Magnetic Force with Damping

#ElectricityAndMagnetism

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Comments

@Lil Doug @Karan Chatrath

Here is my take on the magnetic problem with damping

Steven Chase - 9 months ago

Thank you for sharing this note

Karan Chatrath - 9 months ago

@Karan Chatrath can you see my note?

Talulah Riley - 9 months ago

@Steven Chase It was solved.
But thankyou so much for for still providing solution

Talulah Riley - 9 months ago

@Steven Chase Thanks

Talulah Riley - 9 months ago

@Steven Chase Have a look on this problem

Talulah Riley - 9 months ago

This would be a good problem for the E&M Section

Steven Chase - 9 months ago

@Steven Chase Yes I was thinking that only.
But i want to do it with pen.
Do you want to see my attempt.?

Talulah Riley - 9 months ago

@Steven Chase in some condition there separation can be $\infty$ also may be.

Talulah Riley - 9 months ago

Yes, if $E = 0$ , there is no finite maximum separation

Steven Chase - 9 months ago

@Steven Chase we are probably neglecting gravitational force,
If we take $G=1$ , the question will become more beautiful.

Talulah Riley - 9 months ago

@Steven Chase i don't know why but, I am not able to think properly what will happen in different cases.

Talulah Riley - 9 months ago

Neither am I. Many of these problems are like that. I wonder if the authors have been careful enough in preparing them

Steven Chase - 9 months ago

For all we know, the solutions might have entirely different forms, depending on the relative strengths of different constants.

Steven Chase - 9 months ago

@Steven Chase I think except $E=0$ , there can also be some cases, when there will be $\infty$ separation.

Talulah Riley - 9 months ago

@Steven Chase The answer given in back of the book is in 3 different cases
Like for $l<, l=, l>$
Which is possible.
So the author is. Careful while making them.

Talulah Riley - 9 months ago

@Steven Chase I am doing, adding the $(W)$ work done by electric field and electrostatic force
And then $\frac{dW}{dx}=0$

Talulah Riley - 9 months ago

@Steven Chase In the meantime have a look on this problem

Talulah Riley - 9 months ago

@Steven Chase Hello, can you post a analytical solution for this problem
Thanks in advance.

Talulah Riley - 9 months ago

@Steven Chase Please take a look into this, and sorry for that if it hurt you.
Thanks in advance
Hope I am not disturbing you

Talulah Riley - 9 months ago

@Steven Chase Sir the problem which you have reported ,only that much information is given in the question in book.
I just notice now a solver. Is it you?

Talulah Riley - 9 months ago

Interesting. No, it's not me

Steven Chase - 9 months ago

Oh, I think I missed that the inductors are supposed to be identical. Let me try again with that constraint added

Steven Chase - 9 months ago

Ok, that was the problem. I deleted the report. Thanks

Steven Chase - 9 months ago

@Steven Chase sir i think you have solved my latest problem correctly.
Foolish learner has posted a report on it.
Can you post its solution, whenever you will be free.

Talulah Riley - 9 months ago

@Steven Chase hello sir ,can you help me in this problem
Or at least give me a reply that “I am busy, sorry i can't help”
It is a request

Talulah Riley - 8 months, 4 weeks ago

@Steven Chase are you comfortable with Fluid Mechanics? Can I ask doubt of that topic?
Thanks in advance

Talulah Riley - 8 months, 4 weeks ago

Math	Appears as
Remember to wrap math in `\(` ... `\)` or `\[` ... `\]` to ensure proper formatting.
`2 \times 3`	$2 \times 3$
`2^{34}`	$2^{34}$
`a_{i-1}`	$a_{i-1}$
`\frac{2}{3}`	$\frac{2}{3}$
`\sqrt{2}`	$\sqrt{2}$
`\sum_{i=1}^3`	$\sum_{i=1}^3$
`\sin \theta`	$\sin \theta$
`\boxed{123}`	$\boxed{123}$