ngl, favorite parts of his teaching style is the way he'll say, "so what would that look like???" and then the immediate follow up is a sick diagram and a clean ahh explanation of what's being shown it's like boom... I get it. Other profs say shit like "so what does this mean???" and then they'll try to tell you what it means but make it even more confusing like bruh THIS is how you get information across. (i'm a highly visual learner if you couldn't tell.)
You simplified it down so much its crazy. You turned a hard topic for me into an easy one in just 30 mins. My physics teacher spent 2 lecture classes on this topic and She did not even come close to teaching it as good as you. Keep it up! Love it
I just want to thank you for the quality of your videos. I love the way you explain concepts so easily and make them clear. I know you may not have enough support, but keep it up; you will get what you deserve.
Would be amazing if all Faculty Professors taught like you. Gonna have an eletromagnetism exam next week and your videos are saving my semestre thank you!
0:56 if you didnt understand what he meant by "B field pierced through a certain area" its like saying "a needle passing through a woolen cloth" as in like penetrating
@@WeAreShowboat I see, thanks. And if there was a battery so that a current flows through the bar, then you would have to substract the emf created by the moving bar from the potential of the battery, right? In order to not get a ln(0)
Hi first of all you're absolutely saving me right now your ultimate reviews are awesome, so thank you so much! Could you please explain why at 22:40 you replaced r with y instead of D? Cus the distance between them is D, and Y having a dy sort of implied that the distance between them was changing. Also, how come B depends on Y when Y doesn't actually have anything to do with area cus it's just used as distance instead of r? In fact why is area relevant at all if it's just the current that is changing? Your help is appreciated :D
So r is the distance from the bottom wire creating the magnetic field. It gets weaker and weaker the further you go. But the way I oriented that wire the r direction is upwards which is the y direction. Just easier to think about as x and y in my opinion so I changed the r variable to call it y, but both r and y here stand for distance vertically above the bottom current carrying wire.
@@WeAreShowboat tysm for responding, I appreciate it. I still don’t get why we didn’t take D or why Y is changing, both the wire and square are fixed in place no? Also the last part about the current being the only thing changing so why is area making a difference?
@@nadeenmohiar6193 Magnetic field Abbie a function of y, so when integrating, you have to take into account that the B has smaller values the farther away you go from the wire
but a changing flux is not the causative for the emf, it's only a mathematical convenience. what if B changes non-uniformly while keeping the net flux the same during a period?
Faraday's Law is not a law, just math. In the second and third cases, the emf is motional emf due to the motion of the conductor through the magnetic field and is not due to the changing flux linking the circuit. It is a case of correlation, not causation.
ngl, favorite parts of his teaching style is the way he'll say, "so what would that look like???" and then the immediate follow up is a sick diagram and a clean ahh explanation of what's being shown it's like boom... I get it. Other profs say shit like "so what does this mean???" and then they'll try to tell you what it means but make it even more confusing like bruh THIS is how you get information across. (i'm a highly visual learner if you couldn't tell.)
this is the best physics education i have ever seen
The way you personify these concepts and variables is hilarious . Great lecture btw!
This guy is absolutely amazing. He makes everything engaging, clear, and fun to learn, you really can't ask for much more. Thank you!
It is insane how you explain concepts in such clarity many many thanks!
You simplified it down so much its crazy. You turned a hard topic for me into an easy one in just 30 mins. My physics teacher spent 2 lecture classes on this topic and She did not even come close to teaching it as good as you. Keep it up! Love it
You are a great teacher, these videos helped me pass Physics 2. Thanks!
"Separate, integrate, celebrate" - amen! Thanks for an amazing video!
Best physics explainations out there 100%
I just want to thank you for the quality of your videos. I love the way you explain concepts so easily and make them clear. I know you may not have enough support, but keep it up; you will get what you deserve.
Would be amazing if all Faculty Professors taught like you. Gonna have an eletromagnetism exam next week and your videos are saving my semestre thank you!
