Spin-orbit energy in an atom. estimate the magnitude of the spin-orbit energy for an atomic electron in the hydrogen 2p state. (hint: from the vantage point of the moving electron, the nucleus circles it in an orbit with radius equal to the bohr radius for this state. treat the orbiting nucleus as a current in a circular wire loop and use the result from classical electromagnetism, b = 2km de for the b field at the center of loop with radius r and magnetic moment u. here, km = 10-7 n/a2 is the magnetic constant in sl units.)

a solenoid is created by wrapping a l = 90 m long wire around a hollow tube of diameter d = 4.5 cm.   the wire diameter is d = 0.9 mm.   the solenoid wire is then connected to a power supply so that a current of i = 9 a flows through the wire.

randomized variablesl = 90 m

d = 4.5 cm

d = 0.9 mm

i = 9 a                                          

write an expression for the number of turns, n, in the solenoid. you do not need to take into account the diameter of the wire in this calculation.

calculate the number of turns, n, in the solenoid.

write an expression for the length of the solenoid (l2) in terms of the diameter of the hollow tube d.

calculate the length of the solenoid (l2)   in meters.

calculate the magnitude of the magnetic field at the center of the solenoid in teslas.

explanation:

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resonant frequency