The moving charges create magnetic fields that are proportional to the current. This means that a conductor that moves current creates a magnetic effect around it. So, even in the resistor, there is a magnetic flux. But the magnetic field always moves in a plane that is not parallel to the line of element and position vector. It can be found by using the right-hand thumb rule, where the thumb shows the direction of regular current and the other fingers show the direction of the magnetic field. Biot-Savart law is another way to figure out how strong a magnetic field is. So, the magnetic field or flux can't be sensed well when it's like a straight conductor and only has resistive properties. So, the only way we can see electricity is in the form of heat in a resistor. But if the same resistive conductor is used as a coil (like in rotating electrical machines, transformers, or simple inductors), the magnetic energy can be concentrated in a small area and its strength can be felt. So, most of the electrical energy change in the coil/inductor is thought of as magnetic energy. Hope, you understand.
Edhekkada Mass explanation ra mawa 🔥 🤩, Super mam
I like this video and explanations is very well
Paper lo cheyyandi mam
Nice explanation mam
Madam .Why not the alternating current set up the alternating flux in case of pure resistance.
Plz tell madam
The moving charges create magnetic fields that are proportional to the current. This means that a conductor that moves current creates a magnetic effect around it. So, even in the resistor, there is a magnetic flux.
But the magnetic field always moves in a plane that is not parallel to the line of element and position vector. It can be found by using the right-hand thumb rule, where the thumb shows the direction of regular current and the other fingers show the direction of the magnetic field. Biot-Savart law is another way to figure out how strong a magnetic field is.
So, the magnetic field or flux can't be sensed well when it's like a straight conductor and only has resistive properties. So, the only way we can see electricity is in the form of heat in a resistor.
But if the same resistive conductor is used as a coil (like in rotating electrical machines, transformers, or simple inductors), the magnetic energy can be concentrated in a small area and its strength can be felt. So, most of the electrical energy change in the coil/inductor is thought of as magnetic energy.
Hope, you understand.
Thanks mam...
Thank you so much mam
Good explanation mam consept and plbm explaine plse
Thank you madam. Well explain
Welcome.
Thank you mam
Most welcome.
Madam please explain on paper only
Well explained mam thank you
Thank you and welcome 😊
@@DrNagarajaKumariElectrical madam, explain about Diploma, electrical circuits