A 20.0-turn solenoid of length 6.50 cm produces a magnetic field
of magnitude 2.40 mT at its center. Find the current in the
solenoid.
A
A 20.0-turn solenoid of length 6.50 cm produces a magnetic field of magnitude 2.40 mT at...
A 38.0-turn solenoid of length 5.80 cm produces a magnetic field of magnitude 1.70 mT at its center. Find the current in the solenoid.
A solenoid that has length 30 cm, radius 1.2 cm, and 290 turns carries a current of 2.5 A. Find the magnitude of the magnetic field on the axis of the solenoid at the following locations: (a) at the center of the solenoid mt (b) at one end of the solenoid mt
SERCP8 20.P.006. A 410 turn solenoid of length 33.0 cm and radius 2.90 cm carries a current of 4.90 A. Find the following. (a) the magnetic field strength inside the coil at its midpoint MT (b) the magnetic flux through a circular cross-sectional area of the solenoid at its midpoint To m² Need Help? Read It Talk to a Tutor
(20 points) A 1200-turn solenoid of radius 2.00 cm and total length 16.0 cm has a 1.50 A current a. Find the magnetic field of the solenoid using Ampere's Law. integral.) b. A steel core is inserted into the solenoid. If the magnetic susceptibility of steel is 600, find the magnetization (M) and the total magnetic field of the solenoid. c. Assume each magnetic moment in the steel core is equal to one Bohr magneton, how many magnetic (You need...
A solenoid of length 2.40 m and radius 1.30 cm carries a current of 0.130 A. Determine the magnitude of the magnetic field inside if the solenoid consists of 2100 turns of wire.
A 210-turn solenoid having a length of 22 cm and a diameter of 12 cm carries a current of 0.30 A. Calculate the magnitude of the magnetic field inside the solenoid.
(9-17)Constants A solenoid is designed to produce a magnetic field of 2.40×10?2 T at its center. It has a radius of 2.20 cm and a length of 43.0 cm , and the wire can carry a maximum current of 15.0 A . A_)What minimum number of turns per unit length must the solenoid have?
A 280 turn solenoid with a length of 21.0 cm and a radius of 1.80 cm carries a current of 2.10 A. A second coil of four turns is wrapped tightly around this solenoid, so it can be considered to have the same radius as the solenoid. The current in the 280 turn solenoid increases steadily to 5.00 A in 0.900 s. (a) Use Ampere's law to calculate the initial magnetic field in the middle of the 280 turn solenoid....
A solenoid is wound with 370 turns on a form 4.0 cm in diameter and 50 cm long. The windings carry a current I in the sense that is shown in the figure. The current produces a magnetic field, of magnitude 4.9 mT, near the center of the solenoid. Find the current in the solenoid windings. (μ 0 = 4π × 10-7 T · m/A)
A 3.0 amp current flowing through a solenoid, length 2.5 cm, produces a magnetic flux density in the air-filled core of 6.0 mT. How many complete turns of wire make up the solenoid?