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For my revision 8:57 Electrodynamics and Electrostatics defined (Basic Intro) 18:53 Electric Field 29:59 Graphical rep of EFL 40:08 Electric Flux (no. Of EFL passing normally through given area) (ø=int[E.dA]=int[E*dA cos@]) Unit is Wb (Weber) 46:55 Gauss Law (ø through enclosed surface is equal to the change enclosed by surface upon Ė) (it helps us in finding EF at a point due to distributed charges in the Gaussian Surface) 57:37 Derivation of EF Intensity due to Hollow sphere (Shell) (assume Gaussian spherical surface at distance r from centre and apply gauss law) 58:15 same formula in terms of Density 58:54 IMP derivation EF due to Infinite Charged wire (curved surface area of Cyl is (2pie R*L) 1:07:48 EF due to Charged Infinite Plane Sheet Electrostatic and gravitation Forces are Conservative Forces 1:14:04 Potential 1:19:06 Imp Derivation of Potential Energy(Joule) 1:26:05 (Work done in bringing a charge Q from infinity to a particular point in the EF of a Source charge) 1:28:55 Electric Potential (take PE for unit charge) (Joule/Coulomb) 1:30:20 Derivation of Relation b/w E & V 1:32:25 Not imp 1:35:48 do the derivation by dW=-F.dx and consider unit charge and expression will change to dV=-E.dx then int bt sides and get V for point charge 1:42:01 Electric Dipole Basic (Dipole Moment=p= charge x separation b/w them) #Imp 1:42:59 - 1:51:26 1:51:33 Very Important Derivation (Potential due to Dipole) 1:52:29 (V due to system of Charges) 1:54:59 (Equipotential Surface) 1:56:42 Potential due to system of 2 Point Charges 2:00:18 - 2:00:54 U for system of N charges (Make Possible pairs of charges) 2:03:37 U for Single Charge #Imp 2:04:05 U due to system of 2 charges (b/w q and Q and q&q is also considered) (Dont forget to consider q&q potential energy) #Imp 2:06:18 Derivation of Wd in moving of a Dipole by Ø (Torque= P x E, torq= PE Sinø ,dW=torq dØ ) 2:09:46 Summary of Conductors , insul,etc 2:11:19 Dielectric and Electric Polarisation Dielectric (Insulators having capacity to store Electrical Energy) Electric Polarisation (The process of Polarising Dielectric ) 2:13:25 Polar Dielectrics 2:14:48 Non polar Dielectrics 2:15:47 Polarisation of NonPolar Dielectrics 2:16:20 Polarisation of Polar Dielectrics 2:18:12 Reduction of EF of a dielectric 2:19:55 Capacitor (Q=CV) 2:21:35 Capacitors in series Formula Derivation 2:22:58 Capacitors in Parallel Derivation 2:25:40 EF outside Parallel Plate Capacitor is Zero 2:27:11 Derivation of Capacitor formula inside ll plate capa. 2:28:53 Displacement Current (Current due to bound charges in Dielectric) #Imp 2:30:55 Energy Stored in a Capacitor derivation 2:33:33 Van de Graaff Generator
Backup For my revision 8:57 Electrodynamics and Electrostatics defined (Basic Intro) 18:53 Electric Field 29:59 Graphical rep of EFL 40:08 Electric Flux (no. Of EFL passing normally through given area) (ø=int[E.dA]=int[E*dA cos@]) Unit is Wb (Weber) 46:55 Gauss Law (ø through enclosed surface is equal to the change enclosed by surface upon Ė) (it helps us in finding EF at a point due to distributed charges in the Gaussian Surface) 57:37 Derivation of EF Intensity due to Hollow sphere (Shell) (assume Gaussian spherical surface at distance r from centre and apply gauss law) 58:15 same formula in terms of Density 58:54 IMP derivation EF due to Infinite Charged wire (curved surface area of Cyl is (2pie R*L) 1:07:48 EF due to Charged Infinite Plane Sheet Electrostatic and gravitation Forces are Conservative Forces 1:14:04 Potential 1:19:06 Imp Derivation of Potential Energy(Joule) 1:26:05 (Work done in bringing a charge Q from infinity to a particular point in the EF of a Source charge) 1:28:55 Electric Potential (take PE for unit charge) (Joule/Coulomb) 1:30:20 Derivation of Relation b/w E & V 1:32:25 Not imp 1:35:48 do the derivation by dW=-F.dx and consider unit charge and expression will change to dV=-E.dx then int bt sides and get V for point charge 1:42:01 Electric Dipole Basic (Dipole Moment=p= charge x separation b/w them) #Imp 1:42:59 - 1:51:26 1:51:33 Very Important Derivation (Potential due to Dipole) 1:52:29 (V due to system of Charges) 1:54:59 (Equipotential Surface) 1:56:42 Potential due to system of 2 Point Charges 2:00:18 - 2:00:54 U for system of N charges (Make Possible pairs of charges) 2:03:37 U for Single Charge #Imp 2:04:05 U due to system of 2 charges (b/w q and Q and q&q is also considered) (Dont forget to consider q&q potential energy) #Imp 2:06:18 Derivation of Wd in moving of a Dipole by Ø (Torque= P x E, torq= PE Sinø ,dW=torq dØ ) 2:09:46 Summary of Conductors , insul,etc 2:11:19 Dielectric and Electric Polarisation Dielectric (Insulators having capacity to store Electrical Energy) Electric Polarisation (The process of Polarising Dielectric ) 2:13:25 Polar Dielectrics 2:14:48 Non polar Dielectrics 2:15:47 Polarisation of NonPolar Dielectrics 2:16:20 Polarisation of Polar Dielectrics 2:18:12 Reduction of EF of a dielectric 2:19:55 Capacitor (Q=CV) 2:21:35 Capacitors in series Formula Derivation 2:22:58 Capacitors in Parallel Derivation 2:25:40 EF outside Parallel Plate Capacitor is Zero 2:27:11 Derivation of Capacitor formula inside ll plate capa. 2:28:53 Displacement Current (Current due to bound charges in Dielectric) #Imp 2:30:55 Energy Stored in a Capacitor derivation 2:33:33 Van de Graaff Generator
Sir jar questions pn ghetle pratyek topic nantar tar ajun changla hoil kharach....... baki explanation tar best ahech....... please consider karal.....😊
@Sagar__________ I am non marathi too I can understand Marathi very well and can talk a bit too....but hinglish lecture I can feel better personality......and his hinglish is good though
Sir ....thoda jldi krr skte hai kya aap sirf 3 chapters huye hai aur sirf 4 mahine padhane ke liye baaki hai sir...toh please thoda fast krr skte hai aap please😢🙏🙏
🔰To Enroll in the Eklavya 2.0 Maharashtra Batch & Get Access to Class Notes & Other things: physicswallah.onelink.me/ZAZB/gu9p4i0x
📲PW App Link - bit.ly/yt-pwmarathi
🌐PW Website - www.pw.live
📌PW Store's Link: store.pw.live "
For my revision
8:57 Electrodynamics and Electrostatics defined (Basic Intro)
18:53 Electric Field
29:59 Graphical rep of EFL
40:08 Electric Flux (no. Of EFL passing normally through given area) (ø=int[E.dA]=int[E*dA cos@]) Unit is Wb (Weber)
46:55 Gauss Law (ø through enclosed surface is equal to the change enclosed by surface upon Ė) (it helps us in finding EF at a point due to distributed charges in the Gaussian Surface)
57:37 Derivation of EF Intensity due to Hollow sphere (Shell) (assume Gaussian spherical surface at distance r from centre and apply gauss law) 58:15 same formula in terms of Density
58:54 IMP derivation EF due to Infinite Charged wire (curved surface area of Cyl is (2pie R*L)
1:07:48 EF due to Charged Infinite Plane Sheet
Electrostatic and gravitation Forces are Conservative Forces
1:14:04 Potential
1:19:06 Imp Derivation of Potential Energy(Joule) 1:26:05 (Work done in bringing a charge Q from infinity to a particular point in the EF of a Source charge)
1:28:55 Electric Potential (take PE for unit charge) (Joule/Coulomb)
1:30:20 Derivation of Relation b/w E & V
1:32:25 Not imp
1:35:48 do the derivation by dW=-F.dx and consider unit charge and expression will change to dV=-E.dx then int bt sides and get V for point charge
1:42:01 Electric Dipole Basic (Dipole Moment=p= charge x separation b/w them)
#Imp 1:42:59 - 1:51:26 1:51:33 Very Important Derivation (Potential due to Dipole)
1:52:29 (V due to system of Charges)
1:54:59 (Equipotential Surface)
1:56:42 Potential due to system of 2 Point Charges
2:00:18 - 2:00:54 U for system of N charges (Make Possible pairs of charges)
2:03:37 U for Single Charge
#Imp 2:04:05 U due to system of 2 charges (b/w q and Q and q&q is also considered) (Dont forget to consider q&q potential energy)
#Imp 2:06:18 Derivation of Wd in moving of a Dipole by Ø (Torque= P x E, torq= PE Sinø ,dW=torq dØ )
2:09:46 Summary of Conductors , insul,etc
2:11:19 Dielectric and Electric Polarisation
Dielectric (Insulators having capacity to store Electrical Energy)
Electric Polarisation (The process of Polarising Dielectric )
2:13:25 Polar Dielectrics
2:14:48 Non polar Dielectrics
2:15:47 Polarisation of NonPolar Dielectrics
2:16:20 Polarisation of Polar Dielectrics
2:18:12 Reduction of EF of a dielectric
2:19:55 Capacitor (Q=CV)
2:21:35 Capacitors in series Formula Derivation
2:22:58 Capacitors in Parallel Derivation
2:25:40 EF outside Parallel Plate Capacitor is Zero
2:27:11 Derivation of Capacitor formula inside ll plate capa.
