Answered: A conducting rod of length = 15 cm and… | bartleby

Related questions

Question

A conducting rod of length € = 15 cm and mass m = 30 g is placed on the
incline angled at 37°, like shown below. Only consider the rod as the wires connected
to it have negligible mass. Ignore friction.
Z
y
X
37°
Suppose the magnetic field is B = 0.25ĵ T and the rod is static equilibrium, what is
direction and magnitude of the current passing through the rod?

Expert Solution

Step by step

Solved in 3 steps with 3 images

SEE SOLUTION Check out a sample Q&A here

Blurred answer

Similar questions

A molecule with mass m = 255mp (where mp is the mass of a proton) and charge q = −e, moving with a velocity v = 2 × 105 m/s, enters a region of uniform magnetic field B = 0.8 T, as shown in the figure above. The particle strikes the wall at a distance d from the entrance slit. Determine d.
Anil
A conductive wire is arranged on the surface of the cube whose sides are 40 cm as shown. The wire is in the same magnetic field B = 0.02 T j. If the conductor is energized by an electric current I = 4 A in the direction shown in the picture, determine the vector of the magnetic force experienced by each piece of wire.
I got 2.09 and its wrong
Two wires, parallel to a z axis and a distance 4.60 m apart, carry equal currents 3.61 A in opposite directions, as shown in the figure. A circular cylinder of radius 1.15 m and length 8.27 m has its axis on the z axis, midway between the wires. Use Gauss' law for magnetism to find the net outward magnetic flux through the half of the cylindrical surface above the x axis. (Hint: Find the flux through the portion of the xz plane that lies within the cylinder.)
Please as soon as possible
A rectangular loop of wire that is 68 cm wide and 9 cm long is placed in a region where the magnetic field is B = 2.2 T. Suppose the wire loop lies in the x–y plane and that the magnetic field makes an angle of 51° with the z axis. Find the magnitude of the magnetic flux.