The magnetic flux density in a region of free space is given by B = −x2...

The magnetic flux density in a region of free space is given by B = −x² ax + 2y³ ay − 2z az T. Find the total force on the rectangular loop shown which lies in the plane y = 0 and is bounded by x = 1, x = 3, Z= 2, and Z= 5, all dimensions in cm. The current is 30 ampere in anticlockwise direction.

Solutions

Expert Solution

Manojponduru answered 1 year ago

Next > < Previous

Related Solutions

In aregion of space we find atime-varying magnetic flux density given by B = B0sin(ωt −...

In aregion of space we find atime-varying magnetic flux density given by B = B0sin(ωt − ax −by)ˆzT. [11] a. (3 pts) Determine the corresponding electric field intensity E. b. (3 pts) Determine the relation between a, b and ω imposed by Maxwell’s equations. c. (4 pts) Determine the magnetic flux Φm through the rectangular wire from (0,0,0) to π 2a, π d. (1 pts) What is the induced voltage in the above wire?

Could you illustrate the followign? 1. magnetic vector potential A, 2. magnetic flux density B,

Could you illustrate the followign? 1. magnetic vector potential A, 2. magnetic flux density B, 3. and current density j 4. Electric field entisity E 5. Electric Potential V

Explain the steps to obtaining an electric field, magnetic field, electric flux, and magnetic flux.

A space station is located in a gravity-free region of space. It consists of a large...

A space station is located in a gravity-free region of space. It consists of a large diameter, hollow thin-walled cylinder which is rotating freely about its axis. It is spinning at a speed such that the apparent gravity on the inner surface is the same as that on earth. The cylinder is of radius r and mass M. (a) What is the minimum total work which had to be done to get the cylinder spinning up to speed. (b) Radial...

You are given a material which produces no initial magnetic field when in free space. When...

You are given a material which produces no initial magnetic field when in free space. When it is placed in a region of uniform magnetic field, the material produces an additional internal magnetic field parallel to the original field. However, this induced magnetic field disappears when the external field is removed. What type of magnetism does this material exhibit? diamagnetism paramagnetism ferromagnetism Once again, you are given an unknown material that initially generates no magnetic field. When this material is...

How do magnetic flux and magnetic fields relate to magnetic field lines?

A solid S occupies the region of space located outside the sphere x2 + y2 +...

A solid S occupies the region of space located outside the sphere x2 + y2 + z2 = 8 and inside the sphere x2 + y2 + (z - 2)2 = 4. The density of this solid is proportional to the distance from the origin. Determine the center of mass of S. Is the center of mass located inside the solid S ? Carefully justify your answer.

Is it possible that space has density, i.e., can a given space of 1 cm have...

Is it possible that space has density, i.e., can a given space of 1 cm have multiple 1 cm compressed into its 1 cm self? TO GIVE AN INSIGHT INTO THIS QUESTION LET ME EXPLAIN WHAT I REALLY MEAN. So we all know the displacement route between 2 points in 2-D space is the straight line between the 2 points. Now in case of its 3-D self, the line joining the 2 points isn't the shortest route between them. So...

Suppose that over a certain region of space the electrical potential V is given by the...

Suppose that over a certain region of space the electrical potential V is given by the following equation. V(x, y, z) = 4x2 − 4xy + xyz (a) Find the rate of change of the potential at P(3, 6, 6) in the direction of the vector v = i + j − k. ??? (b) In which direction does V change most rapidly at P? ??? (c) What is the maximum rate of change at P? ???

The magnetic flux through a 10.0-cm2cm2 loop is 8.0 T⋅cm2T⋅cm2, and the magnetic field at the...

The magnetic flux through a 10.0-cm2cm2 loop is 8.0 T⋅cm2T⋅cm2, and the magnetic field at the location of the loop is uniform. Choose all correct answers. Check all that apply. A)If BB = 1.0 TT, then the angle between the B⃗ B→ field and the normal to the loop's surface is greater than 0∘∘. B)If the direction of B⃗ B→ field is parallel to the normal to the loop's surface, then BB = 0.8 T. C)The magnitude of the B⃗...

Subjects