1. Magnetic field of a solenoid. Complete the requested information about the magnetic field of a solenoid. 1.1 A) VECTOR B along the axis of the solenoid (z-axis). B) VECTOR B at the center of the solenoid (z = 0) If the solenoid is very long (ℓ ≫ a) A) VECTOR B at the center of the solenoid (z = 0) B) VECTOR B at the ends of the solenoid (z = ℓ /2). 1.2 Calculate VECTOR B at the center and at the ends of a solenoid 50 cm in diameter and 1 m long, through which a current of 100 A flows. The number of turns of the solenoid is N = 1000. Which of the equations in 1.1 is appropriate for this problem?

1. Magnetic field of a solenoid. Complete the requested information about the magnetic field of a solenoid. 1.1 A) VECTOR B along the axis of the solenoid (z-axis). B) VECTOR B at the center of the solenoid (z = 0) If the solenoid is very long (ℓ ≫ a) A) VECTOR B at the center of the solenoid (z = 0) B) VECTOR B at the ends of the solenoid (z = ℓ /2). 1.2 Calculate VECTOR B at the center and at the ends of a solenoid 50 cm in diameter and 1 m long, through which a current of 100 A flows. The number of turns of the solenoid is N = 1000. Which of the equations in 1.1 is appropriate for this problem?

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Question

If the solenoid is very long (ℓ ≫ a)
A) VECTOR B at the center of the solenoid (z = 0)
B) VECTOR B at the ends of the solenoid (z = ℓ /2).

1.2 Calculate VECTOR B at the center and at the ends of a solenoid 50 cm in diameter and 1 m long, through which a current of 100 A flows. The number of turns of the solenoid is N = 1000.

Which of the equations in 1.1 is appropriate for this problem?