1. How is inductance defined, and what is the expression for inductance of a solenoid with...

a) What would have to be the self-inductance of a solenoid for it to store 10.2...

a) What would have to be the self-inductance of a solenoid for it to store 10.2 J of energy when a 1.40 A current runs through it? L= 10.4 H b) If this solenoid's cross-sectional diameter is 4.00 cm , and if you could wrap its coils to a density of 10 coils/mm , how long would the solenoid be? I need help with part B please!

An engineer proposes to store 65 kJ of energy by flowing 1.6 kA of current through...

An engineer proposes to store 65 kJ of energy by flowing 1.6 kA of current through a superconducting solenoid that forms an inductor. Part A: What is the required inductance L? Part B: If the solenoid is to have a radius of 1.2 m and be wound with no more than 3 turns per meter, what length must the solenoid have? Please use include units in answers.

Given a solenoid of total number of windings, N, of length, l, and circular cross sectional...

Given a solenoid of total number of windings, N, of length, l, and circular cross sectional area, A. A current, I, is flowing through the wire winding that is made of copper. Assume that the copper has a resistivity p and the charge carrier density, n. Assuming that the winding wire is circular in shape with a cross-sectional area, a, and the adjacent wires are closely spaced together so the wire diameter is simply d=l/N. The volume of solenoid space...

A solenoid is to have an inductance of 0.265 mH, a cross sectional area of A...

A solenoid is to have an inductance of 0.265 mH, a cross sectional area of A = 5.50 ✕ 10−3 m2, and a length of ℓ = 37.0 cm. How many turns per unit length should the solenoid have?

The current in a very long solenoid with density of turns n = 26 (1 /...

The current in a very long solenoid with density of turns n = 26 (1 / m) and radius R = 1.26cm changes with time in the form I = 12.1cos (πt / 3) A. What is the magnitude of the field induced at an arbitrary distance r outside the solenoid?

1. A long solenoid with 500 turns of wire, length L=80cm and diameter d=2.5cm. The center...

1. A long solenoid with 500 turns of wire, length L=80cm and diameter d=2.5cm. The center of the solenoid is surrounded by a circular loop of wire with a diameter dloop=5.0cm and a resistance R=0.50ohm. The axis of the solenoid is also the axis for the loop. a. What is the magnetic field inside the solenoid when a current of 2.0A passes through the solenoid? [note: the magnetic field inside the solenoid is uniform and there is no magnetic field...

When the current in a long, straight, air-filled solenoid is changing at the rate of 3000...

When the current in a long, straight, air-filled solenoid is changing at the rate of 3000 A/s, the voltage across the solenoid is 0.600 V. The solenoid has 1200 turns and uniform cross-sectional area 25.0 mm2. Assume that the magnetic field is uniform inside the solenoid and zero outside, so the inductance formula L=μ0AN2/l for a solenoid with N turns, uniform cross-sectional area A, and length l, applies. What is the magnitude B of the magnetic field in the interior...

A solenoid of radius 0.0380 m has 470 turns and a length of 0.260 m ....

A solenoid of radius 0.0380 m has 470 turns and a length of 0.260 m . Find the rate at which current must change through it to produce an emf of 0.0790 V . (Hint: first find the inductance of the solenoid.) Please solve without using derivatives.

Determine the current I flowing through a solenoid, if the magnetic flux inside its core is...

Determine the current I flowing through a solenoid, if the magnetic flux inside its core is found to be 2.40 10-4 Wb. The radius of the solenoid is 16.0 cm and the number of turns per meter is 235. A

There are three solenoids. Solenoid "A" has a length L and N-turns, Solenoid "B" has a...

There are three solenoids. Solenoid "A" has a length L and N-turns, Solenoid "B" has a length of 2L and N turns, and Solenoid "C" has L / 2 and 2N turns. If each solenoid carries the same current, rank it according to the strength of the magnetic field in the center of each solenoid, from highest to lowest