Problem 36 LC Diff Eq

I have given the differential equations describing the system for Problem 36. This is called a state-space form, and it is useful because it expresses the time derivatives of the state variables in terms of the state variables themselves. In other words, if you know what the state of the system is, you also know how the state is changing. I would pair this with a numerical solution to derive results. I don't know why it is displaying sideways, but one can download and rotate within the picture viewer.

#ElectricityAndMagnetism

Easy Math Editor

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`a_{i-1}`	$a_{i-1}$
`\frac{2}{3}`	$\frac{2}{3}$
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Comments

@Lil Doug Here it is. I'm going to bed now

Steven Chase - 9 months ago

@Steven Chase can't we solve it analytically?

Talulah Riley - 9 months ago

@Steven Chase Your handwriting is far better than Latex.

Talulah Riley - 9 months ago

Here is the rotated form

Talulah Riley - 9 months ago

@Steven Chase Hello ,have a look in this problem please

Talulah Riley - 9 months ago

@Steven Chase How to solve 31st problem?

Talulah Riley - 9 months ago

@Steven Chase Did u have attempted my all latest 3-4 problems.?
There are 2-3-4 and many attempts showing of each problem.

Talulah Riley - 9 months ago

No, I haven't. I was going to try the pulley one, but then I noticed that the masses were the same.

Steven Chase - 9 months ago

@Steven Chase so what happened if masses are same,

Talulah Riley - 9 months ago

@Steven Chase Other than bead problems, which type of problems u like the most??

Talulah Riley - 9 months ago

@Steven Chase ohhww I just realized that $M>m$ , I am doing it right now.
Don't forget to attend. :)

Talulah Riley - 9 months ago

@Steven Chase Now it's reposted, No need to worry, Go ahead and rock.
And try to solve using pen.

Talulah Riley - 9 months ago

@Steven Chase in the latest problem there are 2 attempt.
Did u have tried??
I think Brilliant should add a new feature in which all people with viewers, attempt, solvers, their profile photo should be displayed.

Talulah Riley - 9 months ago

Yeah, I tried it. Maybe I just don't understand pulleys with friction well enough

Steven Chase - 9 months ago

@Steven Chase Did you have forgot those concepts OR not yet learned how to solve tough problems of rotational mechanics ?

Talulah Riley - 9 months ago

@Talulah Riley – I'm fine with rotational dynamics in general. But pulleys with friction, maybe not so much

Steven Chase - 9 months ago

@Steven Chase – @Steven Chase ok No problem. I am posting a new General Rotational mechanics problem within half an hour.
Don't forget to drop a solution Bye Love you. :)

Talulah Riley - 9 months ago

@Talulah Riley – Do you have the solution to that pulley one?

Steven Chase - 9 months ago

@Steven Chase – @Steven Chase No sir , currently I don't have.
Whenever I will get, or if I able to solve it, I will definitely give you.

Talulah Riley - 9 months ago

@Steven Chase this one is also a rotational problem https://brilliant.org/problems/maximum-tension/

Talulah Riley - 9 months ago

@Steven Chase it is up now.

Talulah Riley - 9 months ago

@Steven Chase I have made a little bit change in problem it is $b≥$ instead of $b=$

Talulah Riley - 9 months ago

@Steven Chase did u have solved the latest problem?

Talulah Riley - 9 months ago

@Steven Chase I think you like bead types of problems nah!
I have posted one more right now.
I know that you didn't owe me anything, but whenever you will be free, please post its solution, it is a request.

Talulah Riley - 9 months 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}`	$\boxed{123}$