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1. Laplace transform in circuit analysis The switch in the following circuit has been in position...
Problem #1 The switch in the circuit shown has been in position “a” for a long...
Problem #1 The switch in the circuit shown has been in position “a” for a long time. Att= 0, the switch moves instantaneously to position “b”. Construct an s-domain equivalent circuit for t>0. Find V. (s). Find v. (t). b 2k12 b) t=0 15 ma 15 mA o 2 ke 3 2 kn> 0.8 1.25 uF Vo
2. The switch in the circuit shown in Figure 1 has been in position 'a' for...
2. The switch in the circuit shown in Figure 1 has been in position 'a' for a long time. At t=0, the switch moves instantaneously to position b. a) Find the numerical expression for io(t) when t > 0. b) Find the numerical expression for volt) fort > 0 1 = 0 b! 51 602 45 A 2150 vo 20 10 mH 240 V 1
4. The switch in the circuit in the figure below has been in position 'a' for...
4. The switch in the circuit in the figure below has been in position 'a' for a long time. At t = 0, the switch moves instantaneously to position b. For t> 0*, find a) vo(t) b) io(t). 5k12 b 10 k 12 11 = 0 + 10 kn} 1,040nF 40 kN 75 V 100 V
Problem 1 (10 points): The switch in the circuit of Fig. 1 has been in position...
Problem 1 (10 points): The switch in the circuit of Fig. 1 has been in position a for a long time. Att 0, the switch moves to position b 1. (4 points) Construct an s-domain circuit for t> 0 2. (4 points) Find Vo(s) and vo(t) for t> 0 3. (2 points) Find IL(s) and iL () fort > 0. t-0 Ri R2 R1 = 400 ohms, R2 = 1000 ohms, C = 6.25 nF L 16 mH, and vg-360...
Problem 3: The switch in the following circuit has been in position a for a long...
Problem 3: The switch in the following circuit has been in position a for a long time. At t = 0 the switch moves instantaneously to position b. Find the voltage vo(t) for t 2 0. t =0 10ih 6 ΚΩ а 50 V4 k vo3 51.2 mH 8 μF 150 Q 60 0
Question 2. The switch in the circuit below has been in position a for a long...
Question 2. The switch in the circuit below has been in position a for a long time. At t = 0, the switch moves instantaneously to position b. Find (a) i(0) (b) v.(0) di(0+) (c) dt (d) S1, S2 (e) i(t) fort 20 9 k ao obam 6 802 5 mH + i=0 315L0 ( 80V 100 V v2uF
USE differential Approach in your analysis The switch in the circuit has been in position 1...
USE differential Approach in your analysis The switch in the circuit has been in position 1 for a long time. At t = 0 it moves instantaneously to position 2. (Figure 1) 10 12 50 VO 331 31.5 HŽ 402 How many milliseconds after the switch operates does v, equal 160 V ?
The switch in the circuit has been in position 1 for a longtime. At t=0...
The switch in the circuit has been in position 1 for a long
time. At t=0 the switch moves to position 2. Find a) vo(t) for
t>=0 and b) io(t) for t>=0
7.36 The switch in the circuit shown in Fig. P7.36 has PSPICE been in position a...
7.36 The switch in the circuit shown in Fig. P7.36 has PSPICE been in position a for a long time. At t=0, the MULTISIM switch moves instantaneously to position b. a) Find the numerical expression for it) when 120. b) Find the numerical expression for v.) for t2 01. Figure P7.36 1=0 ь 102 312002 50A 380 V.3 402 40 mH 800 V
Circuit Analysis II The switch in the circuit has been in position a for a long...
Circuit Analysis II
The switch in the circuit has been in position a for a
long time. At t=0, the switch moves instantly to position b. Derive
the integrodifferential equation that governs the behavior of the
current I0 for t>0+
dc t=0
Problem #1 The switch in the circuit shown has been in position “a” for a long time. Att= 0, the switch moves instantaneously to position “b”. Construct an s-domain equivalent circuit for t>0. Find V. (s). Find v. (t). b 2k12 b) t=0 15 ma 15 mA o 2 ke 3 2 kn> 0.8 1.25 uF Vo
2. The switch in the circuit shown in Figure 1 has been in position 'a' for a long time. At t=0, the switch moves instantaneously to position b. a) Find the numerical expression for io(t) when t > 0. b) Find the numerical expression for volt) fort > 0 1 = 0 b! 51 602 45 A 2150 vo 20 10 mH 240 V 1
4. The switch in the circuit in the figure below has been in position 'a' for a long time. At t = 0, the switch moves instantaneously to position b. For t> 0*, find a) vo(t) b) io(t). 5k12 b 10 k 12 11 = 0 + 10 kn} 1,040nF 40 kN 75 V 100 V
Problem 1 (10 points): The switch in the circuit of Fig. 1 has been in position a for a long time. Att 0, the switch moves to position b 1. (4 points) Construct an s-domain circuit for t> 0 2. (4 points) Find Vo(s) and vo(t) for t> 0 3. (2 points) Find IL(s) and iL () fort > 0. t-0 Ri R2 R1 = 400 ohms, R2 = 1000 ohms, C = 6.25 nF L 16 mH, and vg-360...
Problem 3: The switch in the following circuit has been in position a for a long time. At t = 0 the switch moves instantaneously to position b. Find the voltage vo(t) for t 2 0. t =0 10ih 6 ΚΩ а 50 V4 k vo3 51.2 mH 8 μF 150 Q 60 0
Question 2. The switch in the circuit below has been in position a for a long time. At t = 0, the switch moves instantaneously to position b. Find (a) i(0) (b) v.(0) di(0+) (c) dt (d) S1, S2 (e) i(t) fort 20 9 k ao obam 6 802 5 mH + i=0 315L0 ( 80V 100 V v2uF
USE differential Approach in your analysis The switch in the circuit has been in position 1 for a long time. At t = 0 it moves instantaneously to position 2. (Figure 1) 10 12 50 VO 331 31.5 HŽ 402 How many milliseconds after the switch operates does v, equal 160 V ?
The switch in the circuit has been in position 1 for a long
time. At t=0 the switch moves to position 2. Find a) vo(t) for
t>=0 and b) io(t) for t>=0
7.36 The switch in the circuit shown in Fig. P7.36 has PSPICE been in position a for a long time. At t=0, the MULTISIM switch moves instantaneously to position b. a) Find the numerical expression for it) when 120. b) Find the numerical expression for v.) for t2 01. Figure P7.36 1=0 ь 102 312002 50A 380 V.3 402 40 mH 800 V
Circuit Analysis II
The switch in the circuit has been in position a for a
long time. At t=0, the switch moves instantly to position b. Derive
the integrodifferential equation that governs the behavior of the
current I0 for t>0+
dc t=0
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