Find torque acting on triangular loop with current i (see Fig.
5) i?n the uniform magnetic field B.
Find torque acting on triangular loop with current i (see Fig. 5) i?n the uniform magnetic...
The current in the triangular wire loop is I = 5.0 A, as shown in the figure. The loop is in a flat magnetic field B = (3.0T) (a) Calculate the magnetic moment of the current loop and, with it, calculate the torque affecting on the loop In what direction does this torque tend to turn the loop? (b) Calculate the magnetic forces affecting on the sides of the triangle and, with their help, calculate the magnetic torque. (Can you...
Question 6 [5 marks] A rectangular loop with sides l = 30 cm and w 10 cm carries a current, I, of 2 A and lies centered in the xy-plane as shown below. The loop is in a region where there is a uniform magnetic field. The magnetic field is given by B (2 a3 ay + 4 az) x 102 Wb/m2. Determine the total force acting on the loop and the torque acting on the loop.
Question 6 [5...
The wire loop with current I, is placed in a magnetic field B = B ((cosa)i + (cosß)+ (cosy)ť) as shown. (a) Find the magnetic force acting on each side of this loop. What is the net magnetic force acting on the loop? (6) Find the initial magnetic dipole moment for this loop of current. (C) Find the initial magnetic torque acting on this loop of current. (d) Find the change of magnetic potential energy of the loop as it...
A flat, 172-turn, current‑carrying loop is immersed in a uniform magnetic field. The area of the loop is 6.55 cm2 and the angle between its magnetic dipole moment and the field is 30.5∘. Find the strength B of the magnetic field that causes a torque of 1.23×10−5 N⋅m to act on the loop when a current of 2.73 mA flows in it.
8) Consider the triangular loop of current shown which is located in a uniform magnetic field pointing in the +z direction. Explain which coordinate axis, if any, this loop will rotate about. 54
A loop of wire with a clockwise current is in a uniform magnetic field that is in the plane of the loop. The loop has: A) both a net force and a net torque on it. (B) a net force on it but no net torque on it. (C) no net force on it but a net torque on it. (D) neither a net torque nor a net force on it. (E) a magnetic field that adds with the uniform...
The triangular loop of wire (APOR) shown in the figure carries a current 1 5.00 A in the sense shown. The loop is in a uniform 3.00-T magnetic field that points in the +y direction, as shown in the figure. Find the net magnetic force on the triangular loop y +z=0 < el B 0.600 m î Р R -0.800 m
[3] The rectangular loop shown below, carrying the current I, is located in a uniform magnetic field of 0.25 T pointing in the negative y direction. Using the following data: h4.0 cm, w4.0 cm, 33.5°, I 10.0 A, answer the following questions: a) What is the magnitude of the magnetic dipole moment of the loop? b) Find the magnitude & direction of the torque on the loop.
You know that the net magnetic force on the (closed) current
loop in the uniform magnetic field is zero. As shown in the figure
below, the rectangular thin wire loop running current
I2=8.97 A is, however, in the
non-uniform magnetic field produced by a long straight wire
carrying current I1=13.4 A. The
rectangular loop and the source wire are in the same
(xy)-plane with the geometrical dimensions
illustrated in the figure and equal to a=0.68 cm,
b=1.7 cm and c=53.5...
The triangular loop of wire shown in the drawing carries a current of I = 5.30 A. A uniform magnetic field is directed parallel to side AB of the triangle and has a magnitude of 1.80 T. (a) Find the magnitude and direction of the magnetic force exerted on each side of the triangle. (b) Determine the magnitude of the net force exerted on the triangle. KNOW WANT STRATEGY