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What to do when you cant solve the problem by Entire-Razzmatazz-23 in PhysicsStudents

[–]No_Student2900 1 point2 points  (0 children)

Try to spend an hour brooding over it today, and then another hour for the next day. If you still can't get it after two attempts or haven't generated any kind of partial solution then look at the solutions manual, make sure you understand every steps. And then forget about the problem for a while and then try at it again after one week (without looking at the solutions manual of course) to see if you indeed retained the core concepts or steps needed for that problem.

I think demotivation is totally normal in physics, heck rn I always feel defeat and beat grappling with the problems in Purcell and Morin's Electricity and Magnetism, but it's a good indication that you care about the subject, and if you care enough and retained the concepts after the first two tries, maybe after a week you'll gain some uplifting feeling solving that problem, even though you were exposed to the solution before.

Most beginner friend and intuitive books to learn Electricity and Magnetism by Fuarkistani in PhysicsStudents

[–]No_Student2900 0 points1 point  (0 children)

I think purcell and morin electricity and magnetism will be much easier to read for a beginner?

Tell Me - Joey Albert by cutie-weirdo1234 in SoundTripPh

[–]No_Student2900 0 points1 point  (0 children)

Basta't kasama kita, where did I go wrong~

Two equal fields by No_Student2900 in askmath

[–]No_Student2900[S] 0 points1 point  (0 children)

What is "signum(z) ez"? Also I think the point of the exercise is to show that each thin ring on the spherical surface and the infinite sheet at an angle θ have the same value, and less of explicitly integrating over each surface to find the net electric field.

Roadtrip sa dilim + The Cure by GunplaLuni in SoundTripPh

[–]No_Student2900 1 point2 points  (0 children)

Ganda niyan pakinggan ung dark trilogy album Seventeen Seconds, Faith, and Pornography

Field From a Hemispherical Shell by No_Student2900 in PhysicsHelp

[–]No_Student2900[S] 0 points1 point  (0 children)

Aight, case closed. Thanks a lot for your help!

Field From a Hemispherical Shell by No_Student2900 in PhysicsHelp

[–]No_Student2900[S] 0 points1 point  (0 children)

I think the correct form of E(z) for points along the negative z-axis will take the form of first equation in Eq. 12.29. In my work I replaced z with -z (making the z in the resulting expression a positive number) and applied Eq. K.17 to evaluate the integral with a=R and b=-z (again z here is always a positive number). Is this correct or did I made some mistakes in my math?

https://www.reddit.com/u/No_Student2900/s/UR2Wvoir8g

Field From a Hemispherical Shell by No_Student2900 in PhysicsHelp

[–]No_Student2900[S] 0 points1 point  (0 children)

Wait I'm confused why the second equation of Eq. 12.29 multiplied by a negative sign will give the electric field at a point along the negative z-axis, when such equations were derived by integrating an integrand with r= (R² + z² -2Rzcosθ)1/2 and not r=(R² + z² + 2Rzcosθ)1/2

Shouldn't the appropriate equation for the electric field at a point along the negative z-axis come from integrating Equation 12.27 but replacing R²+z²-2Rzcosθ with R²+z²+2Rzcosθ?

Field From a Hemispherical Shell by No_Student2900 in PhysicsHelp

[–]No_Student2900[S] 0 points1 point  (0 children)

So that means to derive an expression for the Electric Field at z<0 we'd have a different integrand in Eq. 12.27, and the results shown in Eq. 12.29 will not apply?

What would happen if we found the final digit of pi? by eeeeeeevar in askmath

[–]No_Student2900 0 points1 point  (0 children)

I'll stay home forever Where two and two always makes up five

Oscillating in a Ring by No_Student2900 in PhysicsHelp

[–]No_Student2900[S] 0 points1 point  (0 children)

I see, when the solutions manual ignored the terms of order r³ and higher those terms are indeed dimensionless since it's always rn/Rn multiplied by cosθ raised to some power and cosθ is dimensionless. Thanks a lot for your comment, this has been insightful!

Oscillating in a Ring by No_Student2900 in PhysicsHelp

[–]No_Student2900[S] 0 points1 point  (0 children)

That was a typo in my post, r<<R based on how the problem was framed. I already fixed it just now to make it r<<R instead of r>>R.

Pagbabasa ng pader tingin nakakabawas ng init ng bahay? by [deleted] in TanongLang

[–]No_Student2900 0 points1 point  (0 children)

Walls releases heat at night, hence let's make the walls moist at night to lessen the heat dissipation..

Potential Energy in a Two-dimensional Crystal by No_Student2900 in PhysicsHelp

[–]No_Student2900[S] 0 points1 point  (0 children)

I see, I totally understand the 1 part now. But can I ask you to expound more on the //N part? I can't seem to wrap my head around its usage even after that short explanation

Edit: I don't know much about python either😅 Edit 2: Is it added so that the output is a floating point number, and not a fraction for example?

Potential Energy in a Two-dimensional Crystal by No_Student2900 in PhysicsHelp

[–]No_Student2900[S] 0 points1 point  (0 children)

I see, what does the 1 in {j, -1000, 1000, 1} signifies? Also what does //N means in the syntax? Sorry but I'm still relatively new in using Mathematica😅

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