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Please do 3.1 & not 3.2
HOMEWORK PROBLEMS 1 92 1 2 Sections 3.2 through 3.4:...
3.1 Circuit Solution by Inspection 3.1 In the circuit of Figure P3.1 let vs = 8...
3.1 Circuit Solution by Inspection 3.1 In the circuit of Figure P3.1 let vs = 8 V. (a) Find is such that i = 2 mA. (b) Repeat, but with the voltage source terminals interchanged, so that the positive terminal is now at the right. 2 ks2 S 3k92 Figure P3.1 3.20 Apply nodal analysis to the circuit of Figure P3.20 to find the power dissipated by the 2-82 resistance. Check your result. 12 V in 893 293 LL Figure...
please show work 58 PROBLEMS Sections 3.1 and 3.2 3.1. (I) What net force must be...
please show work
58 PROBLEMS Sections 3.1 and 3.2 3.1. (I) What net force must be exerted on a 7.0-kg saclk of potatoes to give it an acceleration of 3.5 m/sec 3.2. (I) Anet force of 30 N is applied to an object, which is then observed to accelerate at 0.25 m/sec2. Caleu- late the mass of the object. 3.3. (I) Calculate the acceleration of a rocket of mass 1.2×106 kg if the net force on it is 2.0 ×...
Final Exam Solve any six of the following problems: Solve for Vo in Figure below using mesh analysis. 1. 2 92 420 V (+ Final Exam Solve any six of the following problems: Solve for Vo in Fig...
Final Exam Solve any six of the following problems: Solve for Vo in Figure below using mesh analysis. 1. 2 92 420 V (+
Final Exam Solve any six of the following problems: Solve for Vo in Figure below using mesh analysis. 1. 2 92 420 V (+
1. calculate node voltage V1 and V2 2. calculate the voltage drop across 10k resistor equal...
1. calculate node voltage V1 and V2
2. calculate the voltage drop across 10k resistor equal to the
difference between V2 and Vs2
3. Calculate mesh current i1,i2, i3
4. calculate the current through 2.7k resistor
5. does the current measured through 2.7k resistor equal to the
difference between the currents i2 and i3? show all
calculations
equired Itheory a Construct the circuit shown in Fig. 2 on your breadboard. 1 k 2 w V, 1k22 V, 10 k92 VS2...
Solve both problems please 1. Write the mesh equations and determine I in the circuit below....
Solve both problems please
1. Write the mesh equations and determine I in the circuit below. 36V 200Ω 10V 130A 150S2 2. Apply nodal analysis to the following circuit to determine the voltage V. 100Ω 3V 13Ω 487Ω
Please answer number 1 - 3 PHY242 Homework #14 - Chapter 25 Do the following problems...
Please answer number 1 - 3
PHY242 Homework #14 - Chapter 25 Do the following problems on Engineering Computation Pad paper following the standard problem format. Be sure to start each problem on a new sheet of paper A circuit node is shown below. Apply Kirch hoff's Node Law to answer the following. a. If I1.25 A and I2 = 0.75 A, what is the value of I3? b. If I1 1.25 A and I3 = 9.35 A, what is...
3.2 Mesh-Current Method (3-2) Apply the mesh-current method to determine the mesh curents h to l....
3.2 Mesh-Current Method (3-2) Apply the mesh-current method to determine the mesh curents h to l. From these results determine the voltage across the current source Vi. R4 V, I R3 Vsrc Figure 3.2: Circuit for Problem Use these component values: . ISRs-12.5 mA . Ri = 5.6 kQ, R2 = 2.2 kQ, R3 = 3.3 kQ, and R4 = 4.7 kΩ
explain clearly and step by step using to study for final exam. will rate tthanks Problem 1: Consider the electrical circuit below and assume R1 = 12Ω, 10Ω, R3-9 Ω, R4-8 Ω, i,-3A, and v.-2 V. Using,...
explain clearly and step by step using to study for final exam.
will rate tthanks
Problem 1: Consider the electrical circuit below and assume R1 = 12Ω, 10Ω, R3-9 Ω, R4-8 Ω, i,-3A, and v.-2 V. Using, Node-Voltage method, please, find the voltages vi, U2, v3 and the current i depicted in the figure. R1 Vs 1V2 VI RA releience Node .
Problem 1: Consider the electrical circuit below and assume R1 = 12Ω, 10Ω, R3-9 Ω, R4-8 Ω, i,-3A,...
please solve these 2 problems. I will rate you up In the circuit shown below, let...
please solve these 2 problems. I will rate you up
In the circuit shown below, let V. - 3 V.1. - 1 mA, R-3k, Ry - 2.5 kA, R = 1 kq Use mesh analysis to find mesh currents I, and 12. Also, find Vı. R1 V1 R2 W 2 is len 3kR 12 R3 100 IMA Problem 5 In the circuit shown below, let V, -8 V, 1. - 2 mA, R2 = 1 k 2, R2 = 400,...
