Why why why only 578 views maybe they watch on app?...this is way too better than those explained by Indian teachers I'hv ever met . Please dont give up making videos for Indian learners😊
I used avoid videos mad by Indian teachers before because i couldn't really understand them. I had actually clicked this video by mistake, but I'm glad i stayed ❤
Thank you so much....it really helps...if my college teachers used to explain like this..I would have never missed college...not even a single day ❤️❤️❤️...
I m having my Physics 2 examn next week at university, and i m literally learning more here that after 1 semester in class. I wish i could directly pay my tuition to this channel, but time will come and i ll pay back, this content is amazing !!!
Aanand Srinivas sir would love this so much. Great work Khan Academy!! Amazing video, super conceptual and interesting deductions with comparing radial and dipole electric field. I wasn't taught all this in my coaching classes, so appreciate it
We DO have many teachers like him in India, but it's just hard to find such on youtube as most students are just focused on marks...as a result, just oneshot and formulae videos😕 I too watch oneshot videos, but not satisfied with most of them and at last end up learning every concept in detail even when I am having a lot of backlogs right now. Just hope that I will cover them in 1 or 2 months along with LITERALLY learning the concepts and not just Ratta Maar😂😂🤞🏼🤞🏼
This video has forced me to comment. All of the Khan Academy India videos are really exceptional. The most helpful explanation is that you chose to measure the field point (P) distance from the charges and not from the center of the dipole like all other videos on youtube and in textbooks. I
Sir, I have doubt regarding the way you wrote the electric field. Here the dipole is considered as the source charge and at point p we have some test charge. The electric field at point P will define by the force acting at P divided by the test charge. That means for E- we should use k(-q)/r^2) and for E+ we should use k(+q)/r^2. please clarify the doubt.
it confuses me that on one place when you (r+d)^2 you get to assume d is negligible, but in another place, same (r+d)^2 expression, but here you get to ignore d to get r^4 in the denominator
Ideally we should not ignore d anywhere. But formula will get very complicated. But initially you must not ignore it as effective E will become 0 which is not the case
as long as you dont get zero when u approximate, that is valid. simplifying d = 0 at an early stage causes it to cancel out and the field, E becomes zero, which we know very well isnt zero. so u simplify and substitute d=0 at a convenient stage
Views are less because the whole student community is focused on getting marks. The real beauty of physics shows here. Love you guys, awesome work.
admiring the beauty of physics aint gonna put food on the table
@@cornflake2563 well point toh hai
because that is what we are supposed to do. make marks, even then they are normalised.
this guy know how to make someone fall in love with physics, you can hear the excitment and intrest in his voice, protect this guy at any cost
i can hear the smile
@@sakuuux3 me too
Why why why only 578 views maybe they watch on app?...this is way too better than those explained by Indian teachers I'hv ever met .
Please dont give up making videos for Indian learners😊
It has 10k views now bro..🙂🙂
And the man teaching is obviously Indian 😶
Why do we bring country's name every time in such videos...IT TOTALLY DEPENDS UPON AN INDIVIDUAL TEACHER and NOT THE COUNTRY.....
I used avoid videos mad by Indian teachers before because i couldn't really understand them. I had actually clicked this video by mistake, but I'm glad i stayed ❤
Thank you so much....it really helps...if my college teachers used to explain like this..I would have never missed college...not even a single day ❤️❤️❤️...
I love how this person gets excited while teaching ❤
I m having my Physics 2 examn next week at university, and i m literally learning more here that after 1 semester in class. I wish i could directly pay my tuition to this channel, but time will come and i ll pay back, this content is amazing !!!
I hav my exam next day morning 😅
Quality ❤
Aanand Srinivas sir would love this so much. Great work Khan Academy!! Amazing video, super conceptual and interesting deductions with comparing radial and dipole electric field. I wasn't taught all this in my coaching classes, so appreciate it
i wish india had more teachers like you sir, science is interesting when you teach us..
We DO have many teachers like him in India, but it's just hard to find such on youtube as most students are just focused on marks...as a result, just oneshot and formulae videos😕
I too watch oneshot videos, but not satisfied with most of them and at last end up learning every concept in detail even when I am having a lot of backlogs right now. Just hope that I will cover them in 1 or 2 months along with LITERALLY learning the concepts and not just Ratta Maar😂😂🤞🏼🤞🏼
@@withcraze i also prefer learning science not mugging it up for a exam i hope you were able to complete your goal of covering backs
others are watching this video for their exams and i m watching it to listen his cute chuckles and voice xD
I love your teaching style because it is unique and scientific
Please complete class 12 syllabus fastly
Khan Acedamy is a blessing....
This video has forced me to comment. All of the Khan Academy India videos are really exceptional. The most helpful explanation is that you chose to measure the field point (P) distance from the charges and not from the center of the dipole like all other videos on youtube and in textbooks. I
Really Waiting for this for a Long Time
Thank You Sir
For Explaining this in a simple but adventures manner!
very nicely explained. great job
Smart people will choose this channel as a guide.
Nobody has ever made me understand dipoles this way.
"You're a wizard, Mahesh" 🪄
Great video!
You're the best sir
This is really smthng.......... thanks a lota
Incredible video
Really helps a lot, thanks for your videos
This video was super clear thank you!
So good! 👍🙏
Really very useful thank you sir
Never knew dipoles could be so much interesting and beautiful 🤌
thanks
u just decreased my pressure
sir ur explanation is awesome 👏👏 thank u sir❤️
quality stuff 🎉❤
Mast
yoy are a great teacher thank you very much❤💖💚
Thank you very much, I appreciate your hard work. i completly get the lecture.
Amazing sirrr
Thank you 😢from bd
sir, now that boards are cancelled , plz upload some jee exclusive topics sir would be rly helpful :)
I felt the reality during the video and also after it🙂want to meet.
Sir, I have doubt regarding the way you wrote the electric field. Here the dipole is considered as the source charge and at point p we have some test charge. The electric field at point P will define by the force acting at P divided by the test charge. That means for E- we should use k(-q)/r^2) and for E+ we should use k(+q)/r^2. please clarify the doubt.
thanks for this doubt, you made me get a better clarity
- and + only represents the direction, not the magnitude
What program do you use to drop charges and show electric fields? That's a great visual.
Lucid!
Sir please make a video on tricks for neet
❤️with dis hehe 😄
This guy can compete with actual sal khan looool
ohh this the video i was searching for because i also like adventures .....hahahaha
👍
First
Excellent video. But I have one doubt. Dont electric field lines go from + to - charge. So along the axis how do we say it is from - to +?
God damn didnt know physics could be beautiful
it confuses me that on one place when you (r+d)^2 you get to assume d is negligible, but in another place, same (r+d)^2 expression, but here you get to ignore d to get r^4 in the denominator
We have same question
same doubt
Ideally we should not ignore d anywhere. But formula will get very complicated.
But initially you must not ignore it as effective E will become 0 which is not the case
as long as you dont get zero when u approximate, that is valid. simplifying d = 0 at an early stage causes it to cancel out and the field, E becomes zero, which we know very well isnt zero. so u simplify and substitute d=0 at a convenient stage