What is the maximum torque of the forces acting on a rectangular winding of an electric motor containing

What is the maximum torque of the forces acting on a rectangular winding of an electric motor containing 100 turns of wire, 4 * 6 cm in size, through which a current of 10A passes, in a magnetic field with an induction of 1.2 T

To find the value of the maximum torque, we will use the formula: M = B * I * S * n = B * I * (a * b) * n.

Values of variables: B – magnetic induction of the field (B = 1.2 T); I is the current in the winding (I = 10 A); a – wire width (a = 4 cm = 0.04 m); b – wire length (b = 6 cm = 0.06 m); n is the number of turns (n = 100 pcs.).

Let’s perform the calculation: M = B * I * (a * b) * n = 1.2 * 10 * 0.04 * 0.06 * 100 = 2.88 N * m.

Answer: The maximum torque, according to the calculation, is 2.88 N * m.