2:28:53 Displacement Current (Current due to bound charges in Dielectric)
#Imp 2:30:55 Energy Stored in a Capacitor derivation
2:33:33 Van de Graaff Generator
2:33:33 van de graaff generator
Backup
For my revision
8:57 Electrodynamics and Electrostatics defined (Basic Intro)
18:53 Electric Field
29:59 Graphical rep of EFL
40:08 Electric Flux (no. Of EFL passing normally through given area) (ø=int[E.dA]=int[E*dA cos@]) Unit is Wb (Weber)
46:55 Gauss Law (ø through enclosed surface is equal to the change enclosed by surface upon Ė) (it helps us in finding EF at a point due to distributed charges in the Gaussian Surface)
57:37 Derivation of EF Intensity due to Hollow sphere (Shell) (assume Gaussian spherical surface at distance r from centre and apply gauss law) 58:15 same formula in terms of Density
58:54 IMP derivation EF due to Infinite Charged wire (curved surface area of Cyl is (2pie R*L)
1:07:48 EF due to Charged Infinite Plane Sheet
Electrostatic and gravitation Forces are Conservative Forces
1:14:04 Potential
1:19:06 Imp Derivation of Potential Energy(Joule) 1:26:05 (Work done in bringing a charge Q from infinity to a particular point in the EF of a Source charge)
1:28:55 Electric Potential (take PE for unit charge) (Joule/Coulomb)
1:30:20 Derivation of Relation b/w E & V
1:32:25 Not imp
1:35:48 do the derivation by dW=-F.dx and consider unit charge and expression will change to dV=-E.dx then int bt sides and get V for point charge
1:42:01 Electric Dipole Basic (Dipole Moment=p= charge x separation b/w them)
#Imp 1:42:59 - 1:51:26 1:51:33 Very Important Derivation (Potential due to Dipole)
1:52:29 (V due to system of Charges)
1:54:59 (Equipotential Surface)
1:56:42 Potential due to system of 2 Point Charges
2:00:18 - 2:00:54 U for system of N charges (Make Possible pairs of charges)
2:03:37 U for Single Charge
#Imp 2:04:05 U due to system of 2 charges (b/w q and Q and q&q is also considered) (Dont forget to consider q&q potential energy)
#Imp 2:06:18 Derivation of Wd in moving of a Dipole by Ø (Torque= P x E, torq= PE Sinø ,dW=torq dØ )
2:09:46 Summary of Conductors , insul,etc
2:11:19 Dielectric and Electric Polarisation
Dielectric (Insulators having capacity to store Electrical Energy)
Electric Polarisation (The process of Polarising Dielectric )
2:13:25 Polar Dielectrics
2:14:48 Non polar Dielectrics
2:15:47 Polarisation of NonPolar Dielectrics
2:16:20 Polarisation of Polar Dielectrics
2:18:12 Reduction of EF of a dielectric
2:19:55 Capacitor (Q=CV)
2:21:35 Capacitors in series Formula Derivation
2:22:58 Capacitors in Parallel Derivation
2:25:40 EF outside Parallel Plate Capacitor is Zero
2:27:11 Derivation of Capacitor formula inside ll plate capa.
