Timelapse: 0:00 Intro 3:48 What is Charge & Types of Charges 8:13 Charge vs mass 12:55 Properties of charges 20:07 Coulombs law & Vector form 21:34 Principle of Superposition 24:11 Permittivity & Relative Permittivity 28:55 Electric Field & Electric field lines 32:15 Electric Dipole & Dipole Moment 43:22 Electric field due to Dipole for Axial & Equatorial 49:40 Torque on a dipole in a uniform Electric Field 51:50 Electric Flux 55:59 Gauss Law & Verification of gauss law using coulombs law 58:26 Continous charge distribution 1:23:35 Application of Gauss Law (Wire, Sheet & Sphere) 1:25:07 Outer
📚ℍ𝕆𝕄𝔼 𝕎𝕆ℝ𝕂 ℚ𝕌𝔼𝕊𝕋𝕀𝕆ℕ 📚 𝕆ℕ𝔼 𝕄𝔸ℝ𝕂𝕊 📝 1) When a electric dipole is placed in a uniform electric field at angle of 0 with E.F. SI unit is coulomb-meter. 2) D.P is defined as product of magnitude of either charge and half distance b/w +ve and -ve charge. 3) Electric field through each side is Φ = q / 6 εo 4) Flux due to two charges at center of sphere will be (ϕ) = -2Q / ϵo 5) Force = 4 X 10^(-7) 𝕋𝕎𝕆 𝕄𝔸ℝ𝕂𝕊 📝 1) Total no. of Electric field lines passing through a surface of given area is called Electric Flux. SI unit is Volt-meter. On decreasing radius no flux will be changed. 2) i) force on charge +q = +qE ; force on charge -q = -qE... as two equal and opposite forces are acting on the dipole therefore net force on dipole is zero. ii) W=pE(cosθ1−cosθ2) ; θ1=0, θ2=180 therefore W = 2pE 3) P=q(2a) ---> p= 8 x 10^(-9) (0.04) ----> p=3.2 x 10^(-10) T = E p sin θ ----> E = 4√3 / 3.2 x 10^(-10) sin 60 -------> E = 2.5 x 10^(10) ----> U= -pEcosθ ----> U = -4 J
30:18 derivation 1,2,3 53:15 gauss law using coulomb's law. 58:43 application of gauss law ,linear cd,surface cd,volume cd. 1:09:55 , 1 for solid cond,hollow cond,hollow non cond ,1 for solid non-conducting.
Timelapse: 0:00 Intro 3:48 What is Charge & Types of Charges 8:13 Charge vs mass 12:55 Properties of charges 20:07 Coulombs law & Vector form 21:34 Principle of Superposition 24:11 Permittivity & Relative Permittivity 28:55 Electric Field & Electric field lines 32:15 Electric Dipole & Dipole Moment 43:22 Electric field due to Dipole for Axial & Equatorial 49:40 Torque on a dipole in a uniform Electric Field 51:50 Electric Flux 55:59 Gauss Law & Verification of gauss law using coulombs law 58:26 Continous charge distribution 1:23:35 Application of Gauss Law (Wire, Sheet & Sphere) 1:25:07 Outer @Suryaa_199
Bhaiya, your teaching style has really kept me engaged throughout the lectures. Which never really happens when it comes to Physics 😂 so thanks a lot for providing such high quality educational content at free of cost that outperforms even the paid ones! ❤🔥
the best lecture i've came across... today , 1 month before my board examinations the first physics lecture which made my concept crystal clear..... thanq so much... lots of love from wb
40:23 isosceles triangle 😝😝 51:44 Maximum flux : If the planar surface is perpendicular to the electric field vector, the maximum flux would be obtained. Minimum flux : If the planar surface were parallel to the electric field vector, the minimum flux would be obtained.
