Multiple-Concept Example 8 and Conceptual Example 9 provide background that will help you understand the approach...
vA rectangular current loop is located near a long, straight wire that carries a current of 12 A (see the drawing). The current in the loop is 25 A. Determine the magnitude of the net magnetic force that acts on the loop. 12 A 0.11 m 25 A 0.15 m -0.50 m
A rectangular current loop is located near a long, straight wire that carries a current of IW = 12 A (see the drawing). The current in the loop is IL = 22 A. Determine the magnitude of the net magnetic force that acts on the loop. N
A rectangular current loop is located near a long, straight wire that carries a current of IW = 11 A (see the drawing). The current in the loop is IL = 30 A. Determine the magnitude of the net magnetic force that acts on the loop.
A straight (and infinite) wire carries a current near a rectangular wire loop which carries a different current. If ly = 11.0 A, 12 = 30.0 A, L = 0.45 m, w = 0.15 m, and r = 0.05 m. Find both the direction and magnitude of the net force on the loop. 1 12 = 30.0 A
Please help Multiple Concept Example 9 provides background pertinent to this problem. The magnitodes of the four displacement vectors shown in the drawing are A 18.0 m, B 11.0 m, C- 10.0 m, and D 22.0 magnitude and (b) direction for the resultant that occurs when these vectors are added together. Specify the direction as a positive (counterclockwise) angle from the +x axis. ermine the (a) ty +x (a) NumberT12.3 UnitsT m (b) N um 72.5
Multiple Concept Example 9 provides background pertinent to this problem. The magnitudes of the four displacement vectors shown in the drawing are A = 18.0 m, B = 10.0 m, C = 12.0 m, and D = 22.0 m. Determine the (a) magnitude and (b) direction for the resultant that occurs when these vectors are added together. Specify the direction as a positive (counterclockwise) angle from the +xaxis.
Multiple Concept Example 9 provides background pertinent to this problem. The magnitudes of the four displacement vectors shown in the drawing are A = 14.0 m, B = 11.0 m, C = 13.0 m, and D = 23.0 m. Determine the (a) magnitude and (b) direction for the resultant that occurs when these vectors are added together. Specify the direction as a positive (counterclockwise) angle from the +x axis. 20.0 35.0 50.0 (a) Number Units (b) Number Units
Multiple Concept Example 9 provides background pertinent to this problem. The magnitudes of the four displacement vectors shown in the drawing are A 14.0 m, B 10.0 m, C-10.0 m, and D 28.0 m. Determine the (a) magnitude and (b) direction for the resultant that occurs when these vectors are added together. Specify the direction as a positive (counterclockwise) angle from the +x axis. ty 20.0 +x 5.050.0 (a) Numbe Units TCSI (b) Number Units
PRACTICE IT Use the worked example above to help you solve this problem. A circular wire loop of radius 1.04 m is placed in a magnetic field of magnitude 0.495 T. The normal to the plane of the loop makes an angle of 30.0e with the magnetic field (see figure a). The current in the loop is 2.35 A in the direction shown. (a) Find the magnetic moment of the loop and,the magnitude of the torque at this instant. A...
Chapter 01, Problem 50 Multiple Concept Example 9 23.0 m. Determine the (a) magnitude and (b) direction for the resultant that occurs when these vectors are added together. Specify the direction as a positive (counterclockwise) angle from the +x axis. provides background pertinent to this problem. The magnitudes of the four displacement vectors shown in the drawing are A 14.0 m, B = 12.0 m, C = 13.0 m, and D = +y E50.0 35.0 (a) Number Units (b) Number...