In Figure, suppose the switch has been closed for a time interval sufficiently long (steady state) for the capacitor to become fully charged. R 1 = 9 kΩ, R 2 = 12 kΩ, R 3 = 2 kΩ, C = 14 × 10 −6 F, and an ideal battery has emf ε = 12 V. The switch is now opened at t = 0. Find the current in R 2 at time t = 0.09 s. (Your result must be in mA's and include 3 digit after the decimal point. Maximum of 5% of error is accepted in your answer.)

In Figure, suppose the switch has been closed for a time interval sufficiently long (steady state) for the capacitor to become fully charged. R 1 = 9 kΩ, R 2 = 12 kΩ, R 3 = 2 kΩ, C = 14 × 10 −6 F, and an ideal battery has emf ε = 12 V. The switch is now opened at t = 0. Find the current in R 2 at time t = 0.09 s. (Your result must be in mA's and include 3 digit after the decimal point. Maximum of 5% of error is accepted in your answer.)

Electricity for Refrigeration, Heating, and Air Conditioning (MindTap Course List)

10th Edition

ISBN:9781337399128

Author:Russell E. Smith

Publisher:Russell E. Smith

Chapter17: Commercial And Industrial Air-conditioning Control Systems

Section: Chapter Questions

Problem 22RQ

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Inductance of Transmission Line

Inductance is an electrical term related to conductor or inductor. Inductance is the property or capability of a conductor to oppose the change of flow of current through a particular circuit. The term inductance is from the inductor. The symbol L denotes inductance, and the unit of inductance is Henry (H). Inductance is generally a ratio of voltage and rate of change in current (Ampere). In practice, every conductor has an inductance property.

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