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2. Use the following values for the components in the circuit in 282 V. Compute i(t)...
3. Use the following values for the components in the circuit in Fig 3: R-200 О.x...
3. Use the following values for the components in the circuit in Fig 3: R-200 О.x 282 V. Compute i(t) and V(t). -j200 Ω, Xc--j200 Ω and Vac- (12) V. i(t) R v(t) Figure 3.
:R2100Q,x-1000 Xc=-j100 Ω and Ve. the components in the circuit in Fig Use the following values...
:R2100Q,x-1000 Xc=-j100 Ω and Ve. the components in the circuit in Fig Use the following values for 141 V. Compute ilt) and V(t). 3. XL 10 V. R V(t) ac
Figure 3. Use the following values for the comp onents in the circuit in Fig. 4:...
Figure 3. Use the following values for the comp onents in the circuit in Fig. 4: R,-120. R-16, R,-8 Ω, R4-40, Rs . 8 4. , R6 : 8 Ω, C's 100 μF' and Val-160 V. The circuit in Fig. 4 is critically damped. The switch is closed at t-o (25) a. Compute the current, i(t), for t>o. b. Compute the voltage, velt) and the current iz(t) for t>o i2(t) V(t) Rs R6
question 1 please ame: Last four digits of student ID: now all your work leading up...
question 1 please
ame: Last four digits of student ID: now all your work leading up to the final solution/answer (no work = no credit). 1. Use the following values for the components in the circuit in Fig. 1: R = 5, R. = 150, R = 1 K, C = 1.0 uF, and V = 12 V. (15) The switch is moved from position "a" to "b" att = 0. a. Draw the equivalent circuit for t < 0...
6. Use the following values for the components in the circuit in Fig. 4: R.-300 n,...
6. Use the following values for the components in the circuit in Fig. 4: R.-300 n, R-200 n, C-50 F, and I-10A (20) The circuit in Fig. 4 is critically damped. Att- Q, the switches change positions as indicated a. Draw the equivalent circuits for t<0 and t>0. b. Compute the current, vit) for t>O c. Compute the current, iult) fort >0 te0 t-0 Figure: 4
This multi-part problem also contains (not shown above) the following sub-parts g.) Find v(t) for t >= 0 if the 12.5...
This multi-part problem also contains (not shown above) the
following sub-parts
g.) Find v(t) for t >= 0 if the 12.5 Ohm
resistor is removed from the circuit
h.) Calculate the frequency of v(t) in
hertz
i.) Calculate the maximum amplitude of v(t) in
volts.
Attached is Figure 8.1
MISPICEM In the circuit in Fig. 8.19, R 12.5 Ω, 820 MULTISIM a. Find v(t) for t20 b. Find the first three values of t for which dv/dt is zero. Let...
Problem 2: Total Impedance (25 Points) n electric circuit consists of two components as shown in...
Problem 2: Total Impedance (25 Points) n electric circuit consists of two components as shown in the figure below. The values of the impedance of the two components are Zi-Ri + M and Z2-R2-JXc, wh XL 100 Ω, R2-50 Ω, and Xc-125 Ω. 21 and Z2 as complex numbers in both their rectangular and polar forms. mine the complex conjugate of Z2 and compute the product of Z222 a) Write Z1Z2 Compute the total impedance of the two components- result...
(4 points) Determine the values of the node voltages V a , V b and V...
(4 points) Determine the values of the node voltages V a , V b
and V c , and the value of the current
I x in the circuit in Fig. 2.
2. (4 points) Determine the values of the node voltages V, V, and Ve, and the value of the current I, in the circuit in Fig. 2. 122 w 12 12 Figure 2: Problem 2.
3) Determine the current T, V', 11 and I's in the following circuit and use those...
3) Determine the current T, V', 11 and I's in the following circuit and use those values to find the complex power associated with each load(complex power S = P + jQ VA) Z1 = 400-j300 Ω Z2 = 400 + 300Ω Zg = 400-j4000 1.2 = 100 + j700 l'olts
Three resistors of values 2 Ω, 6 Ω and 12 Ω are connected across a 2.0-V...
