For a toroidal solenoid, suppose the number of turns is 147, the area is 6.18 cm 2, and the radius is 14.03 cm. The current in the toroidal solenoid increases uniformly from 0 A to 5.65 A in 3.18 us. Find the magnitude of the self-induced emf. Final answer should be in two (2) decimal places. For the final answer, express the unit in symbols. For example: 5.00 Kelvin should be expressed as 5.00 K DO NOT answer in exponential form Units are case sensitive, sample units: N/m, degree C, m^2 Round your answer into the nearest 2 decimal place.
For a toroidal solenoid, suppose the number of turns is 147, the area is 6.18 cm 2, and the radius is 14.03 cm. The current in the toroidal solenoid increases uniformly from 0 A to 5.65 A in 3.18 us. Find the magnitude of the self-induced emf. Final answer should be in two (2) decimal places. For the final answer, express the unit in symbols. For example: 5.00 Kelvin should be expressed as 5.00 K DO NOT answer in exponential form Units are case sensitive, sample units: N/m, degree C, m^2 Round your answer into the nearest 2 decimal place.
Chapter14: Inductance
Section: Chapter Questions
Problem 43P: A long, cylindrical solenoid with 100 turns per centimeter has a radius of 1.5 cm. (a) Neglecting...
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For a toroidal solenoid, suppose the number of turns is 147, the area is 6.18 cm 2, and the radius is 14.03 cm. The current in the toroidal solenoid increases uniformly from 0 A to 5.65 A in 3.18 us. Find the magnitude of the self-induced emf.
- Final answer should be in two (2) decimal places.
- For the final answer, express the unit in symbols. For example:
- 5.00 Kelvin should be expressed as 5.00 K
- DO NOT answer in exponential form
- Units are case sensitive, sample units: N/m, degree C, m^2
- Round your answer into the nearest 2 decimal place.
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