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Posted: Mon May 09, 2022 7:38 am
***Use LTSpice to solve this question***
***Use LTSpice to solve this question***
***Use LTSpice to solve this question***
Enter the answer along to 3 significant figures. include screen dumps of each circuit schematic, natlist and simulation results
all Greek symbols equal 0
the positive side of both batteries are on the top
20% (c) The switch SW in Fig. 1(C) was open before time t = 0; it is closed using the control voltage VSW at time t = 0 and remains closed thereafter. The voltage ez at node 3 is 0 V at time t = 0. Calculate the voltage ez at time t = 3 us. V1 = (1000 + ε) mV, 13 = (6000 + n) pH and R4 = (4000 + 0) 0. SW 2 L3 . 3 V 14 R4 I VSW
***Use LTSpice to solve this question***
***Use LTSpice to solve this question***
Enter the answer along to 3 significant figures. include screen dumps of each circuit schematic, natlist and simulation results
all Greek symbols equal 0
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20% (c) The switch SW in Fig. 1(C) was open before time t = 0; it is closed using the control voltage VSW at time t = 0 and remains closed thereafter. The voltage ez at node 3 is 0 V at time t = 0. Calculate the voltage ez at time t = 3 us. V1 = (1000 + ε) mV, 13 = (6000 + n) pH and R4 = (4000 + 0) 0. SW 2 L3 . 3 V 14 R4 I VSW