Question

*SUPER URGENT* Please explain how the concept of torque applies to a circuit - in a situation where the flow of electrons in a circuit goes through a solenoid with n windings and inside this solenoid is a separate coil which is turned to a direction due to the current - in other words, how do you calculate the torque the coil experiences? FIGURE SOON INCLUDED

Answer 1

Basically the idea is that a coil is inside a solenoid (solenoid was a part of a circuit with current again) and this coil is attached to a stick so that when this coil experiences a torque force due to something I don't get - then the coil is draqqed to a direction so that the stick tilts to rest a corresponding amount of weight on the scale due to the initial torque force in the current. How could you explain how this entire concept works

Answer 2

so in a solenoid there will be an uniform magnetic field i.e. {mu(0) n i }

Answer 3

Can you explain in terms of right hand rule expressions or anything, how with a certain direction of the current and correct alignment of the coil inside the solenoid, the torque is induced into the coil inside the solenoid

Answer 4

ok...let me see the diagram.

Answer 5

If you do - the fulcrum system is directly below the solenoid so that the supporting structure is directly up from the stick, to the coil. the solenoid is somehow else supported from the ground so that it is in the air

Answer 6

And more fundamentally than considering this experiment, I would need an explanation, with sources, of how torque is caused in this circuit based on right hand rule and can be calculated with respect to current strength

Answer 7

So separate explanations of torque as a force and torque in a circuit - caused by current

Answer 8

May I answer you after some time later...I have to leave now..