As a new electrical technician, you are designing a large solenoid to produce a uniform 0.14...
As a new electrical technician, you are designing a large solenoid to produce a uniform 0.14 T magnetic field near the center of the solenoid. You have enough wire for 4,056 circular turns. This solenoid must be 1.4 m long and 2.9 cm in diameter. What current will you need to produce the necessary field? (Give your answer in decimal using "A" (Ampere) as unit)
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As a new electrical technician, you are designing a large
solenoid to produce a uniform 0.14...
As a new electrical technician, you are designing a large solenoid to produce a uniform 0.150-T...
As a new electrical technician,
you are designing a large solenoid to produce a uniform 0.150-T
magnetic field near the center of the solenoid. You have enough
wire for 3600 circular turns. This solenoid must be 53.0 cm long
and 6.00 cm in diameter.
As a new electrical technician, you are designing a large solenoid to produce a uniform 0.150-Tmagnetic...
As a new electrical technician, you are designing a large solenoid to produce a uniform 0.150-Tmagnetic field near the center of the solenoid. You have enough wire for 3100 circular turns. This solenoid must be 58.0 cm long and 0 cm in diameter. Part A: What current will you need to produce the necessary field?
You are designing a solenoid to produce a 2.6-kG magnetic field. You wish to wrap your...
You are designing a solenoid to produce a 2.6-kG magnetic field. You wish to wrap your insulated wire uniformly around a cardboard tube that is 8.0 cm in diameter and 25 cm in length, and you have a power supply that will allow you to pass a current of 2.5 A through the solenoid. Determine the total length of wire you will need in order to build the solenoid you have designed.
A solenoid used to produce magnetic fields for research purposes is 2.1 m long, with an...
A solenoid used to produce magnetic fields for research purposes is 2.1 m long, with an inner radius of 30 cm and 1300 turns of wire. When running, the solenoid produced a field of 1.4 T in the center. Given this, how large a current does it carry? Express your answer in kiloamperes.
A solenoid is designed to produce a 2.76×10−2 T magnetic field near its center. It has...
A solenoid is designed to produce a 2.76×10−2 T magnetic field near its center. It has a radius of 1.50 cm and a length of 37.0 cm , and the wire carries a current of 12.0 A . (a.) How many turns must the solenoid have? (b.)What total length of wire is required to make this solenoid?
A 26-cm-long solenoid, 1.4 cm in diameter, is to produce a 0.060-T magnetic field at its...
A 26-cm-long solenoid, 1.4 cm in diameter, is to produce a 0.060-T magnetic field at its center. If the maximum current is 3.4 A , how many turns must the solenoid have? Express your answer using two significant figures. || ΑΣφ ? N = turns
For a technical application, an electrical engineer needs to create a solenoid using copper wire with...
For a technical application, an electrical engineer needs to create a solenoid using copper wire with diameter d 0.500 mm. The resistance of the solenoid needs to be 3.500 and the magnetic field of the solenoid with a current of 2.50 A should be 6.50 x 10-T. Assume the resistance does not change significantly with temperature, and the radius of the solenoid is 1.00 cm. (Use p - 1.70 x 10-40-m for the resistivity of copper.) (a) How many turns...
You are designing a new solenoid and experimenting with material for each turn. The particular turn...
You are designing a new solenoid and experimenting with material
for each turn. The particular turn you are working with is a
circular loop of radius 4.50 cm that carries a current of 15.0 A.
Calculate the magnetic field B at the center of the loop. Consider
the coordinate system in the figure. If the circular loop lies in
the xy plane and if the current flows clockwise around the loop,
which direction does the magnetic field point inside the...
A thin (radius r=1.15 mm) long wire is used to build a solenoid: the wire is...
A thin (radius r=1.15 mm) long wire is used to
build a solenoid: the wire is densely (subsequent turns touching
each other) wound around a cylindrical surface of the diameter
D=7.8 cm.
When electric current I=1.5 A runs in this
wire, what is the magnitude
Bsol of the magnetic
field in the center of the solenoid?:
Bsol= ______ G.
Let us now compare that magnetic field to the magnetic field
B1 that would be produced just by a
single circular...
A solenoid used to produce magnetic fields for research purposes is 2.5 m long, with an...
A solenoid used to produce magnetic fields for research purposes is 2.5 m long, with an inner radius of 29 cm and 1400 turns of wire. When running, the solenoid produced a field of 1.2 T in the center. Given this, how large a current does it carry?
As a new electrical technician,
you are designing a large solenoid to produce a uniform 0.150-T
magnetic field near the center of the solenoid. You have enough
wire for 3600 circular turns. This solenoid must be 53.0 cm long
and 6.00 cm in diameter.
A 26-cm-long solenoid, 1.4 cm in diameter, is to produce a 0.060-T magnetic field at its center. If the maximum current is 3.4 A , how many turns must the solenoid have? Express your answer using two significant figures. || ΑΣφ ? N = turns
For a technical application, an electrical engineer needs to create a solenoid using copper wire with diameter d 0.500 mm. The resistance of the solenoid needs to be 3.500 and the magnetic field of the solenoid with a current of 2.50 A should be 6.50 x 10-T. Assume the resistance does not change significantly with temperature, and the radius of the solenoid is 1.00 cm. (Use p - 1.70 x 10-40-m for the resistivity of copper.) (a) How many turns...
You are designing a new solenoid and experimenting with material
for each turn. The particular turn you are working with is a
circular loop of radius 4.50 cm that carries a current of 15.0 A.
Calculate the magnetic field B at the center of the loop. Consider
the coordinate system in the figure. If the circular loop lies in
the xy plane and if the current flows clockwise around the loop,
which direction does the magnetic field point inside the...
A thin (radius r=1.15 mm) long wire is used to
build a solenoid: the wire is densely (subsequent turns touching
each other) wound around a cylindrical surface of the diameter
D=7.8 cm.
When electric current I=1.5 A runs in this
wire, what is the magnitude
Bsol of the magnetic
field in the center of the solenoid?:
Bsol= ______ G.
Let us now compare that magnetic field to the magnetic field
B1 that would be produced just by a
single circular...
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