Find the time constant at t>0 for the two circuits below
in order to find time constant we have to consider after switching action. Then we can easily found time constant for RL ,RC circuit s respectively by using respective formulas.
Find the time constant at t>0 for the two circuits below lo าร์ 25レ lo าร์ 25レ
For the circuit shown below, find the equation for Vc(t) for t > 0 Draw the following circuits: T =0 T = 0+ R_th 1. For the circuit shown in Figure 1 below, find the equation for vc(t) fort>0. Extra Credit: Find the time constant (T) and indicate how long it will take to fully discharge the capacitor voltage. Hint: You have to draw the following circuits at: t=0-, t=0+, RTH too 2 + W 3r - Velt) 24 9A...
1. For the circuit shown in Figure 1 below, find the equation for ve(t) for t> 0. Extra Credit: Find the time constant ( 1 ) and indicate how long it will take to fully discharge the capacitor voltage. Hint: You have to draw the following circuits at: t=0-, t=0+, RTH too 2 + 3r Velt) :4 9A 5F Figure 1.
3. Find Ic and Vce in the circuits below. Assume Bde 200, VBE 0.6V Sat'n Show all calculations and explain your thinking. 5レ a) b) c) SK 10K . 3M 5ok Ik 4. a) Design a common emitter amplifier so that Ic using a 2N3947 over its whole temperature range. Show a schematic diagram of your circuit and label the values of all resistors. Show your calculations. Find Rin Ro, and Av for mid-band frequencies. Assume Xe's are negligible and...
1. For the circuit shown in Figure 1 below, find the equation for valt) fort >0. Extra Credit: Find the time constant (T) and indicate how long it will take to fully discharge the capacitor voltage. Hint: You have to draw the following circuits at: t=0-, t=0+, RTH to ma 3r V (1) 4 9A SF 5 Figure 1
4. (25 pt) Two electrical circuits interact magnetically, by "mutual induction." Each circuit is responsive to the changing magnetic fields generated by time- dependent currents in the other. The mutual inductance M quantifies the strength of the interaction. Ci し2 C2 Figure 0.1: Two LC circuits, coupled by a mutual inductance M (a). (5 pt) Through the mutual inductance M, an extra voltage is induced on the inductor, - MdI/dt, where the current is carried by the other circuit. Show...
Problem-4 Find i(t) and v(t) in each of the circuits below. 8Ω 50cos 41V(±
4.- (25) Find i(t) two ways: a) in the time domain 6) using the Laplace Transform t=0 sec + 10 cost Volts 112 lovelts 14
The switch moves from open to close at t=0. Use your knowledge of first order circuits to find v(t) for t>0. Show all hand calculations below. Attach graph of v(t). Problem 2 The switch moves from open to close at t=0. Use your knowledge of first order circuits to find v(t) for t>0. Show all hand calculations below. Attach graph of v(t). 1 = 0 R1 w 1 R2 C vo
4 (25)Find I (down) for all time if lo 4A, R, = 60, R2 120, L 2H t 0.5s
First-order circuits For the circuit shown below, the switch has been closed for a long time and it is opened at t = 0. Calculate the capacitor voltage, v(t) for all t. 6.2 30V V 2F !