Find the magnetic flux density midway between two infinite, antiparallel line currents I that are a distance w apart. Answer in terms of µ.
Find the magnetic flux density midway between two infinite, antiparallel line currents I that are a...
Part A Determine the magnetic field midway between two long straight wires 2.0 cm apart in terms of the current I in one when the other carries 25 A. Assume these currents are in the same direction. O Bnet = (2.0 x 10-5 T/A)(I – 25 A) Bret = (1.0 x 10-5 T/A)(1 – 25 A) Bnet = (2.0 x 10-5 T/A)(I + 25 A) O Bnet = (1.0 x 10-5 T/A)(I +25 A) Submit Request Answer Part B Determine...
Determine the magnitude of the magnetic field midway between two long straight wires separated by a distance d if one carries current I1 when the other carries I2. Assume I1>I2. a.) Assume these currents are in the same direction. Express your answer in terms of the variables d, I1, I2, and appropriate constants. b.) Assume these currents are in opposite directions. Express your answer in terms of the variables d, I1, I2, and appropriate constants.
Find the magnitude of the magnetic field at pcint Pi, midway between the wires. Express your answer in telsas to three significant figures Constants Two long, straight, paralel wires are 10.0 em apart and carry 3.80 A currents in the same direction (see (Figure 1)) Submit Part Find the direction of the magnetic field at point 12,35.0 cu to the right of I' The field is directed up. Correct Part D Find the magnitude of the magnetic field at point...
"I" in the same direction. oven 1% a. The net magnetic field at a point midway between the two wires. b. The net magnetic field at a point a distance "a" above the upper wire Cl 4. A solid conductor of radius "a" is supported on the axis of a conducting tube with inner radius "b" and outer radius "c". The central conductor and tube carry equal currents "I" in opposite directions. The currents are distributed uniformly over the cross...
Assuming a current I in a semi-circular wire with radius a. What is the magnetic flux density on a point at the center of the semi-circle and above the semi-circle plane by a distance d. Also find the magnetic flux density if the circle is full. 4. Assuming a current I in a semi-circular wire with radius a. What is the magnetic flux density on a point at the center of the semi-circle and above the semi-circle plane by a...
two wires are carrying equal currents I in opposite directions. point Q is midway between the two wires, and in the same plane as the wires. determine the direction of the B-field at point Q
Problem #2 Two semi-infinite line currents lie on the z-axis in the regions -ODZ S -a and a S z<oo. Each carries a current I in the a direction. Calculate the magnetic field intensity H as a function ofρ and φ at z = 0.
Two long, straight parallel wires are 10.0 cm apart and carry 3.20 A currents in the same direction (see the figure). Find the direction of the magnetic field at point P1, midway between the wires. Find the magnitude of the magnetic field at point P1, midway between the wires. Find the direction of the magnetic field at point P2, 25.0 cm to the right of P1. Find the magnitude of the magnetic field at point P2, 25.0 cm to the...
Two infinite parallel straight wires. 4in apart, carry 20-A currents flowing in the opposite directions. A) Draw the diagram and show the direction of the magnetic field at a point in the middle between the wires. B) Determine the magnitude of the magnetic field at that point.
10. Determine the magnetic field midway between two long straight wires 2.0 cm apart if the current in each wire is 25 A in opposite directions.