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An Inductance L, Resistance R, and Ideal Battery of Emf

Question 12

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An inductance L, resistance R, and ideal battery of emf An inductance L, resistance R, and ideal battery of emf are wired in series.A switch in the circuit is closed at time t = 0, at which time the current is zero.At any later time t the potential difference across the resistor is given by: A) (1 - e<sup>-Lt</sup><sup>/</sup><sup>R</sup>) B) e<sup>-</sup><sup>Lt</sup><sup>/</sup><sup>R</sup> C) (1 + e<sup>-Rt</sup><sup>/</sup><sup>L</sup>) D) e<sup>-Rt</sup><sup>/</sup><sup>L</sup> E) (1 - e<sup>-Rt</sup><sup>/</sup><sup>L</sup>) are wired in series.A switch in the circuit is closed at time t = 0, at which time the current is zero.At any later time t the potential difference across the resistor is given by:


A) An inductance L, resistance R, and ideal battery of emf are wired in series.A switch in the circuit is closed at time t = 0, at which time the current is zero.At any later time t the potential difference across the resistor is given by: A) (1 - e<sup>-Lt</sup><sup>/</sup><sup>R</sup>) B) e<sup>-</sup><sup>Lt</sup><sup>/</sup><sup>R</sup> C) (1 + e<sup>-Rt</sup><sup>/</sup><sup>L</sup>) D) e<sup>-Rt</sup><sup>/</sup><sup>L</sup> E) (1 - e<sup>-Rt</sup><sup>/</sup><sup>L</sup>) (1 - e-Lt/R)
B) An inductance L, resistance R, and ideal battery of emf are wired in series.A switch in the circuit is closed at time t = 0, at which time the current is zero.At any later time t the potential difference across the resistor is given by: A) (1 - e<sup>-Lt</sup><sup>/</sup><sup>R</sup>) B) e<sup>-</sup><sup>Lt</sup><sup>/</sup><sup>R</sup> C) (1 + e<sup>-Rt</sup><sup>/</sup><sup>L</sup>) D) e<sup>-Rt</sup><sup>/</sup><sup>L</sup> E) (1 - e<sup>-Rt</sup><sup>/</sup><sup>L</sup>) e-Lt/R
C) An inductance L, resistance R, and ideal battery of emf are wired in series.A switch in the circuit is closed at time t = 0, at which time the current is zero.At any later time t the potential difference across the resistor is given by: A) (1 - e<sup>-Lt</sup><sup>/</sup><sup>R</sup>) B) e<sup>-</sup><sup>Lt</sup><sup>/</sup><sup>R</sup> C) (1 + e<sup>-Rt</sup><sup>/</sup><sup>L</sup>) D) e<sup>-Rt</sup><sup>/</sup><sup>L</sup> E) (1 - e<sup>-Rt</sup><sup>/</sup><sup>L</sup>) (1 + e-Rt/L)
D) An inductance L, resistance R, and ideal battery of emf are wired in series.A switch in the circuit is closed at time t = 0, at which time the current is zero.At any later time t the potential difference across the resistor is given by: A) (1 - e<sup>-Lt</sup><sup>/</sup><sup>R</sup>) B) e<sup>-</sup><sup>Lt</sup><sup>/</sup><sup>R</sup> C) (1 + e<sup>-Rt</sup><sup>/</sup><sup>L</sup>) D) e<sup>-Rt</sup><sup>/</sup><sup>L</sup> E) (1 - e<sup>-Rt</sup><sup>/</sup><sup>L</sup>) e-Rt/L
E) An inductance L, resistance R, and ideal battery of emf are wired in series.A switch in the circuit is closed at time t = 0, at which time the current is zero.At any later time t the potential difference across the resistor is given by: A) (1 - e<sup>-Lt</sup><sup>/</sup><sup>R</sup>) B) e<sup>-</sup><sup>Lt</sup><sup>/</sup><sup>R</sup> C) (1 + e<sup>-Rt</sup><sup>/</sup><sup>L</sup>) D) e<sup>-Rt</sup><sup>/</sup><sup>L</sup> E) (1 - e<sup>-Rt</sup><sup>/</sup><sup>L</sup>) (1 - e-Rt/L)

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