’s law for long hollow cylinder carrying current on its surface

Bin = 0

B o u t = μ 0 i 2 π r  

 

R
Raj Pandey

Gravitational constant = M - 1 L 3 T - 2

Gravitational potential energy = M L 2 T - 2

Gravitational potential = L 2 T - 2

Gravitational intensity = L T - 2

Get authentic answers from experts, students and alumni that you won't find anywhere else

Sign Up on Shiksha

On Shiksha, get access to

  • 65k Colleges
  • 1.2k Exams
  • 688k Reviews
  • 1800k Answers

Learn more about...

Share Your College Life Experience

Didn't find the answer you were looking for?

Search from Shiksha's 1 lakh+ Topics

or

Ask Current Students, Alumni & our Experts

×
×

This website uses Cookies and related technologies for the site to function correctly and securely, improve & personalise your browsing experience, analyse traffic, and support our marketing efforts and serve the Core Purpose. By continuing to browse the site, you agree to Privacy Policy and Cookie Policy.

Need guidance on career and education? Ask our experts

Characters 0/140

The Answer must contain atleast 20 characters.

Add more details

Characters 0/300

The Answer must contain atleast 20 characters.

Keep it short & simple. Type complete word. Avoid abusive language. Next

Your Question

Edit

Add relevant tags to get quick responses. Cancel Post