10 cm D B A 10 cm C X P I-10 A Figure 1
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Problem Show coMplere solutions andm 1. In Figure 1, the wire loop consists of four segments....
The cube in the figure is 50.3 cm on each edge. Four straight segments of wire...
The cube in the figure is 50.3 cm on each edge. Four straight
segments of wire (ab, bc, cd, and da) form a closed loop that
carries a current of 4.68 A, in the direction shown. A uniform
magnetic field of 0.029 T acts in the positive y direction.
Find the magnitude of the magnetic force on the segment da.
Answer in units of N.
In the figure, a wire loop has been bent so that it has three segments: segment...
In the figure, a wire loop has been bent so that it has three
segments: segment bc (a quarter-circle), ac (a square
corner), and ab (straight). Here are three choices for a
magnetic field through the loop:
a) Rank the choices according to the work done per unit charge
in setting up the induced current, greatest first.
b) Rank the choices according to the induced current, greatest
first.
c) For each choice, what is the direction of the induced current...
2. In Figure 3, the cube is 40.0 cm on each edge. Four straight segments of...
2. In Figure 3, the cube is 40.0 cm on each edge. Four straight segments of wire-ab, bc, cd, and da-form a closed loop that carries a current 1 -5.00 A in the direction shown. A uniform magnetic field of magnitude B-0.0200T is in the positive y-direction. Determine the magnitude and direction of the magnetic force on each segment. (10) Figure3
A rectangular loop of wire is placed next to a straight wire. There is a current of 3.5A in both ...
A rectangular loop of wire is placed next to a straight wire. There is a current of 3.5A in both wires. Please find the magnitude and direction of the net force on the loop. 1) What is the direction of magnetic field produced by long wire? 2) What is the force on segment AB due to this magnetic field (magnitude and direction) 3) What is the force on segment CD due to this magnetic field (magnitude and direction) 4) What...
1. (15 points). A wire, in a plane, has the shape shown in figure. The radii...
1. (15 points). A wire, in a plane, has the shape shown in figure. The radii of the semicircular segments are 20.0 cm and 30.0 cm. Current I = 60.0 A. Find (a) (10 points) magnitude and (a) (5 points) direction of the magnetic field at the semicircles center A. 20.0cm Current I 60.0A 30.00m
calculations. Show the numerie answers with the appropriate number of a 1. (15 points). A wire,...
calculations. Show the numerie answers with the appropriate number of a 1. (15 points). A wire, in a plane, has the shape shown in figure. The radii of the semicircular segments are 20.0 cm and 30.0 cm. Current 60.0 A. Find (a) (10 points) magnitude and (a) (5 points) direction of the magnetic field at the semicircles center A.
4. In the circuit (see figure), the semicircle segments are of radii R= 10.0 cm and...
4. In the circuit (see figure), the semicircle segments are of radii R= 10.0 cm and Ry - 20.0 cm. Find the magnetic field at the semicircles center C, assuming a current / = 10.0 A in the circuit. 1 Ans: 4.71x105T, into the page. A
(8c29p5) Consider the circuit in the figure (b). The curved segments are arcs of circles of...
(8c29p5) Consider the circuit in the figure (b). The curved
segments are arcs of circles of angle 25o and radii a =
26 cm and b = 13 cm. The straight segments are
along radii. Find the magnetic field B at point P ( the center of
curvature), assuming a current of 7 A clockwise in the
circuit. (Positive out of page and negative into page)
The current loop ABCDA carries current 37.2 A in the direction indicated in the figure, where...
The current loop ABCDA carries current 37.2 A in the direction indicated in the figure, where the segments AB and CD are concentric arcs with radii 7 cm and 11 cm respectively. What is the magnitude of the resultant magnetic field ||B|| at the center of curvature O due to the current segment of arc CD? Answer in units of T.
For the figure on the right: a) Draw the magnetic field on the closed loop produced....
For the figure on the right: a) Draw the magnetic field on the closed loop produced. by the straight wire. b) Draw a magnetic force on each of the closed loop segments. c) Calculate the magnetic field on the vertical segments of the closed loop. d) Calculate the net magnetic force on the closed loop. 0 0
The cube in the figure is 50.3 cm on each edge. Four straight
segments of wire (ab, bc, cd, and da) form a closed loop that
carries a current of 4.68 A, in the direction shown. A uniform
magnetic field of 0.029 T acts in the positive y direction.
Find the magnitude of the magnetic force on the segment da.
Answer in units of N.
In the figure, a wire loop has been bent so that it has three
segments: segment bc (a quarter-circle), ac (a square
corner), and ab (straight). Here are three choices for a
magnetic field through the loop:
a) Rank the choices according to the work done per unit charge
in setting up the induced current, greatest first.
b) Rank the choices according to the induced current, greatest
first.
c) For each choice, what is the direction of the induced current...
2. In Figure 3, the cube is 40.0 cm on each edge. Four straight segments of wire-ab, bc, cd, and da-form a closed loop that carries a current 1 -5.00 A in the direction shown. A uniform magnetic field of magnitude B-0.0200T is in the positive y-direction. Determine the magnitude and direction of the magnetic force on each segment. (10) Figure3
A rectangular loop of wire is placed next to a straight wire. There is a current of 3.5A in both wires. Please find the magnitude and direction of the net force on the loop. 1) What is the direction of magnetic field produced by long wire? 2) What is the force on segment AB due to this magnetic field (magnitude and direction) 3) What is the force on segment CD due to this magnetic field (magnitude and direction) 4) What...
1. (15 points). A wire, in a plane, has the shape shown in figure. The radii of the semicircular segments are 20.0 cm and 30.0 cm. Current I = 60.0 A. Find (a) (10 points) magnitude and (a) (5 points) direction of the magnetic field at the semicircles center A. 20.0cm Current I 60.0A 30.00m
calculations. Show the numerie answers with the appropriate number of a 1. (15 points). A wire, in a plane, has the shape shown in figure. The radii of the semicircular segments are 20.0 cm and 30.0 cm. Current 60.0 A. Find (a) (10 points) magnitude and (a) (5 points) direction of the magnetic field at the semicircles center A.
4. In the circuit (see figure), the semicircle segments are of radii R= 10.0 cm and Ry - 20.0 cm. Find the magnetic field at the semicircles center C, assuming a current / = 10.0 A in the circuit. 1 Ans: 4.71x105T, into the page. A
(8c29p5) Consider the circuit in the figure (b). The curved
segments are arcs of circles of angle 25o and radii a =
26 cm and b = 13 cm. The straight segments are
along radii. Find the magnetic field B at point P ( the center of
curvature), assuming a current of 7 A clockwise in the
circuit. (Positive out of page and negative into page)
The current loop ABCDA carries current 37.2 A in the direction indicated in the figure, where the segments AB and CD are concentric arcs with radii 7 cm and 11 cm respectively. What is the magnitude of the resultant magnetic field ||B|| at the center of curvature O due to the current segment of arc CD? Answer in units of T.
For the figure on the right: a) Draw the magnetic field on the closed loop produced. by the straight wire. b) Draw a magnetic force on each of the closed loop segments. c) Calculate the magnetic field on the vertical segments of the closed loop. d) Calculate the net magnetic force on the closed loop. 0 0
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