A 45.0 mA current is carried by a uniformly wound air-core solenoid with 435 turns, a 19.5 mm diameter, and 14.0 cm length.
(a) Compute the magnetic field inside the solenoid.
(b) Compute the magnetic flux through each turn.
(c) Compute the inductance of the solenoid.
(d) Which of these quantities depends on the current? (Select all that apply.)
magnetic field inside the solenoid
magnetic flux through each turn
inductance of the solenoid
a)
Field inside the solenoid is given by
B = uo n i
B = 4 pi * 10^-7* 435 / 0.14* 0.045
B = 1.756*10^-4 T
b)
Flux through each turn
Flux = B A = 1.756*10^-4* 3.14* (19.5/ 2* 10^-3)^2
Flux = 5.242*10^-8 Wb
c)
Flux = L i
435* 5.242*10^-8 = L * 45*10^-3
L = 5.067*10^-4 H
d)
Flux and field both depends on current through the solenoid.
Option (a) & (b) are correct
===========
Comment in case any doubt, will reply for sure . Goodluck
A 45.0 mA current is carried by a uniformly wound air-core solenoid with 435 turns, a...
A 43.0 mA current is carried by a uniformly wound air-core solenoid with 420 turns, a 13.0 mm diameter, and 11.0 cm length. (a) Compute the magnetic field inside the solenoid. HT (b) Compute the magnetic flux through each turn. Tm2 (c) Compute the inductance of the solenoid. mH (d) Which of these quantities depends on the current? (Select all that apply.) magnetic field inside the solenoid magnetic flux through each turn m inductance of the solenoid
Solve all parts of Question 1 clearly: Two toroidal solenoids are wound around the same form so that the magnetic field of one passes through the turns of the other. Solenoid 1 has 800 turns, and solenoid 2 has 500 turns. When the current in solenoid 1 is 6.52 A, the average flux through each turn of solenoid 2 is 0.0320 Wb. What is the mutual inductance of the pair of solenoids? When the current in solenoid 2 is 6.52...
A solenoidal inductor consists of ten turns of wire in air coiled with a diameter of 5 mm and length 1 cm. The solenoid is oriented with the long axis of the coil in the z direction. (a) The inductor is driven with 1 mA of current. Find the magnetic field intensity vector field inside the solenoid. Be sure to give both the direction and magnitude of the vector field. (b) Find the magnetic flux density vector field inside the...
35) A 4.0cm diameter, 15cm long solenoid it tightly wound from with 1500 turns. If a current of 4 amps is passed through the solenoid, what is the strength of the magnetic field inside?
3. a. A solenoid consisting of 1500 turns of wire wound on a co-centric core of length 50cm and diameter 3.7cm is in magnetic circuit of another solenoid of the same length and the number of turns but with diameter of 5cm. Calculate the coupling co-efficient and the total inductance if both of them are connected in series opposing fashion. Assume free space conditions. (12 Marks) b. Briefly discuss the following terms of magneto statics: i. Relative Permeability; (2 Marks)...
1)A solenoidal coil with 22 turns of wire is wound tightly around another coil with 350 turns. The inner solenoid is 25.0 cm long and has a diameter of 2.30 cm . At a certain time, the current in the inner solenoid is 0.110 A and is increasing at a rate of 1600 A/s . a)For this time, calculate the average magnetic flux through each turn of the inner solenoid. b)For this time, calculate the mutual inductance of the two...
A 10.0 cm-long solenoid of diameter 0.400 cm is wound uniformly with 800 turns. A second coil with 50.0 turns is wound around the solenoid at its center. a) What is the mutual inductance of the combination of the two coils?
When 20 mA of current flows through a 0.5 cm radius and 180 turns solenoid, the magnetic energy inside is 1.8 nJ. Calculate: a) Approximately the length of the solenoid. b) The solenoid's self-inductance.
Inductance 4. (4) Consider an air-core solenoid with a circular cross-section, radius 8.00 mm and length 20.00 cm, and exactly 350 windings. If a current of 4.75 mA is sent through the solenoid (a) If the current is going through the coils clockwise as seen from above the coils, sketch the magnetic field that is generated (b) Determine the magnitude of the average magnetic field inside the solenoid (c) Determine the inductance of the solenoid
A long solenoid (diameter = 5.0 cm) is wound with 960 turns per meter of thin wire through which a current of 300 mA is maintained. A wire carrying 12 A is inserted along the axis of the solenoid. What is the magnitude of the magnetic field at a point 2.0 cm from the axis