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Determining the Inductance of a Solenoid: Derivation and Factors Affecting It, Lecture notes of Engineering Physics

The Royal Conservatoire of Scotland (RCS)Engineering Physics

An in-depth explanation of how to calculate the inductance of a solenoid, a common inductor used in electronic circuits. The definition of inductance, the formula for magnetic flux linkages, and the total magnetic flux through a solenoid. It also discusses the factors that can be adjusted to increase the inductance, such as the permeability of the core material, the number of turns, the cross-sectional area, and the length of the solenoid. A part of a handout from the university of kansas, department of eecs, by jim stiles.

What you will learn

How is the magnetic flux linkage calculated for a solenoid?
What factors can be adjusted to increase the inductance of a solenoid?
What is the definition of inductance?

Typology: Lecture notes

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12/3/2004 Example The Inductance of a Solenoid 1/3

Jim Stiles The Univ. of Kansas Dept. of EECS

Example: The Inductance

of a Solenoid

Many inductors used in electronic circuits are simply solenoids.

Let’s determine the inductance of this structure!

First, we recall that inductance is the ratio of the current and

the flux linkages that the current produces:

Webers

inductance Amp

⎡

⎤

Λ=

⎢

⎥

⎣

⎦



The question then is, what is flux linkages

for a solenoid?

Recall that the magnetic

flux density in the interior

of a solenoid is:

()

Ni ˆ

≈B

where

is the number of

loops and

the length of

the solenoid.

(

)

Partial preview of the text

Download Determining the Inductance of a Solenoid: Derivation and Factors Affecting It and more Lecture notes Engineering Physics in PDF only on Docsity!

Example: The Inductance

of a Solenoid

Many inductors used in electronic circuits are simply solenoids. Let’s determine the inductance of this structure!

First, we recall that inductance is the ratio of the current and the flux linkages that the current produces:

inductance Webers Amp

L

i

Λ^ ⎡^ ⎤

The question then is, what is flux linkages Λ for a solenoid?

Recall that the magnetic flux density in the interior of a solenoid is:

( ) z

r N i ˆa

d

B ≈^ μ

whereN is the number of

loops andd is the length of

the solenoid.

i t ( )^ μ

d

The total magnetic flux flowing through the solenoid is therefore found by integrating across the cross-section of the solenoid:

( ) S

r ds

N i

S

d

∫∫ B

whereS is the cross-sectional area of the solenoid (e.g.,

S = πa^2 if solenoid is circular with radiusa).

Recall the total flux linkage is just the product of the magnetic flux and the number of loops :

Determining the Inductance of a Solenoid: Derivation and Factors Affecting It, Lecture notes of Engineering Physics

Related documents

Partial preview of the text

Download Determining the Inductance of a Solenoid: Derivation and Factors Affecting It and more Lecture notes Engineering Physics in PDF only on Docsity!

Example: The Inductance

of a Solenoid

L

i

Λ^ ⎡^ ⎤

r N i ˆa

d

B ≈^ μ

whereN is the number of

loops andd is the length of

d

r ds

N i

S

d

whereS is the cross-sectional area of the solenoid (e.g.,

S = πa^2 if solenoid is circular with radiusa).

N

N S

i

d

N 2 S

L

i d

Λ^ μ