Комментарии:
Your video are so helpful. Thanks so much!
ОтветитьMy classmates were confused
Ответитьi dont believe the magnetic field around a wire conductor is oriented circumferentially. where is the north and south in such case? rather, the lines of magnetic force travel from the point of polarization to the furthest point of the conductor.
ОтветитьStudying 11 hours before the exam let’s see my grade
ОтветитьI love you so so so so so so so much man. you are saving my ass so hard right now. Medschool here I come
ОтветитьYou probably get these every day, but thank you. Truly. You are doing us a humongous favor with your videos, it cannot be understated.
ОтветитьI know this video is 5 years old, but this was tremendously helpful. Thank you so much for putting these up for free.
ОтветитьThis was help full thanks alot ❤❤
ОтветитьThank you very much❤
Ответитьwhat a god
ОтветитьI watched ur video when I was highschool student 3 years ago and you helped pass my courses. U are really awesome.
ОтветитьThis guy doesn't 🙅🏼♂️value feedback
Never responds back to a comment/s🤷🏻♂️
Thank you. You are so detailed. I have confused about how to determine direction of induced current and by this video i got it. Thank you.
Ответитьyou really sound like BI Phakathi😂😂
Ответитьwhat happens if the magnetic field is constant though or if the current is constant?
Ответитьyou are a life saviour, thank u so much
ОтветитьThank you, I have struggled for this information... you saved me
ОтветитьWow
ОтветитьI took a whole month to understand this and you made it all pretty clear within seconds
thank you
no longer do I sit in class with a glazed over stare for three hours twice a week. you have made these rules so easy to understand and have helped me teach other students what professors cannot. thank you so much for your time
ОтветитьTHank yoiuu i had no idea what my teacher was saying
ОтветитьWondering the channel name and the topic you are teaching 😂
Ответить👍🐶
Ответитьhere before my last physics final woo
Ответитьrespect brother my grade is more of yours
ОтветитьLe'Chatelier's principle pops up
sorta
This video helps me alot, thx sir!
ОтветитьThis guy's voice is so relaxing and also his videos are helpful 100%
ОтветитьThank you
Ответитьthis video is wrong, it says emf is the rate of change of magnetic flux, but it is the rate of change of the magnetic flux LINKAGE!!!
ОтветитьI don't think anyone can explain this better than you...
Ответитьyoure a fucking beauty
Ответитьwhy does the flux decrease when you decrease the current? Won't B increase, and consequently the flux?
ОтветитьMa 5as el v
ОтветитьThis is very very helpful for AP physics 2. Thank you!
ОтветитьYou always save my life when it comes to chem and physics, but this term got my brain so tired that even after the video I'm still confused 🥲 Final exam tomorrow, I wish I could hope for a good grade, but at this point I pray just to pass
ОтветитьI’m studying for my physics 2 final, and I learned more from the organic chemistry tutor within the past couple hours than I have from my physics professor within the past 2/3 weeks.
ОтветитьSo nice the world's best teacher
ОтветитьI can't even see ur finger, but i understand it better than the explanation of my prof
ОтветитьGod bless you! Thank you for your explanation it is very helpful, just a simple question for the last example why doesn’t the magnetic field created by the induced current travel in the same direction as that other magnetic field as a result supporting the magnetic field and opposing the change ( why is the magnetic field from the induced current traveling inside next to the wire rather than outside ( same direction as the other magnetic field)?
ОтветитьBut what about the magnetic field, outside the coil. If we take the first example, the magnetic field created by the induced emf, would go against the increase in flux inside the coil, but wouldn’t it go with the magnetic field outside the wire. Wouldn’t it increase the field outside the wire, and induce even more current. I think the magnetic field/flux, only affects the inside of the coil, but why is that? Is there a law for that?
ОтветитьThank you for the video. It was very helpful!!
Ответить0.45 seconds and i swear it explained my misunderstanding :)
ОтветитьThank you!!
ОтветитьGrade 10 syllabus in India...
ОтветитьGot an exam tmr, thank you Sir
ОтветитьMy god I love these videos
ОтветитьThe reason I'm making it through physics this semester, thank you!!
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