A technician wraps wire around a tube of length 34 cm having a diameter of 7.8...
A technician wraps wire around a tube of length 34 cm having a diameter of 7.8 cm. When the windings are evenly spread over the full length of the tube, the result is a solenoid containing 560 turns of wire.
(a) Find the self-inductance of this solenoid.
mH
(b) If the current in this solenoid increases at the rate of 5 A/s,
what is the self-induced emf in the solenoid?
mV
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A technician wraps wire around a tube of length 34 cm having a
diameter of 7.8...
A technician wraps wire around a tube of length 34 cm having a diameter of 7.8...
A technician wraps wire around a tube of length 34 cm having a diameter of 7.8 cm. When the windings are evenly spread over the full length of the tube, the result is a solenoid containing 575 turns of wire. (a) Find the self-inductance of this solenoid. ________ mH (b) If the current in this solenoid increases at the rate of 2 A/s, what is the self-induced emf in the solenoid? ________ mv I got 6.75 for (a) but it...
A technician wraps wire around a tube of length 34 cm having a diameter of 8.1...
A technician wraps wire around a tube of length 34 cm having a diameter of 8.1 cm. When the windings are evenly spread over the full length of the tube, the result is a solenoid containing 555 turns of wire. (a) Find the self-inductance of this solenoid. mH (b) If the current in this solenoid increases at the rate of 6 A/s, what is the self-induced emf in the solenoid? mV Please answer all questions CLEARLY !!!
A technician wraps wire around a tube of length 37 cm having a diameter of 7.8...
A technician wraps wire around a tube of length 37 cm having a diameter of 7.8 cm. When the windings are evenly spread over the full length of the tube, the result is a solenoid containing 575 turns of wire. a) Find the self-inductance of this solenoid. b) If the current in this solenoid increases at the rate of 3 A/s, what is the self-induced emf in the solenoid?
A technician wraps wire around a tube of length 33 cm having a diameter of 8.3...
A technician wraps wire around a tube of length 33 cm having a diameter of 8.3 cm. When the windings are evenly spread over the full length of the tube, the result is a solenoid containing 575 turns of wire. (a) Find the self-inductance of this solenoid. mH (b) If the current in this solenoid increases at the rate of 5 A/s, what is the self-induced emf in the solenoid? mV
A technician wraps wire around a tube of length 40 cm that has a diameter of...
A technician wraps wire around a tube of length 40 cm that has a diameter of 6 cm. When the windings are evenly spread over the full length of the tube, the result is a solenoid containing 600 turns of wire. A) determine the self inductance of this solenoid B) if the current in this solenoid were to increase at a rate of 5A/s, what would be the induced potential in the solenoid?
points SerPSE8 32 P002 echnician wraps wire around a tube of length 34.0 cm having a...
points SerPSE8 32 P002 echnician wraps wire around a tube of length 34.0 cm having a diameter of 8.20 cm. When the windings are evenly spread over the full length of the tube, the result enoid containing 565 turns of wire. (a) Find the inductance of this solenoid. mH (b) If the current in this solenoid increases at the rate of s.00 A/s, find the self-induced emf in the solenoid? Need Help? Talk to Tuter Read It Ask Your Tea
To construct a solenoid, you wrap insulated wire uniformly around a plastic tube 7.8 cm in...
To construct a solenoid, you wrap insulated wire uniformly around a plastic tube 7.8 cm in diameter and 39 cm in length. You would like a 3.2 A current to produce a 2.6 kG magnetic field inside your solenoid. what is the total length of the wire in km?
A solenoid of length 20 cm and diameter 4 cm is constructed with 400 turns of...
A solenoid of length 20 cm and diameter 4 cm is constructed with 400 turns of wire The resistance of the wire can be neglected. A currenti is supplied to the solenoid in such a wav tha increases from zero to 0.5 A at a uniform rate over 2 seconds. Th 0.5 A. Calculate: e current then stays constant at (a) the inductance of the solenoid, (b) the maximum magnetic field in the solenoid, (c) the potential difference across the...
4. A given solenoid consists of 7250 turns of wire, has a diameter of 4.4 cm...
4. A given solenoid consists of 7250 turns of wire, has a diameter of 4.4 cm and is 23 cm long. a. What is the self inductance of this solenoid? b. Suppose that the current flowing through this solenoid is initially 12.5 Amperes and is decreasing at a rate of 22.0 Amperes/second. What will be the EMF generated across this coil as a result of this changing current? c. Suppose that this coil is surrounded by a second coil which...
(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?
points SerPSE8 32 P002 echnician wraps wire around a tube of length 34.0 cm having a diameter of 8.20 cm. When the windings are evenly spread over the full length of the tube, the result enoid containing 565 turns of wire. (a) Find the inductance of this solenoid. mH (b) If the current in this solenoid increases at the rate of s.00 A/s, find the self-induced emf in the solenoid? Need Help? Talk to Tuter Read It Ask Your Tea
A solenoid of length 20 cm and diameter 4 cm is constructed with 400 turns of wire The resistance of the wire can be neglected. A currenti is supplied to the solenoid in such a wav tha increases from zero to 0.5 A at a uniform rate over 2 seconds. Th 0.5 A. Calculate: e current then stays constant at (a) the inductance of the solenoid, (b) the maximum magnetic field in the solenoid, (c) the potential difference across the...
4. A given solenoid consists of 7250 turns of wire, has a diameter of 4.4 cm and is 23 cm long. a. What is the self inductance of this solenoid? b. Suppose that the current flowing through this solenoid is initially 12.5 Amperes and is decreasing at a rate of 22.0 Amperes/second. What will be the EMF generated across this coil as a result of this changing current? c. Suppose that this coil is surrounded by a second coil which...
(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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