- Q18 A Circular Loop Of Area 10 Cm Darrying 8 A Is Placed In A Uniform Magnetic Field Parallel To The Plane Of The Coil 1 (75.64 KiB) Viewed 13 times
- Q18 A Circular Loop Of Area 10 Cm Darrying 8 A Is Placed In A Uniform Magnetic Field Parallel To The Plane Of The Coil 2 (26.6 KiB) Viewed 13 times
Q18: A circular loop of area 10 cm² darrying 8 A is placed in a uniform magnetic field parallel to the plane of the coil, along the +x axis, as shown in the figure. If B-1.5T, then the torque applied on the coil (in N.m) is: π-MOX BX sin G = NIA XB (A) 1.2x10² (1) (B) 8.0x102 (-) (C) 1.5 x10² (1) T. Hasan Abdulla Salman B Q14: A square loop, carrying a current I is placed in the xy-plane as shown. A uniform magnetic field B is applied in the positive x-direction. The direction of the torque, t, on the current loop is along: (A) Positive x-axis (B) Negative x-axis (C) Positive y-axis (D) Negative y-axis (E) Positive z-axis A rectangular loop carrying a current I is placed in a uniform magnetic field B pointing into the page, as shown in the figure. If the loop is free to rotate about the axis shown, then the net force and torque on the current loop is: a) F = 0, t = 0 Axis ×¦× B X X b) F = 0, t = 0 c) F = 0, T # 0 XIX d) F = 0, T # 0 X X X e) None of the above X XK (D) 2.0 (k) I a (E) 0.0 X 23 b X X
A circular loop of wire carrying a current I is placed in a magnetic field In three different positions as shown in the figure. In which position the torque on the loop is maximum? (a) (3) (b) (2) I (c) (1) (3) (d) (1) and (2) (2) (D) (1) and (2) (e) In all of them (E) In all of them (C) (1) lac