Question
Download Solution PDFFor magnetically isolated coils, the value of coefficient of coupling is:
Answer (Detailed Solution Below)
Detailed Solution
Download Solution PDFCoefficient of Coupling (k):
The coefficient of coupling (k) between two coils is defined as the fraction of magnetic flux produced by the current in one coil that links the other.
Two coils have self-inductance L1 and L2, then mutual inductance M between them then Coefficient of Coupling (k) is given by
\(k=\frac{M}{\sqrt {L_1L_2}}\)
Where,
\(M=\frac{\mu_o \mu_rN_1N_2A}{ l}\)
\(L_1=\frac{\mu_o \mu_rN_1^2A}{ l}\)
\(L_2=\frac{\mu_o \mu_rN_2^2A}{ l}\)
N1 and N2 is the number of turns in coil 1 and coil 2 respectively
A is the cross-section area
l is the length
For fully Coupled Coil:
k = 1
For magnetically Isolated Coil:
k = 0
Last updated on May 29, 2025
-> SSC JE Electrical 2025 Notification will be released on June 30 for the post of Junior Engineer Electrical/ Electrical & Mechanical.
-> Applicants can fill out the SSC JE application form 2025 for Electrical Engineering from June 30 to July 21.
-> SSC JE EE 2025 paper 1 exam will be conducted from October 27 to 31.
-> Candidates with a degree/diploma in engineering are eligible for this post.
-> The selection process includes Paper I and Paper II online exams, followed by document verification.
-> Prepare for the exam using SSC JE EE Previous Year Papers.