You are working at a company that manufactures solenoids for industrial and research use. A client has ordered a solenoid that will be operated by a 1,000 V power supply and must be of length { = 36.0 cm. A cylindrical experimental package of radiusr, = 1.85 cm must fit inside the solenoid. The client wants the largest possible magnetic field inside the solenoid. The thinnest copper wires allowed by your company are AWG 36, which corresponds to a wire diameter of dw = 0.127 mm. You determine the maximum magnitude of magnetic field (in T) that can be created in the solenoid to report to the client. (The resistivity of copper is 1.7 x 10-8 0 ·m.)
You are working at a company that manufactures solenoids for industrial and research use. A client has ordered a solenoid that will be operated by a 1,000 V power supply and must be of length { = 36.0 cm. A cylindrical experimental package of radiusr, = 1.85 cm must fit inside the solenoid. The client wants the largest possible magnetic field inside the solenoid. The thinnest copper wires allowed by your company are AWG 36, which corresponds to a wire diameter of dw = 0.127 mm. You determine the maximum magnitude of magnetic field (in T) that can be created in the solenoid to report to the client. (The resistivity of copper is 1.7 x 10-8 0 ·m.)
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![You are working at a company that manufactures solenoids for industrial and research use. A client has ordered a solenoid that will be operated by a 1,000 V power supply and must be of length
{ = 36.0 cm. A cylindrical experimental package of radius r. = 1.85 cm must fit inside the solenoid. The client wants the largest possible magnetic field inside the solenoid. The thinnest copper wires
allowed by your company are AWG 36, which corresponds to a wire diameter of d, = 0.127 mm. You determine the maximum magnitude of magnetic field (in T) that can be created in the solenoid to
report to the client. (The resistivity of copper is 1.7 x 10-80: m.)](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F2d3deb10-6ecf-4539-b07e-a809ec7c8919%2Fff2fd1de-8c4d-4722-b953-7675b96fbb9f%2Fvp2hrl7_processed.png&w=3840&q=75)
Transcribed Image Text:You are working at a company that manufactures solenoids for industrial and research use. A client has ordered a solenoid that will be operated by a 1,000 V power supply and must be of length
{ = 36.0 cm. A cylindrical experimental package of radius r. = 1.85 cm must fit inside the solenoid. The client wants the largest possible magnetic field inside the solenoid. The thinnest copper wires
allowed by your company are AWG 36, which corresponds to a wire diameter of d, = 0.127 mm. You determine the maximum magnitude of magnetic field (in T) that can be created in the solenoid to
report to the client. (The resistivity of copper is 1.7 x 10-80: m.)
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