Three resistors of values 2 Ω,
6 Ω and 12 Ω are connected across a 2.0-V DC voltage source as
shown in Fig. 26-18. What is the total current I flowing this
circuit? 3.0 A 1.5 A 6.0 A 0.70 A 2.0 A
FIGURE 26-18 2Ω 6Ω 12Ω
3. Use the following values for the components in the circuit in Fig 3: R-200 О.x 282 V. Compute i(t) and V(t). -j200 Ω, Xc--j200 Ω and Vac- (12) V. i(t) R v(t) Figure 3.
:R2100Q,x-1000 Xc=-j100 Ω and Ve. the components in the circuit in Fig Use the following values for 141 V. Compute ilt) and V(t). 3. XL 10 V. R V(t) ac
Figure 3. Use the following values for the comp onents in the circuit in Fig. 4: R,-120. R-16, R,-8 Ω, R4-40, Rs . 8 4. , R6 : 8 Ω, C's 100 μF' and Val-160 V. The circuit in Fig. 4 is critically damped. The switch is closed at t-o (25) a. Compute the current, i(t), for t>o. b. Compute the voltage, velt) and the current iz(t) for t>o i2(t) V(t) Rs R6
question 1 please
ame: Last four digits of student ID: now all your work leading up to the final solution/answer (no work = no credit). 1. Use the following values for the components in the circuit in Fig. 1: R = 5, R. = 150, R = 1 K, C = 1.0 uF, and V = 12 V. (15) The switch is moved from position "a" to "b" att = 0. a. Draw the equivalent circuit for t < 0...
6. Use the following values for the components in the circuit in Fig. 4: R.-300 n, R-200 n, C-50 F, and I-10A (20) The circuit in Fig. 4 is critically damped. Att- Q, the switches change positions as indicated a. Draw the equivalent circuits for t<0 and t>0. b. Compute the current, vit) for t>O c. Compute the current, iult) fort >0 te0 t-0 Figure: 4
This multi-part problem also contains (not shown above) the
following sub-parts
g.) Find v(t) for t >= 0 if the 12.5 Ohm
resistor is removed from the circuit
h.) Calculate the frequency of v(t) in
hertz
i.) Calculate the maximum amplitude of v(t) in
volts.
Attached is Figure 8.1
MISPICEM In the circuit in Fig. 8.19, R 12.5 Ω, 820 MULTISIM a. Find v(t) for t20 b. Find the first three values of t for which dv/dt is zero. Let...
Problem 2: Total Impedance (25 Points) n electric circuit consists of two components as shown in the figure below. The values of the impedance of the two components are Zi-Ri + M and Z2-R2-JXc, wh XL 100 Ω, R2-50 Ω, and Xc-125 Ω. 21 and Z2 as complex numbers in both their rectangular and polar forms. mine the complex conjugate of Z2 and compute the product of Z222 a) Write Z1Z2 Compute the total impedance of the two components- result...
(4 points) Determine the values of the node voltages V a , V b
and V c , and the value of the current
I x in the circuit in Fig. 2.
2. (4 points) Determine the values of the node voltages V, V, and Ve, and the value of the current I, in the circuit in Fig. 2. 122 w 12 12 Figure 2: Problem 2.
3) Determine the current T, V', 11 and I's in the following circuit and use those values to find the complex power associated with each load(complex power S = P + jQ VA) Z1 = 400-j300 Ω Z2 = 400 + 300Ω Zg = 400-j4000 1.2 = 100 + j700 l'olts
Three resistors of values 2 Ω,
6 Ω and 12 Ω are connected across a 2.0-V DC voltage source as
shown in Fig. 26-18. What is the total current I flowing this
circuit? 3.0 A 1.5 A 6.0 A 0.70 A 2.0 A
FIGURE 26-18 2Ω 6Ω 12Ω
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