Find each element in the circuit's time varying voltage v(t),
current i(t) and power p(t).
Find each element in the circuit's time varying voltage v(t), current i(t) and power p(t). t=0...
the voltage and current of the circuit element are zero for t<0, for t=>0 they are v = 500000te ^ -400t [v]; i = 32te ^ -4000 t; calculate: a) the time in which the power is maximum. b) the maximum power. c) total energy.
citor i Voltage and current as a function -10 of time. b. Find and plot the instantaneous power pl) on the capacitor. c. Find and plot the instantaneous energy wit stored on the capacitor. ce of V. d plot The voltage across a capacitor with capacitance of 50 aF is given by 6.8 nce of i) V. and f time. -20, 0sI<S 40-300, 5SI<10 6.10 (1) -10r+200, 10 sI<20 0, otherwise ance 000) This waveform is shown in Figure P6.8....
Given the voltage across a 10 uF capacitor is Vc 200-t find the capacitor current (c). ic mA QUESTION 3 Given the voltage across a 10 mH inductor is VL = 5V. Assuming the inductor current is zero at time zero, find the current at 4 ms.
Given: current i(t), energy w(t), charge q(t), voltage v(t), where t represents time. What are the formulas for current and voltage? ALSO Given: current i(t), energy w(t), charge q(t), voltage v(t) and power p(t), where t represents time. What is the formula for power?
2.5 kΩ 5H 3.0 uF The initial voltage at t<0, V40)-100 v and current i(0)-0. At t=0 the switch is closed. a. (10 points) Find a differential equation (in time domain) for the voltage across the inductor. (10 points) The following expression is the solution for the differential equation find in part b. Determine all the parameters in the solution α, A, B and ω. b. V()e (A Cos(ot)+ BSin(r)) c. (2 points) Determine the steady state current and the...
12. A series RC circuit is driven by a periodic square wave voltage V(t) with a period T=0.3 sec. V(t)0 for t<0. After t=0, the voltage alternates between 15 V and 0 V. Assume that R-40 , C-150 HF. We will call the voltage across the capacitor and the resistor Ve(t and Vr(t) respectively (a) Calculate the current I(t) in the circuit, the voltage Vc(t), and the power delivered by the driving source as a function of time for the...
Find the voltage, current and power for each circuit element (including signs/directions) for each circuit element using current-mesh method. 1 ΚΩ 2 ΚΩ 1kΩ 2 ΚΩ 1kΩ 10ν (Η 1 ΚΩ 5 mA
Please show all work and demonstrate how to find the
expressions for the voltage
v(t) 40 V 60 ms 140 ms 200 ms 240 uF Given: The figure above shows a 240 uF capacitor with a time-varying voltage across it. The graph above the figure shows the waveform of that voltage. Required: Determine the capacitor current at ta = 30 ms, at tp = 100 ms and at te = 170 ms.
I need help.
Thanks!
3. Find the power delivered to an element at t-6us if the current entering its positive terminal is: (i 3sin20rt) A and the voltage is: (a) V-4i di (b) V 5
ਅਰ-- 15 v | Vc40 ਘF t=0 - 20 A Given: The left-side switch is opened at t = 0; the right-side make-before-break switch is thrown at t = 0 so that the 20 A current source is safely attached to the 40 uF capacitor. Required: Determine the capacitor voltage, Vc, after 25 us and the time required for the voltage to reach 22 V. Solution: ve(25 us) =L Gv t(22 V) = Submit these values