2:28:53 Displacement Current (Current due to bound charges in Dielectric)
#Imp 2:30:55 Energy Stored in a Capacitor derivation
2:33:33 Van de Graaff Generator
Thanks
❤
The man who solve the tention of 12th physic really salute you sir
जय महाराष्ट्र.,.. सर ❤
50:05 ans is 65/Eo wb
15/E•wb yete n g ans.
U MADE IT EASY
For best experience
See this video non stop 👍👍
Sir jar questions pn ghetle pratyek topic nantar tar ajun changla hoil kharach....... baki explanation tar best ahech....... please consider karal.....😊
True he should take 2-3 examples after every sub topic
Yahi mujhe samaj Nahi Ara mujhe topic ache se pata hain prr Sawal ke se ate hain board main Wahi Nahi pata
Sir mechanical properties of fluid lena
👌👌👌👌👌👌
Thank you...✨🙏🙏
40:47
Bro is it worth watching?
Did you what's your opinion @@ranjeet_13
@ranjeet_13 yes for HSC board
Next chapter current electricity lo sir
Jay maharashtra sir 💙🧡
Sir dielectric jar insular aahe tar te current kass store karu shaktat?
is this lecture enough for class12th boards i mean,does it cover all derivations and theory along with questions
मराठी मानूस 🙌🫡❤️🩹
Jay maharashtra sir❤
🔥
jai shree ram sir
Kahibi bhokta ahet coment madhe
If you are neet / jee aspirants studying for boards so read textbook because you know every concept just read it
🎉
Sir please ,slide pehle se hi prepare rkha kare ,uss time bachega
sir Einside ch two sigma upon Eo yeil vatta 2:25:24
Kharcha sir khup easy zala topic
Not give up🔥
Thank youuu sirrr❤
1:35:51
Sir potential energy ke derivation me 3 stem me magnitude liya he to direction ka -ve sign kyu?
Sir Plzzz Hinglish Mein Lec Rakha Kro !!!
@@Sagar__________no... It's ok if he don't know Marathi because we have to give exam in english na.... Marathi is not compulsory 😢
@@Shrutipimpalkar-r2x i mean bro you are living in Maharashtra from years there is no way u don't understand marathi (i am non marathi).
@Sagar__________ I am non marathi too I can understand Marathi very well and can talk a bit too....but hinglish lecture I can feel better personality......and his hinglish is good though
एव्हढीच मराठी येते तर मराठीत बोला ना 😅
में भारतीय हुं और मेरी राष्ट्रीय भाषा हिंदी है ।
Understand ❤
Sir , so nice teaching but firat students( my friends) have to make notes❤then watch lecture
2:15:01
Thanks To You.. ❤️💯😊its worth it💌❤️🔥🤗🤗✅❤️🩹
Kya baat hai
👌👌
Board main kya padhna hota hain ?
Sir ....thoda jldi krr skte hai kya aap sirf 3 chapters huye hai aur sirf 4 mahine padhane ke liye baaki hai sir...toh please thoda fast krr skte hai aap please😢🙏🙏
Jay Maharashtra Sir🚩
छान आहे Lecture
Is it worth to watch
Nope, first ratta notes then watch or might lesson 💀👌
Yes only for HSC board
@@skssWorldYup, Saleem sir ke lectures attend Kiye the Lakshya 1.0 mei, that's the reason why ye samaj aaya.....
This lecture is like mind map or smth, but still it's worth it, can't say ye kharab hai
@@skssWorld where can we get notes from ??
Starts at 2:40 🙃👍🏻
Thank you sir
thank ou sir
खुप छान आहे.
Sir please hindi me padhaoo 😢😢
Lux1.0 attendance
Sir please hindi mojhey samjha but please hindi mai karun jhala ata bintich ahey
Please stick to hindi not everyone appearing for hsc are fluent in Marathi
Sir Purna marathi madhe bola 😂😂
Recommended to watch in 1.5x
watched in 2x😅
Ha lecture neet sathi ahe kaa
Nahi.
Nahi madam it is just for boards, and concepts ❤😊
I can't understand Marathi 😢
So you can watch other lec 😂
लय अवघड है हा चॅप्टर मी काय म्हणतो सोडून द्या 😭😭
Nahi re baba. High weightage a ha chapter 😭
Sir Maharashtra me bhi hindi hi zyada chalta he hindi me samjhao
Marathi ch chalnar
bro maharsahtrian hai to marathi bol
Why is this guy speaking marathi constantly wouldn't it be better if he used hindi or english
❤❤❤