Simple and an outstanding lecture...couldn't understand the lecture in class but sir atif explained it brilliantly and with full passion.... Proud of you sir❤
Asslam o alaikum sir! self induction sa next wala topic'' energy stored in inductor'' wala topic plzz bna dai ku k ap k elawa kisi ki smjh ni ati plzz sir .... ma na sb ki is topic pr vedio dekh li hai but concepts clearify ni ho pa raha hn
shouldn't the permittivity be μ instead of εr , Because we are talking about magnetic field , and the formula depends upon magnetic field , isn't it right? also in the equation of L , minus sign is missing which we applied because of Len'z law
Dc sy jb aik br capacitor full charge ho jata hy to phir current stop ho jata hy is lye dc ko capacitor block krta hy Ac k 2 direction hotin hn, aik direction me charging hoti hy to current flow hota hy phir jb direction change hoti hy to capacitor discharge hota hy phir current flow krta hy is lye ac capacitor sy flow hota rehta hy
The value of self inductance does not depend on the rate of change of magnetic flux. It only depends on the geometrical characteristics. Other than this, good video
If you rearrange the equation that has been given the 'star' in this video for self inductance, you will see that time comes in the numerator and change of current in the denominator so when you increase the rate of change of current, that entire term actually decreases while the emf increases producing no change in the value of self inductance.
You're right , it doesn't depend upon rate of change of magnetic flux , rather it depends upon how much magnetic flux is produced in unit current , L=NΦ/I . Larger amount of magnetic flux produced using small value of current would have a greater value of L , thus it does depend on geometrical characteristics as Φ = B . A , A is the area and its a direct relation with L. Though in the video Sir didn't said it depends upon the rate of change of magnetic flux.
Exceptional lecture
You teaching method is very good 👍
I like your teaching style.. I love sir g
Ramzan mubarik sir
May Allah full your daman with happiness
For screen shot 1:04
4:34
Thanks bro
Simple and an outstanding lecture...couldn't understand the lecture in class but sir atif explained it brilliantly and with full passion.... Proud of you sir❤
Method of teaching outstanding 👌
Ya itna acha channel ha phir bhi itna underrated
JazakAllah 🤍 😊
Very nice lecture sir ...
Keep it up...
Your way of teaching is outstanding
❤❤
Nice sharing 👍
Thank you Atif sir
Stay blessed
Very informative sir thank you so much
brilliant explanation 👍🔥
Concepts crystal clear 💯
Sir Ramadan Mubarak ❤❤❤❤
Khair mubarak ✨️ 💖
AP KO B RAMZAN MUBARAK
Asslam o alaikum sir! self induction sa next wala topic'' energy stored in inductor'' wala topic plzz bna dai ku k ap k elawa kisi ki smjh ni ati plzz sir .... ma na sb ki is topic pr vedio dekh li hai but concepts clearify ni ho pa raha hn
Vote for mdcat lectures🤚🏻🎀
Amazing lecture sir💚
❤ fantastic oneee
Jazak Allah Khair
Ramadan Mubarak sir❤🎉
mashaAllah ❤sir
Sir Thanku so much ❤️
Great Sir❤
Jazakillah😊😊😊 buhat shukriya❤❤❤
Sirr how L=N×Magnetic flux ÷ by I???SIR kindly answer bata dein
As in start we write N×MF=LI -----(1) we rearrange it....and in our book they write it in last but sir ne phly hi likh liya
@@eshacutie3448 abe 7motnths ho gaye ab batane ka kya faidaa😂😂
@@itsthedudespeedy mene to 2 weeks phly dekha na jab dekha to bta diya🙂
@@eshacutie3448 chalo bhai apki mrzi
Zbr10t it is classic❤@@eshacutie3448
shouldn't the permittivity be μ instead of εr , Because we are talking about magnetic field , and the formula depends upon magnetic field , isn't it right?
also in the equation of L , minus sign is missing which we applied because of Len'z law
Very well method sir
Sir energy stored in inductor walay topic Ki vedio b apload kar dayn
Thanks for you sir❤❤❤❤❤❤😅😅😅😅
Sir may fbise Kay student hon may serif ap kay lectures tayar kharta hon sir please next start chapter 18
Great Sir
Amazing 😊
Sir plz solid physics aur electronics upload kare eid se pehle
Thank you so much sir ❤
amazing lecture sir...Sir if you use only 720p resolution your videos will upload faster
Thnx Sir , Kindly ab jldi se book khtm kra den
Assalamualaikum sir book mai jo is sai agai hua hai Npie=LI yay kia hai aur kiun compare karna hai please explain?
How lenz law is based upon Newton Third law ?
Sir ya ap na last video ma explain nhi kia
What is about the negative sign in final equation of self induction?
It is of no mean
Nice lecture
Assalamualaikum sir ap k pass mcqs notes hon gai for frdral board students
Amazing
Sir is ky baad chap 18 start kary wo important chap ha plzzzz sir
🎉🎉🎉
Thank you sir ❤❤❤❤❤
There is written "in alternating current indicators act as resistors" what does this mean?
Nice
AoA, Sir aik straight wire ki inductance ki value 0H kyun hoti hai?
Thinks sir
Slam sir, sir physics class 13 k full book k notes chahiye plz 🙏
Sir thanks
Sir,kia please aap samjha denge k Why does capacitor allow AC but not DC current?Sir, please is k uper aik video bna de
Dc sy jb aik br capacitor full charge ho jata hy to phir current stop ho jata hy is lye dc ko capacitor block krta hy
Ac k 2 direction hotin hn, aik direction me charging hoti hy to current flow hota hy phir jb direction change hoti hy to capacitor discharge hota hy phir current flow krta hy is lye ac capacitor sy flow hota rehta hy
❤❤❤❤❤❤❤❤❤❤❤best
Thanks 🙏
Where the minus sign gone when we derived L (Constant) from the stared equation 🤔
The value of self inductance does not depend on the rate of change of magnetic flux. It only depends on the geometrical characteristics. Other than this, good video
how please explain
If you rearrange the equation that has been given the 'star' in this video for self inductance, you will see that time comes in the numerator and change of current in the denominator so when you increase the rate of change of current, that entire term actually decreases while the emf increases producing no change in the value of self inductance.
You're right , it doesn't depend upon rate of change of magnetic flux , rather it depends upon how much magnetic flux is produced in unit current , L=NΦ/I . Larger amount of magnetic flux produced using small value of current would have a greater value of L , thus it does depend on geometrical characteristics as Φ = B . A , A is the area and its a direct relation with L.
Though in the video Sir didn't said it depends upon the rate of change of magnetic flux.
Mtlb is ma koi galti ha Jo unho ma likha ha
@@AfzalAfzal-fy5euno
For screenshot 5:06
Sir kindly is question ka answer dai dain (main class 10 main hoon ) ()()()()() what are the limitations of ohm’s law ?
Valid only for point charges of small size and for short distance not valid for charges with bigger size and long distance
It can be applied on simple circuits only
Sir
where is the direction of induced emf
Thanku😊
sir minus sign q lagya h direction ki lie?or agr hum minus sign na lagaye to
The negative sign shows that the induced emf always "opposes" the cause due to which it is produced
Sir negative sign kiun remove kr dia L me ?
Negative sign ku remove kea
Because it indicates direction.
👍👍👍👍👍👍👍👍🏼
Kya ye long question hy important chapter 15 me or kon se imp long hy can anyone please tell me
❤
👍👍👍
Sir g - sign q hata dia
❤❤❤
Ma 10th class ka student hoo
So what
Nice video
Very well method sir
Nice 👍
Great sir
good lecture
Thanks sir
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