A long solenoid is constructed in a physics lab. The solenoid is 196.0 cm long and it has 6938 turns of Copper wire. Initially the solenoid is empty, i.e. it is filled with air only. 1. What is the magnetic intensity i.e. the H-field inside the solenoid, when an electric current of 5.14 A flows through the solenoid? 2. What is the magnetic field i.e. the B-field inside the solenoid? 3. The solenoid is now filled with a ferromagnetic material of susceptibility 791.2. What is the magnetic field (B-field) inside the solenoid now?

A long solenoid is constructed in a physics lab. The solenoid is 196.0 cm long and it has 6938 turns of Copper wire. Initially the solenoid is empty, i.e. it is filled with air only. 1. What is the magnetic intensity i.e. the H-field inside the solenoid, when an electric current of 5.14 A flows through the solenoid? 2. What is the magnetic field i.e. the B-field inside the solenoid? 3. The solenoid is now filled with a ferromagnetic material of susceptibility 791.2. What is the magnetic field (B-field) inside the solenoid now?

Related questions

Q: 4. A loop of wire with a radius of 10.0cm carries a current of 5.00A. What is the value of the…

A: Note: Since you have posted a question with multiple sub-parts, we will solve the first three…

Q: 3. Currents I₁ = 10.0A and I2 = 15.0A are flowing through two conductors as shown in the Figure.…

Q: 3. A wire is moving on frictionless rails in a uniform magnetic field, as shown to the right. The…

A: We have a wire of length L=5 cm=0.05 m which is moving along a rail experiencing a magnetic field of…

Q: 2. Sketch the magnetic field lines due to the current running in a solenoid. Clearly show the…

A: Length ,L = 1.2mNo of turns ,N= 500Current,i =10 A

Q: Select the correct expression for the e.m.f. of a metallic disk or radius r placed with its plane…

Q: A 200 turn, 4.0 cm diameter solenoid is placed in a magnetic field of 0.45 T pointing into the page.…

A: a. Lenz’s law requires that the solenoid opposes any quick changes in the external magnetic field by…

Q: solenoid has the following dimensions. inner diameter d = 5.12 cm length L = 46.7 cm When a current…

A: Given : d = 5.12 cm = 0.0512 m L = 46.7 cm = 0.467 m B = 5.40 T

Q: A circular loop of radius 10 cm is placed in a uniform magnetic field of 3 T with the plane of the…

A: Given data : Radius of loop ,r = 10 cm = 0.1 m Area of loop = π r2 = (3.14)×(0.1)2 = 0.0314 m2…

Q: The right edge of the circuit in the figure extends into a 50 mTmT uniform magnetic field. (Figure…

Q: You are designing the main solenoid for an MRI machine. The solenoid should be 1.50 m long. When the…

Q: 1. A metal rod of length L is pulled upward with constant velocity v through a uniform magnetic…

Q: A 77 cm wire carries a current of 2.1 A. The wire is formed into a circular coil and placed in a B…

A: Length Current Magnetic field The question aims to determine:a) Maximum torqueb) Number of turns.

Q: You have a solenoid with an initial current of 386 A and a turn density of 6088 loops. m What the…

A: The induced emf at the center of the solenoid is 4440 V. Write the expression for Ohm's law and…

Q: 2. A magnetic ficld is given by B an expression for the magnetic flux through a square of side 2xo…

Q: The following figure shows a 2.6-cm-diameter solenoid passing through the center of a…

Q: You are working at a company that manufactures solenoids for industrial and research use. A client…

A: in this question we use magnetic field equation to determine it.

Q: A solenoid has 1000 turns per 10.0 cm, what is the magnetic and direction fields inside the solenoid…

Q: The following figure shows a 1.4-cm-diameter solenoid passing through the center of a…

Q: . At some point, not close to its ends, within a solenoid of arbitrary length, calculate the…

Q: 3. A strong bar magnet, near a solenoid, is moving to the left at constant speed i. a) What is the…

A: The entire solution is based on the Lenz's law, it states that The induced current in a system due…

Question

Flow of electric charges through a conductor.

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 2 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Follow-up Questions

Read through expert solutions to related follow-up questions below.

Follow-up Question

What is the surface current density flowing on the outer surface of the ferromagnetic material?

Solution

by Bartleby Expert

SEE SOLUTION

Similar questions

20. The image shows a non-constant B-field driving a counter clockwise current in a loop of wire with radius R. For B = et², what is the E-field on the wire at radius R? A. B. C. D. E. tet² R tet² R² tet² R tet2 R² None of the above X X X X X X R X X
The magnetic field at the center of a solenoid L = 75 cm long is B = 0.11 T when a current of I = 3.5 A flows through the solenoid wire. 1. Solve the formula for the magnetic field near the center of a long, tightly wound solenoid for the number of turns, N, in the solenoid. The expression should be in terms of the given variables. 2. Calculate the value of the number of turns, N.
A small circular coil of 20 loops of wire having a radius of 1 cm is at rest in the X-y plane (so the normal to the loop points in the +z-direction). A uniform magnetic field of 0.5 T is turned on in the +x-direction. What is the magnetic flux through the loop? a. 7.85 x 10 Tm² b. 1.57 x 10 4 T m² O c. 3.14 x 10 3 T m2 O d. 0 T m2
#K03
5. A solenoid has 500 turns, radius = 4 cm. and length = 16 cm, carries a current of 25 amps. What is the magnetic field inside the solenoid? What is the total flux inside the solenoid?
A cylindrical solenoid that is 40-cm long generates a uniform magnetic field of strength 1.4 T inside the solenoid when the current is 7.0 A. How many turns of a single coil are present in this solenoid? a. 40,000 turns b. 64,000 turns c. 56,000 turns d. 48,000 turns e. 32,000 turns