A solenoid of length 0.700 m and resistance 2.4 ohms has a self-inductance of 3.37*10^-6 H....
A solenoid of length 0.700 m and resistance 2.4 ohms has a self-inductance of 3.37*10^-6 H. What is the energy stored in the inductor when a constant current of 0.811 A runs through it.
The answer is 1.11*10^-6 J but can you please show the work involved. Thanks!
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A solenoid of length 0.700 m and resistance 2.4 ohms has a
self-inductance of 3.37*10^-6 H....
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A coil with a self-inductance of 4 H and a resistance of 14 ohm is connected across a 22 V battery of negligible internal resistance. What is the final current? A How much energy is stored in the inductor when the final current is attained? J
A solenoid has a length of 25 cm, a diameter of 2.4 cm and 400 turns....
A solenoid has a length of 25 cm, a diameter of 2.4 cm and 400 turns. The solenoid carries a current of 3 A. Calculate: A. The magnetic field on the axis at the center of the solenoid. (5 pts) B. The magnetic flux through the solenoid assuming the magnetic field is uniform. (5 pts) C. The self-inductance of the solenoid. (5 pts) D. The magnetic energy stored in the solenoid if the current is increased to 4 A. (5...
A solenoid is hooked to an alternating current source. a. Calculate the self-inductance of a 40.0...
A solenoid is hooked to an alternating current source. a. Calculate the self-inductance of a 40.0 cm long, 8.0 cm diameter solenoid having 800 loops. b. How much energy is stored in this inductor when 10.0 A of current flows through it? c. How fast can it be turned off if the induced emf cannot exceed 9.00 V?
22. A solenoid is hooked to an alternating current source. a. Calculate the self-inductance of a...
22. A solenoid is hooked to an alternating current source. a. Calculate the self-inductance of a 40.0 cm long, 8.0 cm diameter solenoid having 800 loops. b. How much energy is stored in this inductor when 10.0 A of current flows through it? c. How fast can it be turned off if the induced emf cannot exceed 9.00 V?
(a) Calculate the self-inductance (in mH) of a 54.0 cm long, 10.0 cm diameter solenoid having...
(a) Calculate the self-inductance (in mH) of a 54.0 cm long, 10.0 cm diameter solenoid having 1000 loops. mH (b) How much energy (in )) is stored in this inductor when 19.5 A of current flows through it? J (c) How fast (in s) can it be turned off if the induced emf cannot exceed 3.00 V?
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A 62.5 m length of insulated copper wire is wound to form a solenoid of radius 2.3 cm. The copper wire has a radius of 0.51mm. (Assume the resistivity of copper is ρ = 1.7 ✕ 10−8 Ω · m.) (a) What is the resistance of the wire? Ω (b) Treating each turn of the solenoid as a circle, how many turns can be made with the wire? turns (c) How long is the resulting solenoid? m (d) What is...
(a) Calculate the self-inductance (in mH) of a 47.0 cm long, 10.0 cm diameter solenoid having...
(a) Calculate the self-inductance (in mH) of a 47.0 cm long, 10.0 cm diameter solenoid having 1000 loops. 20.9 → mH (b) How much energy (in J) is stored in this inductor when 19.0 A of current flows through it? با (c) How fast (in s) can it be turned off if the induced emf cannot exceed 3.00 V? S
A 62.5 m length of insulated copper wire is wound to form a solenoid of radius 2.3 cm. The copper wire has a radius of 0.51mm. (Assume the resistivity of copper is ρ = 1.7 ✕ 10−8 Ω · m.) (a) What is t...
A 62.5 m length of insulated copper wire is wound to form a solenoid of radius 2.3 cm. The copper wire has a radius of 0.51mm. (Assume the resistivity of copper is ρ = 1.7 ✕ 10−8 Ω · m.) (a) What is the resistance of the wire? Ω (b) Treating each turn of the solenoid as a circle, how many turns can be made with the wire? turns (c) How long is the resulting solenoid? m (d) What is...
1. a. One solenoid is centered inside another. The outer one has a length of 47.0...
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22. A solenoid is hooked to an alternating current source. a. Calculate the self-inductance of a 40.0 cm long, 8.0 cm diameter solenoid having 800 loops. b. How much energy is stored in this inductor when 10.0 A of current flows through it? c. How fast can it be turned off if the induced emf cannot exceed 9.00 V?
(a) Calculate the self-inductance (in mH) of a 54.0 cm long, 10.0 cm diameter solenoid having 1000 loops. mH (b) How much energy (in )) is stored in this inductor when 19.5 A of current flows through it? J (c) How fast (in s) can it be turned off if the induced emf cannot exceed 3.00 V?
(a) Calculate the self-inductance (in mH) of a 47.0 cm long, 10.0 cm diameter solenoid having 1000 loops. 20.9 → mH (b) How much energy (in J) is stored in this inductor when 19.0 A of current flows through it? با (c) How fast (in s) can it be turned off if the induced emf cannot exceed 3.00 V? S
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