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Sanosuke Sagara said:Please , I really need someone help me figure out where I have done wrong.
I take it that you are having problems with the flux linkage questions because you seem to have figured out the induced voltages. You may want to ask some engineers about flux linkage. It is a concept used more in engineering, but I will give it a shot.Sanosuke Sagara said:I have my question,solution and the problem I faced in the attachment that followed.Thanks for anybody that spend some time on this question.
Sanosuke Sagara said:Thanks for your help ,Andrew Mason and learningphysics.I now can understand with the question already.
Mutual inductance is the measure of the ability of two coils to influence each other's current flow. It is a property of the magnetic field created by one coil that affects the magnetic field of the other coil.
Mutual inductance is calculated by dividing the change in current in one coil by the change in magnetic flux in the other coil. It is measured in henries (H).
The number of turns in each coil, the distance between the coils, and the material of the cores of the coils can all affect mutual inductance. Other factors include the orientation of the coils and the frequency of the alternating current.
Mutual inductance and self inductance are related, as they both measure the ability of a coil to induce a current in itself or in another coil. However, mutual inductance involves two separate coils, while self inductance only involves one coil.
Mutual inductance has many practical applications, including in transformers, motors, and generators. It is also used in wireless power transfer and electromagnetic compatibility testing. Mutual inductance is also important in the field of electronics and circuit design.