3.1. For the BJT differential pair configuration shown below, assume the input transistor beta is very large. Then...
3.1. For the BJT differential pair configuration shown below,
assume the input transistor beta is very large.
Then find the differential signal vd = vB1 − vB2 sufficient to
cause:
3.2. A differential amplifier resembling that below uses I =
200μA, RC = 10kohm and VCC = 3V. Assume beta is very large
3.4.For the emitter follower in the figure below, given VCC =
15 V, VEE = −15 V, RL = 1 kohm and beta = 100 for all...
3.1 Circuit Solution by Inspection 3.1 In the circuit of Figure P3.1 let vs = 8 V. (a) Find is such that i = 2 mA. (b) Repeat, but with the voltage source terminals interchanged, so that the positive terminal is now at the right. 2 ks2 S 3k92 Figure P3.1 3.20 Apply nodal analysis to the circuit of Figure P3.20 to find the power dissipated by the 2-82 resistance. Check your result. 12 V in 893 293 LL Figure...
please show work
58 PROBLEMS Sections 3.1 and 3.2 3.1. (I) What net force must be exerted on a 7.0-kg saclk of potatoes to give it an acceleration of 3.5 m/sec 3.2. (I) Anet force of 30 N is applied to an object, which is then observed to accelerate at 0.25 m/sec2. Caleu- late the mass of the object. 3.3. (I) Calculate the acceleration of a rocket of mass 1.2×106 kg if the net force on it is 2.0 ×...
Final Exam Solve any six of the following problems: Solve for Vo in Figure below using mesh analysis. 1. 2 92 420 V (+
Final Exam Solve any six of the following problems: Solve for Vo in Figure below using mesh analysis. 1. 2 92 420 V (+
1. calculate node voltage V1 and V2
2. calculate the voltage drop across 10k resistor equal to the
difference between V2 and Vs2
3. Calculate mesh current i1,i2, i3
4. calculate the current through 2.7k resistor
5. does the current measured through 2.7k resistor equal to the
difference between the currents i2 and i3? show all
calculations
equired Itheory a Construct the circuit shown in Fig. 2 on your breadboard. 1 k 2 w V, 1k22 V, 10 k92 VS2...
Solve both problems please
1. Write the mesh equations and determine I in the circuit below. 36V 200Ω 10V 130A 150S2 2. Apply nodal analysis to the following circuit to determine the voltage V. 100Ω 3V 13Ω 487Ω
Please answer number 1 - 3
PHY242 Homework #14 - Chapter 25 Do the following problems on Engineering Computation Pad paper following the standard problem format. Be sure to start each problem on a new sheet of paper A circuit node is shown below. Apply Kirch hoff's Node Law to answer the following. a. If I1.25 A and I2 = 0.75 A, what is the value of I3? b. If I1 1.25 A and I3 = 9.35 A, what is...
3.2 Mesh-Current Method (3-2) Apply the mesh-current method to determine the mesh curents h to l. From these results determine the voltage across the current source Vi. R4 V, I R3 Vsrc Figure 3.2: Circuit for Problem Use these component values: . ISRs-12.5 mA . Ri = 5.6 kQ, R2 = 2.2 kQ, R3 = 3.3 kQ, and R4 = 4.7 kΩ
explain clearly and step by step using to study for final exam.
will rate tthanks
Problem 1: Consider the electrical circuit below and assume R1 = 12Ω, 10Ω, R3-9 Ω, R4-8 Ω, i,-3A, and v.-2 V. Using, Node-Voltage method, please, find the voltages vi, U2, v3 and the current i depicted in the figure. R1 Vs 1V2 VI RA releience Node .
Problem 1: Consider the electrical circuit below and assume R1 = 12Ω, 10Ω, R3-9 Ω, R4-8 Ω, i,-3A,...
please solve these 2 problems. I will rate you up
In the circuit shown below, let V. - 3 V.1. - 1 mA, R-3k, Ry - 2.5 kA, R = 1 kq Use mesh analysis to find mesh currents I, and 12. Also, find Vı. R1 V1 R2 W 2 is len 3kR 12 R3 100 IMA Problem 5 In the circuit shown below, let V, -8 V, 1. - 2 mA, R2 = 1 k 2, R2 = 400,...
3.1. For the BJT differential pair configuration shown below,
assume the input transistor beta is very large.
Then find the differential signal vd = vB1 − vB2 sufficient to
cause:
3.2. A differential amplifier resembling that below uses I =
200μA, RC = 10kohm and VCC = 3V. Assume beta is very large
3.4.For the emitter follower in the figure below, given VCC =
15 V, VEE = −15 V, RL = 1 kohm and beta = 100 for all...
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