at 4:42, qE(d1-d2) as E*d1=V1 , E*d2=V2 ,so eventually q(V1-V2). I was stuck here and found out the connection, like qE is force similar to mg is a force. Thanks sir.
At 3:30 the object "gains energy". Actually no energy is gained. It is converted from potential energy to kinetic energy. Maybe you meant to say it "gains kinetic energy"?
Voltage in circuits is entirely due to gradients in surface charge. Electrostatics and circuits belong to one science and not two, that of electricity and magnetism. It will be instructive to understand Current, the conduction process and Voltage at the fundamental level as in the following two videos: i. ua-cam.com/video/TTtt28b1dYo/v-deo.html and ii. ua-cam.com/video/8BQM_xw2Rfo/v-deo.html The last frame References in video #1 lists textbooks 3 and 4 which discuss details about resistance, how current branches in a parallel circuit and ohm's law. See these lectures by North Carolina State Univ faculty which use a unified approach to electrostatics and circuits. 15. Simple D.C. circuit. Pattern of electric field. Watch from 16.0 minute. 16. Mechanical Battery Watch from 19.0 minute. Ch18L1b ua-cam.com/video/Eu3JQKrJRZA/v-deo.htmlsi=t3MeX8Hi8ELAxaz0 17. First intro to Surface Charge Watch from 10.30 minute. 18. Surface charge gradient Watch from 15.30 minute. Ch18L2a ua-cam.com/video/bp0o1HZOs3g/v-deo.htmlsi=PPiPGepbXvdTgJHX Textbook 4 is here techsarworld.com/product-detail/fundamentals-of-electric-theory-and-circuits-559 PPTs and Videos with animations for all the ten chapters including that of pn junctions Chapter 9 and a few applications Regulated DC Power Supply, Differential Amplifier and Transformer coupled audio power amplifier of book Fundamentals of Electric Theory and Circuits are available for download and viewing here techsarworld.com/download-resource/fundamentals-of-electric-theory-and-circuits-559
at 4:42, qE(d1-d2) as E*d1=V1 , E*d2=V2 ,so eventually q(V1-V2). I was stuck here and found out the connection, like qE is force similar to mg is a force. Thanks sir.
Nice
At 3:30 the object "gains energy". Actually no energy is gained. It is converted from potential energy to kinetic energy. Maybe you meant to say it "gains kinetic energy"?
@David same doubt it loses potential energy
😥 Nptel me bhi mistake hai
Tq sir
thanks sir
Thank you...Sir...
thank you sir
Voltage in circuits is entirely due to gradients in surface charge.
Electrostatics and circuits belong to one science and not two, that of electricity and magnetism.
It will be instructive to understand Current, the conduction process and Voltage at the fundamental level as in the following two videos:
i. ua-cam.com/video/TTtt28b1dYo/v-deo.html and
ii. ua-cam.com/video/8BQM_xw2Rfo/v-deo.html
The last frame References in video #1 lists textbooks 3 and 4 which discuss details about resistance, how current branches in a parallel circuit and ohm's law.
See these lectures by North Carolina State Univ faculty which use a unified approach to electrostatics and circuits.
15. Simple D.C. circuit.
Pattern of electric field.
Watch from 16.0 minute.
16. Mechanical Battery
Watch from 19.0 minute.
Ch18L1b
ua-cam.com/video/Eu3JQKrJRZA/v-deo.htmlsi=t3MeX8Hi8ELAxaz0
17. First intro to Surface Charge
Watch from 10.30 minute.
18. Surface charge gradient
Watch from 15.30 minute.
Ch18L2a
ua-cam.com/video/bp0o1HZOs3g/v-deo.htmlsi=PPiPGepbXvdTgJHX
Textbook 4 is here techsarworld.com/product-detail/fundamentals-of-electric-theory-and-circuits-559
PPTs and Videos with animations for all the ten chapters including that of pn junctions Chapter 9 and a few applications Regulated DC Power Supply, Differential Amplifier and Transformer coupled audio power amplifier of book Fundamentals of Electric Theory and Circuits are available for download and viewing here
techsarworld.com/download-resource/fundamentals-of-electric-theory-and-circuits-559
WHAT IS MG
mass times acceleration of gravity