1. Calculate the capacitor voltage vd) as a function of time. Include the voltage before the switch was closed (i.e., the dc state for t<0). 2. Calculate the resistor voltage v(0) as a function of time. Include the voltage before the switch was opened (i.e., the dc state for t<0) The current or voltage of any component in a first-order circuit can be expressed as: y(t)= A exp(-xt) + B₁ for the appropriate constants A, B, and A. Answers: Question (a) v(0) (b) v(0) DC Voltage for t<0 (1) R₁ v (+ Constant A (V) + "C X R₂ R₂ R₁ R₁ W V₂ Constant B(V) R₂ Constant λ (μs'')

V=6V, R1=2kOhm, R2=2kOhm, C=5.5nF

 

 

Please answer in typing format please ASAP for the like please clear

 

Transcribed Image Text:

1. Calculate the capacitor voltage vt) as a function of time. Include the voltage before the switch was closed (i.e., the dc state for t < 0). 2. Calculate the resistor voltage vx(t) as a function of time. Include the voltage before the switch was opened (i.e., the dc state for t< 0) The current or voltage of any component in a first-order circuit can be expressed as: y(t) = A exp(-xt) + B, for the appropriate constants A, B, and λ. Answers: Question (a) vc(t) (b) vx(t) DC Voltage for t < 0 (V) R₁ V Constant A (V) m + + C HI VC X m R2 m R2 inn + R1 R₁ m Vx m Constant B (V) R2 Constant λ (μs-¹)