Physics 37 Gauss's Law (12 of 16) Cubic Gaussian Surface

I don't know if you still look at these comments but I just wanted to thank you so much for these videos. You have literally brought me out of a depression, before this I was hopeless to learn physics 2 because the UNCC physics department is a joke. I wish I could just give you my tuition money because you deserve it!

Keep being great my friend!!

PimpDaddyJ

Add me to the " forever grateful for your generosity and extremely smooth explanation that an entire department in university could not achieve " squad

Drjoudy

Your explanation is top notch! I was wondering why can't I just use a cube. Every Gaussian surface I have seen looked like a bigger version of the original container of charge so I said to myself why can't you just draw a bigger cube. It turns out you can, but only do it if you are a masochist😂 Thank you.

pspmaster

Your lectures are so professional and admirable, I don't know how I can thank more 💙

Dklcşşslfl

1Fe, not (1/6)Fe in the last equation or do not use enclosing integral then and divide Q by 6 too

egidijuskuprusevicius

Mr Michael you always makes things clear for me so I just say thank you very much may God bless you

lwazipress

"Don't use cubes" Hey prof you hear that ? hahahaha

hazelmaeantimor

I watched all of them... THANK YOU MUCH!

heartlover

thank you very much I haven't seen anything like your lectures. You 'r a great professor!

physics_

nicely said "dont use boxes and cubes and you will like Gauss's law whole lot better"...
I will never even think of calculating that dangerous looking integral....

theriders

It would be easier if you evaluated the integral in polar coordinates. It will get rid of all those x^2 +y^2 and radicals. Also, shouldn't the last integral be just a regular surface integral because you are integrating over one face of the cube, which is an open surface?

northernskies

Here in Brazil you've become a legend

arielledecontti

I don't know how can I very thankful for see this video.

ayudeshiana

Thank you very much, I wasn't sure about the 1/6flux that goes in each face of the cube, I was a little bit confused about that, but now all is clear :D, ready for the exam!

danielborrero

sir, what would be the electric flux on an arbitrary point because of an arbitrary line charge? please make a video on it.

okhomiyatraveller

Thank you very much , sir. Best of the best.

nijatmehtiyev

sir @
Michel van Biezen

u are great

adilkhan-pzlm

Thanks a lot Mr. Michael for the great videos. Can you please make an example where the flux go through a net, for example butterfly net.

alisawi

Wouldn´t be easier to solve the double integral with polar coordinates instead of cartesian, as 4 times SS from 0 to pi/4 of sin(θ)*sin(α) dθdα?

badideabearcub

Hello sir, I also wonder if we can find the electric field strength at any points on the surface using Gauss law? Unlike sphere of charges I don't seem to see any symmetry when looking from different locations inside the cube of Q charges and so do the electric flux not likely to be evenly distributed along the surface? Thanks

JnSubli