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1. Given the following pieture:(15 points) A very long wire is carrying a current of 15...
Three electric charges are arranged as shown in the figure below:(10 points) 11 = 15.0 A...
Three electric charges are arranged as shown in the figure below:(10 points) 11 = 15.0 A 7.50 cm 10.0 cm 12 = 30.0 A -30.0 cm Answer the following questions • Draw the forces acting between the long wire and each section of the loop • Compute the magnetic force acting on each section of the loop. • What is the overall force acting on the loop? • If the loop has a mass of 5 grams. Compute the acceleration...
1. Three electric charges are arranged as shown in the figure below: 1 = 15.0 A...
1. Three electric charges are arranged as shown in the figure below: 1 = 15.0 A 7.50 cm 10.0 cm 12 = 30.0 A -30.0 cm Answer the following questions • Draw the forces acting between the long wire and each section of the loop Compute the magnetic force acting on each section of the loop. • What is the overall force acting on the loop? If the loop has a mass of 5 grams. Compute the acceleration and direction...
4. (a) A long straight wire carrying a current is placed near a current-carrying rectangular loop...
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 the figure, a rectangular loop of wire with length a = 3.8 cm, width b = 2.2 cm, and resistance R = 0.70 mΩ is placed near an infinitely long wire carrying current I = 4.7 A
In the figure, a rectangular loop of wire with length a = 3.8 cm, width b = 2.2 cm, and resistance R = 0.70 mΩ is placed near an infinitely long wire carrying current I = 4.7 A. The loop is then moved away from the wire at a constant speed v = 3.9 mm/s, when the center of the loop is at distance r = 7.9 cm, what are (a) the magnitude of the magnetic flux through the loop...
There is a long straight wire carrying current I = 497 amperes. At a distance of...
There is a long straight wire carrying current I = 497 amperes. At a distance of 1.4 meter away, a small piece of wire (length 3 cm) carries a current of 15 amperes in a direction parallel to the long wire. (a) Calculate the value of the B field generated by the long wire at the position of the small wire. B = ?T (b) Using your result for B just found, calculate the force on the small wire. F...
The rectangular loop shown is coplanar with the long, straight wire carrying the current 20 A.
The rectangular loop shown is coplanar with the long, straight wire carrying the current 20 A. (a) Determine the magnetic flux through the loop. (b) If a current I was flowing in the clockwise direction in rectangle would there be a force and/or torque acting on the rectangle?
The figure below shows a long straight wire near a rectangular current loop. The current in...
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...
A flat rectangular wire loop is positioned next to a long straight current-carrying wire
Problem 6: A flat rectangular wire loop is positioned next to a long straight current-carrying wire. Both the loop and the wire are in the plane of the page, and the direction of the current is clearly indicated in the figure.Part (a) Which image best indicates the direction of the magnetic field due to the current in the long straight wire at a point inside the loop? Part (b) How does the magnitude of the magnetic field change as the perpendicular...
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 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, north-south wire is carrying a current northward of 15 A. a) What is...
A long, straight, north-south wire is carrying a current northward of 15 A. a) What is the magnitude and direction of the magnetic field at a location 0.4 m directly to the east of this wire? b) If a proton at the location in Part A was traveling away from the wire at a velocity of 8,000 km/s, calculate the magnitude and justify the direction of the magnetic force on this proton?
Three electric charges are arranged as shown in the figure below:(10 points) 11 = 15.0 A 7.50 cm 10.0 cm 12 = 30.0 A -30.0 cm Answer the following questions • Draw the forces acting between the long wire and each section of the loop • Compute the magnetic force acting on each section of the loop. • What is the overall force acting on the loop? • If the loop has a mass of 5 grams. Compute the acceleration...
1. Three electric charges are arranged as shown in the figure below: 1 = 15.0 A 7.50 cm 10.0 cm 12 = 30.0 A -30.0 cm Answer the following questions • Draw the forces acting between the long wire and each section of the loop Compute the magnetic force acting on each section of the loop. • What is the overall force acting on the loop? If the loop has a mass of 5 grams. Compute the acceleration and direction...
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...
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...
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