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High School/JEE/NEET/IPhO Physics | 17-19 Yrs

Magnetic Effects of Current
Introduction-to-Magnetic-Field
Duration: 3.46 Min
 
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Oersted-Law
Module - 2 Oersted Law
Duration: 2.03 Min
 
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Magnetic-Field-of-a-Moving-Charge
Duration: 5.34 Min
 
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Biot-Savarts-Law
Duration: 4.55 Min
 
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Magnetic-Induction-due-to-a-Circular-Arc
Duration: 1.54 Min
 
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Solved-Example-1
Module - 13 Solved Example-1
Duration: 3.11 Min
 
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Solved-Example-2
Module - 14 Solved Example-2
Duration: 2.19 Min
 
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Solved-Example-3
Module - 15 Solved Example-3
Duration: 2.57 Min
 
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Solved-Example-4
Module - 16 Solved Example-4
Duration: 3.20 Min
 
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Solved-Example-5
Module - 17 Solved Example-5
Duration: 2.25 Min
 
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Solved-Example-6
Module - 18 Solved Example-6
Duration: 1.17 Min
 
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Solved-Example-7
Module - 19 Solved Example-7
Duration: 4.05 Min
 
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Solved-Example-8
Module - 20 Solved Example-8
Duration: 3.30 Min
 
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Amperes-Law
Module - 25 Ampere's Law
Duration: 6.07 Min
 
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Solved-Example-9
Module - 32 Solved Example-9
Duration: 3.19 Min
 
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Solved-Example-10
Duration: 4.12 Min
 
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Solved-Example-11
Duration: 4.06 Min
 
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Solved-Example-12
Duration: 2.48 Min
 
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  1.  
    2. thanks for teaching sir
    3 years ago by Satish

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  2.  
    3. sir in this y is equal to r /tan theta ….u have take theta at diff pt
    3 years ago by

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  3.  
    4. Sir, shouldn't r = y.tan ?? In the above video, you wrote y = r.tan ?
    5 years ago by Ivan Koshy

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  4.  
    5. Sir, if I take y=r cot(theta) , What is wrong in taking this?
    6 years ago by Amit Vikram Raj
    Ans 1 ->
    well then you will get UoI/4piR * integration of ln(cossecQ cot Q) limits from 0 to pi... probably going to yield the same answer in a more complicated way
    6 years ago by ABHISHEK SHANKAR

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  5.  
    6. sir how u come 2 knw that this particular substitution is required ???
    6 years ago by rameh hooyex
    Ans 1 ->
    well you can see the expressions differentiation lies in the numerator like of the form f '(x) / f(x) and plus it is in the form of 1/x^2 a^2... you might have studied in integration that in such cases you first substitute x as AtanQ and see the expression that to yields... it is like a hit and trial method which in most cases is successful
    6 years ago by ABHISHEK SHANKAR

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  6.  
    7. let y=rtan0 but sir i hope that it is y=r/tan0 by diagram shown
    7 years ago by Devendra singh
    Ans 1 ->
    Here I have taken y=r tanT as a trigonometric substitution not the relation from the figure... consider this separately...
    7 years ago by Physics Galaxy

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  7.  
    8. sir , please check the calculation once..(r=ytan(teta) )
    9 years ago by ab vishal
    Ans 1 ->
    All calculations in this video are correct... theta which I have used in first step of sin(theta) is the one which is shown in figure and the theta which I have used for integration is just a substitution... you can see that further I am using at y = inf, theta will become pi/2 and theta in figure will approach to zero... I think now you have got it...
    9 years ago by Physics Galaxy

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  8.  
    9. Hello Sir, Please check the tan theta formula again because r/y = tan theta then how come y = r tan theta??? Please check it again sir.....
    9 years ago by Dr.Madhu Sharma
    Ans 1 ->
    In this analysis I am using y = r tan (theta) as trig substitution for integration it is not related to the diagram... pl check it carefully... its correct...
    9 years ago by Physics Galaxy

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