Just came to appreciate your hardwork bhaiya!! Got 98 in physical education 2 marks school valo ne practical me kaat liya(ps: jalta h apun se school 😂) thank you so much bhaiya main apne marks dekhkar itna royi merko yakeen he nahi hua all thanks to you bhaiya aap mere real bhai nahi ho par pyaar mera aapke liye real se bhi jyada h❤ also an advice for my juniors: bhailogo ye insaan tumhari life set kar dega just trust him and do everything he says!! Again thank you bhai god bless you 🥺❤️❤️
hey bhaiya iam khushi i pass my 12th with pcb in 2023 and bhaiya only becauz of you i score 94 in phy edu kuch nhi pdha tha pure sall apne last m jo pdhaya tha sara rat lia tha really genuine bhaiya thank u so so much.
P goes negative to positive Types of triangle 8:43 some examples of conductor and insulator in physics 12:53 induction 23:24 what will be the permitivity for air water etc 23:59 relative permitivity defination in hindi 29:55 electric field and electric dipole direction
28:55 properties of electric fields •These are imaginary lines. •Density of the field lines gives the strength of the electric field •They may be straight or curved •They are symmetric about the line joining the two charges. •They are continuous curves with no sudden breaks. •Inside a conductor, they are zero. •The no. of field lines emerging from a charge is proportional to the magnitude of the charge. If field lines are straight then charge will follow the field line if either it is at rest initially or moving in the field's direction. 47:25 PEcos theta = - P.E
@@aayushsharma1464 badhiya h.... Iske baad aur koi lectures nhi dekhne padenge.... Short 30 mins ke lecture dekh skte ho iske baad revision ke liye..... And physics ke liye bahut shi teacher h.... Superb 👍🏻👏🏻👏🏻☺️
Another properties of charge 1. The no. of field lines are subjective but density of field lines are objective. 2. The density of field lines gives magnitude of field. 3. The tangent drawn on a field lines gives the direction of Electric Fieldvat that point
Chapter ke notes kaha milengeee Google pdf wali link toh khul he nhi ri haiii Aur telegram channel me bhi notes nhi haiii Phir notes kaha se milengee Please help
Bhai apna jamane ka pakka backbencher orr aak backbencher ko dusra backbencher he padha sakta h 😂 sab samj aah gaya chapter ma orr kisi teacher nahi aaya 🎉❤
From Today I am going to start my physics board exam preparation 😅I thought it will be hard for me but ..... I saw this video for first and now I am permanent on this channel ❤ Thank you sir for giving such a great and easy understandable video to make our concept crystal clear🫣💖 have left mine full physics upon uh ... Only you are mine last hope sir 💞 🥺
1:11:06 since there is no charge inside so no electric field lines , so how can you write theta(angle between electric field vector and area vector)=zero
Bhaiya l m hindi medium students l can't explain, Your teaching style is really amazing . I have no word for your this amazing one shot class..❤ Thanks a lot🙏
Thank God mera abhi tak physics ka P bhi nhi hua tha soch ra tha koi acha teacher mil jaye jese hi RU-vid dekha to apka channel mill gaya you are god gifted sir for all 12th physics students thank you so much sir you are doing very hard work for us again thankyou 🙏🙏🙏🙏🙏
literally bhaiya studying this chapter for the first time ,never started because derivations looked really complicated,with you ,I understood every part,thank you so much bhaiya,sedning loads of loves,starting my boards prep today ,hope I get 35+.
Sirrrrrrr really muje derivations ache s smjh nahi aarahe the but...apkiii esh video ne muje vo bhi ache s dimag m feed krdiye.... thanks for this oneshot video and pls make more videos for physics (board2024) thanks a lot love from u.p ( firozabad)
Bahiya Jo aap lecture ke videos daal te ho kya usme derivations be included Hain kya aur aapke videos he hum refer kar sakte Hain kya 12 th boards ke liye??
Mai board ki preparation starting se start kar raha hu for 2025 aur muje aaj se pahle etne ache se physics nahi samaj aaye thee thanks a lot ❤❤ love from uttarpradesh prayagraj❤❤
