4) Two identical rings, each having radius r, each carrying current I , are placed so...

Consider a long straight rod of radius R carrying a constant current I of uniform current...

Consider a long straight rod of radius R carrying a constant current I of uniform current density. The material of the rod has a very small susceptibility, so you can use χm = 0. A straight long rod with radius R and constant current I with uniform current density, it's susceptibility is considered zero, χm = 0. 1)Calculate outside and inside of the rod, the magnetic field. 2)Include both outside and inside. Roughly sketch a graph of radial position versus...

A flat circular coil having 15 turns, each of a radius of 18.0 cm, is in...

A flat circular coil having 15 turns, each of a radius of 18.0 cm, is in a uniform and steady 0.130-T magnetic field. The coil has a resistance of 8.00 a) Find the total magnetic flux through one turn of the coil when the field is parallel to the axis of the coil. b) If the coil is rotated in 12.0 ms so its axis is perpendicular to the field, find the average induced voltage and the induced current in...

A cylindrical wire of radius R=2.3cm carries a current of I=5A uniform distributed across its cross-section....

A cylindrical wire of radius R=2.3cm carries a current of I=5A uniform distributed across its cross-section. Find an expression (i.e. a formula) for the magnitude of the magnetic field created by this current as a function of radius both inside and outside the wire. Use this expression to determine the magnitude of the magnetic field at the surface of the wire (i.e. at r=R). Denote this magnitude by Bo. Is there a radius bigger than R where the magnitude of...

Consider two long and parallel current carrying wires that are a distance 3.00 m away from...

Consider two long and parallel current carrying wires that are a distance 3.00 m away from each other, and carrying 72.0 mA and 33.0 mA currents. Assume that the origin of the coordinate system is on the 33.0 mA wire and its positive x axis is directed towards the 72.0 mA wire that is perpendicular to the wires. a.) If these currents are in the opposite direction, find all locations where the net magnetic field of the two wires is...

Consider two long and parallel current carrying wires that are a distance 5.00 mm away from...

Consider two long and parallel current carrying wires that are a distance 5.00 mm away from each other, and carrying 77.0 mAmA and 35.0 mAmA currents. Assume that the origin of the coordinate system is on the 35.0 mAmA wire and its positive xx axis is directed towards the 77.0 mAmA wire that is perpendicular to the wires. a) If these currents are in the opposite direction, find all locations where the net magnetic field of the two wires is...

In the figure, part of a long insulated wire carrying current i = 5.88 mA is...

In the figure, part of a long insulated wire carrying current i = 5.88 mA is bent into a circular section of radius R = 8.43 cm. What are (a) the x-component, (b) the y-component, and (c) the z-component of the magnetic field at the center of curvature C if the circular section lies in the plane of the page as shown? What are (d) the x-component, (e) the y-component, and (f) the z-component of the magnetic field at the...

Consider two long and parallel current carrying wires that are a distance 7.00 m away from...

Consider two long and parallel current carrying wires that are a distance 7.00 m away from each other, and carrying 73.0 mA and 40.0 mA currents. Assume that the origin of the coordinate system is on the 40.0 mA wire and its positive x axis is directed towards the 73.0 mA wire that is perpendicular to the wires. Part C If these currents are in the opposite direction, find all locations where the net magnetic field of the two wires...

Two identical coils are parallel to each other on the same axis. They are separated by...

Two identical coils are parallel to each other on the same axis. They are separated by a distance equal to their radius R. They each have N turns and carry equal currents I in the opposite direction. Calculate the field strength if the loops are 11cm in diameter, have 18 turns, and carry a 1.8A current.

Two long solenoids are placed in the coaxial position, one inside the other, they have 30...

Two long solenoids are placed in the coaxial position, one inside the other, they have 30 cm and 20 cm diameters, respectively. The outer solenoid is 2 m long with 5000 turns, and carrying a current of 4 A. The inner one is 1 m long with 2000 turns, and carrying a current of 2 A in the opposite sense. Find the magnitude of the magnetic field (in mT) at any point on the solenoid axis inside

3.1. A flat coil of wire consists of 500 turns each 4 cm in diameter. If...

3.1. A flat coil of wire consists of 500 turns each 4 cm in diameter. If a current of 5 amperes flows in the coil, calculate:- (a) the magnetic moment of the coil; (b) the magnetostatic potential at a point 50 cm from the coil along its axis in a direction related by a right-hand screw to the sense of current circulation; (c) the magnetostatic potential at a point in the plane of the coil 5 metres away; (d) the...