30:20 that separate integrate celebrate line is too good, imma use it from now on 😂
this is definitely one of the physics video ever
0:56 if you didnt understand what he meant by "B field pierced through a certain area" its like saying "a needle passing through a woolen cloth" as in like penetrating
Reject solar flux analogy, Embrace SpongeBob. Good stuff man. All your vids have been helping a lot.
Best physics channel I have ever seen.
You're reviews are awesome! Thank you so much
8:50 keep in mind, changing in terms of angle would mean dA = rDrDtheta which means integrating first for R then for angle
Love this review. My physics lecturer is hopeless at explaining, and my tutor doesn't answer my emails, so these kinds of videos really help out.
"These might look hard" me-ok
On everything u the best teacher
Great explanation/teaching man Keep it up
Best exam prep thank you so much holyy
Love you SIr.
e &m has been a breeze after i found these vids!
These videos are awesome - thanks!
the 3d diagrams help so much
I’m paying tuition and studying online and passing 😂. Thank you so much
this is incredible, thank you!!!
Thank-you bro, you helped me out a lot.
Best videos ever❤️😩 thank you so much 🙏🏻
What happens if the initial velocity is 0? 30:35
Then the rod doesn’t move and just sits there. v=0 forever in that case
@@WeAreShowboat I see, thanks. And if there was a battery so that a current flows through the bar, then you would have to substract the emf created by the moving bar from the potential of the battery, right? In order to not get a ln(0)
@@mathiasr27 Yeah, with a battery it should start moving until back emf equals battery voltage when it moves with constant velocity
@@WeAreShowboat thank you
"I do be carin' about the volts" LOL
My guy you are such a legend
makes this emag homework problem im doing easier to understand, very cool!
This is amazing. Thank you for this!
very good explanations
always great videos
Thank you for this video.
always the best! thank you
you are amazing !!!
straight goated
ur the goat
Thank you so much!
what does variable c equate to ?
I was thinking the same thing, he never explained it
you saying b gets annihilated at 17:07 is killing me
Hi first of all you're absolutely saving me right now your ultimate reviews are awesome, so thank you so much! Could you please explain why at 22:40 you replaced r with y instead of D? Cus the distance between them is D, and Y having a dy sort of implied that the distance between them was changing. Also, how come B depends on Y when Y doesn't actually have anything to do with area cus it's just used as distance instead of r? In fact why is area relevant at all if it's just the current that is changing? Your help is appreciated :D
So r is the distance from the bottom wire creating the magnetic field. It gets weaker and weaker the further you go. But the way I oriented that wire the r direction is upwards which is the y direction. Just easier to think about as x and y in my opinion so I changed the r variable to call it y, but both r and y here stand for distance vertically above the bottom current carrying wire.
@@WeAreShowboat tysm for responding, I appreciate it. I still don’t get why we didn’t take D or why Y is changing, both the wire and square are fixed in place no? Also the last part about the current being the only thing changing so why is area making a difference?
@@nadeenmohiar6193 Magnetic field Abbie a function of y, so when integrating, you have to take into account that the B has smaller values the farther away you go from the wire
@@WeAreShowboat Okay thank you for taking the time to answer me🤍
you are awesome
thank you
you save my ass
What do i use separate, integrate and celebrate ??
It’s a technique for solving differential equations called “separation of variables”
Can we download those pdfs somewhere.
There’s a link in the description under the video
i really do be carin bout those volts tho 😳😩
Great video 🔥
Thank you!
What does "flux" mean in physics?
Amount of field that passes through an area
i love u bro
LOVELY
31:19
yo shoutout u gang
but a changing flux is not the causative for the emf, it's only a mathematical convenience.
what if B changes non-uniformly while keeping the net flux the same during a period?
Wow
i love u
Faraday's Law is not a law, just math. In the second and third cases, the emf is motional emf due to the motion of the conductor through the magnetic field and is not due to the changing flux linking the circuit. It is a case of correlation, not causation.
part 1
file:///C:/Users/SARKER%20SAAD%20AHMED/Downloads/faradays%20law%20part%201.pdf