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
F/L = I1*I2*mu/(2pi*d)
d1 = 0.11 m; F1/L = 5.4545E-4 N/m; F1 = 2.7273E-4 N
d2 = 0.26 m; F2/L = -2.3077E-4 N/m; F2 = -1.1538E-4 N
Net F = F1+F2 = 1.5734E-4 N
A rectangular current loop is located near a long, straight wire that carries a current of...
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.
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 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
The long, straight wire carries a current of 16.0 A. A rectangular loop whose long edges are parallel to the wire carries a current of 4.00 A. The parallel edge closest to the wire is 2.6 cm and the farthest parallel edge is 10.0 cm. Find the magnitude of the net force exerted on the loop by the magnetic field of the wire.. 82x10-5N 73x105N 8.0 x 10^-5N 75 x 10^-5N
The figure below shows a long straight wire near a rectangular current loop. The current in the wire is I, = 14.0 A and the current in the loop is I, = 30.0 A. The dimensions of the loop are L = 36.0 cm, w = 12.0 cm, and the distance from the loop to the wire is r = 7.00 cm. Determine the magnitude and direction of the total force on the loop. magnitude direction ( away from the...
The figure below shows a long straight wire near a rectangular current loop. The current in the wire is 11 = 14.0 A and the current in the loop is 12 30.0 A. The dimensions of the loop are L = 33.0 cm, w = 11.0 cm, and the distance from the loop to the wire is r = 5.50 cm. Determine the magnitude and direction of the total force on the loop magnitude direction --Select 1 30.0 A Supporting...
4. (a) A long straight wire carrying a current is placed near
a current-carrying rectangular loop. Describe how, and why, the
loop would move as a result of the magnetic forces from the long
wire. The current in the loop is counterclockwise.
(b) Suppose that you were to put in a different
loop below the long wire (and still in the plane of the page).
Draw the shape of a loop that would...
...experience a total magnetic force of zero...
In Fig. 29-65, a long straight wire carries a current i1 = 27.8 A and a rectangular loop carries current i2 = 19.6 A. Take a = 1.05 cm, b = 7.13 cm, and L = 22.8cm. What is the magnitude of the net force on the loop due to i1?Number__________Units N
The figure below shows a long straight wire near a rectangular current loop. The current in the wire is I1 = 10.0 A and the current in the loop is 12 = 30.0 A. The dimensions of the loop are L = 39.0 cm,w = 13.0 cm, and the distance from the loop to the wire is r = 5.00 cm. Determine the magnitude and direction of the total force on the loop. magnitude direction
A long, straight wire (see the figure below) carries current I1
= 4.4 A and is a distance h = 15 cm from a rectangular current loop
that carries a current I2 = 1.51 A.
A long, straight wire (see the figure below) carries current 11-4.4 A and is a distance h = 15 cm from a rectangular current loop that carries a current 12-1.51 A t0 2 (a) If the loop has length L = 49 cm and width...