My teacher goes through this so quick because it is review for him... here I can go at my own pace to really absorb the information how it should be. Thank you HtM!
This was the best explanation video I've seen so far. Thank you so much!! if you have a problem in understanding the flux' concept just watch this video, no hesitation
wow.....really it was so clear.....one week classes=13minutes video....thank you for explaining concepts in a very precise and clear manner in a very short time....
This video helped me solve a problem that was literally driving me to tears. Lecturers give us 10 different equations in a lecture, but without good examples like in this video it is very difficult to know how to use them. Amazing how much difference one 13 minute video can make. Thank you so much!
For People who are Confused with the symmetry thing: We Are taking 3 types of symmetries (Sphere, Cylinder, Vertical Cylinder), So that the Electric field vector at any point should always remain perpendicular to the Area (Parallel to the Area Vector), Because of this the Value of Cos∅ is always equal to 1, which saves us from some complicated Integral Calculations.
i am an indian student and tired of those multiple ou tube channels trying to convert concepts into lectures, i love these kind o f animation explnation, and the spanish accent was the cherry on top
This video is really well done and hits a great balance point between general equations and principles and specific examples that help you understand them
Hey! Could you explain to me the meaning of your name 감성딸기 ? I know 딸기 means strawberries, but when I google 감성 it means 'Emotion'. Could you provide an explanation, please?
I think electric flux & electric field are different entities. Electric flux is a physical entity measurable by its density while electric field is force with magnitude and direction. A charge is surrounded by electric flux which decreases as per inverse square law. There is no field around a single charge. Electric field appears only when flux of 1 charge interacts with flux of other charge. In case of similar charges flux b/w charges increase which produces a push/repulsive force while in case of opposite charges flux b/w charges decreases which produces pull/attractive force.
Holy shit that was so good, the animations did the trick for me man. Goddamn kudos for all the effort that has been put in this video, it was so smoothly explained man, love ya'll.
I didn't understood "electric field through closed surface", how can more amount of flux can leave, as compared to coming? The only source of electric flux is from outside, isn't?
How come sometimes the electric flux is found by integrating E over a given area, but in other cases it's found by integrating D over a a given area. I've seen both versions of the equation used, but I don't see why one would be prefered over the other.