![2 12 marks.] Use the mesh-current method to find the curent i(t) in the following circuit. Give just the peak current in Amperes. 10:11 10? 100 nF i(t) 50 sin (10 + 25 cos (106t + 90 10? 3. [1 mark/ For Question #2 above, give the phase angle of i(t) in degrees.](http://img.homeworklib.com/questions/f4665d90-aaa4-11ea-874c-c3bd75b4e0ee.png?x-oss-process=image/resize,w_560)
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2 12 marks.] Use the mesh-current method to find the curent i(t) in the following circuit....
A.) Use the mesh-current method to find the branch current Ia in the circuit shown in the figure ...
A.) Use the mesh-current method to find the branch current Ia in
the circuit shown in the figure when Io= 2.2 ∠0∘A, Vg1= 22 ∠0∘V,
and
Vg2= 11 ∠0∘V.(Figure 1)
B.) Use the mesh-current method to find the branch current Ib in
the circuit shown in the figure.
C.) Use the mesh-current method to find the branch current Ic in
the circuit shown in the figure.
D.) Use the mesh-current method to find the branch current Id in
the circuit...
In the circuit below all elements units are ohms. V(t) = 120 volts at a phase...
In the circuit below all elements units are ohms. V(t) = 120 volts at a phase angle of 0 degrees. Find the value of the current, I, in the branch indicated with the inductor and resistance. Select the answer in amperes in phasor form (current followed by a phase angle) closest to your answer since values can be off by 10%. -4phone VIE) A. 11 amperes at a phase angle of 1 degree B. 30.75 amperes at a phase angel...
P5 [Ex. 9.60) Use the mesh-curren at method to find the steady-state expression for i.(t) in...
P5 [Ex. 9.60) Use the mesh-curren at method to find the steady-state expression for i.(t) in the circuit below, if valt) -100 cos 50000t V, and t)-100 sin(50000t+ 180°) v. P5 10Ω 0. 100 μΗ 2) 7b
4. Use the mesh-current method to find i, iandi in the circuit shown in Figure 4....
4. Use the mesh-current method to find i, iandi in the circuit shown in Figure 4. W 1.50 Fig. 4 5. Use the mesh-current method to find i, toi, in the circuit shown in Figure 5. 250 m . 1000 200 V +) 500 10 Fig. 5 6. Use the mesh-current method to find the power that the current source delivers to the circuit shown in Figure 6. 5.60 0.80 30 A Fig. 6
Using mesh method only 2. For the following circuit, determine the current I (Hint: use mesh-equations...
Using mesh method only
2. For the following circuit, determine the current I (Hint: use mesh-equations method.) ?? 2? (A) 0.2 A (B)-1.5A (C)-0.25 A (D)-0.6A (E)-1.2 A
Use mesh analysis to determine the currents h(t) and iz(t) in the given circuit. Assume V1...
Use mesh analysis to determine the currents h(t) and iz(t) in the given circuit. Assume V1 = 10e-40 V, V2 = 12e V, R = 82, R2 = 42, R3 = 60, X = 10 , and Xc = 14 (The phase angle for V, and V2 is measured in degrees. Round the final answers to the nearest whole numbers.) R: 3 The currents if(t) = 731 cos(wt+-46°) mA and iz(t) = 641 cos(wt+-171 ®°)mA.
3. Use mesh-current method to find the steady-state expression for io(t). vs1 60 cos(40,000t)V v,,-90 sin(40,000t...
3. Use mesh-current method to find the steady-state expression for io(t). vs1 60 cos(40,000t)V v,,-90 sin(40,000t + 180°) V si- 202
Chapter 16, Problem 16.025 Calculate vo(t) in the circuit shown in the figure below ifh(t) is...
Chapter 16, Problem 16.025 Calculate vo(t) in the circuit shown in the figure below ifh(t) is 200 cos(105t + 60°) mA, i2(t) is 100 sin( 105t + 90°) mA, and vs(t) = 10 sin(105t) V vcl!) 250 nF 36 Ohnvo() (a) Find the amplitude of vo(t) (b) Find the phase of vo(t) in degrees degrees Chapter 16, Problem 16.011 (Circuit Solution) Find Z in the network in the figure below 2? 1? 2? 2?
For the following circuit: (a) Second step use Mesh-Current Method to solve for all of the...
For the following circuit: (a) Second step use Mesh-Current Method to solve for all of the currents flowing in each of the different resistors in the circuit. Show all steps. (b) Find the current flowing from the voltage source and the voltage across the current source. (c) Calculate what i, and v, are in the circuit. i 45 Ω 2 A 60 12 512 V 10 V 2012 3512 1012 +
Learning Goal: To use the mesh-current method to solve circuits containing resistors and both independent and...
Learning Goal: To use the mesh-current method to solve circuits containing resistors and both independent and dependent sources. The mesh-current method is a general technique for solving planar circuits. When the circuit contains a dependent source, that source will create a constraint and add an unknown to your system of equations. You must write a constraint equation for each dependent source, in addition to the KVL equations. Before beginning this tutorial, you should review the mesh-current method and the four...
A.) Use the mesh-current method to find the branch current Ia in
the circuit shown in the figure when Io= 2.2 ∠0∘A, Vg1= 22 ∠0∘V,
and
Vg2= 11 ∠0∘V.(Figure 1)
B.) Use the mesh-current method to find the branch current Ib in
the circuit shown in the figure.
C.) Use the mesh-current method to find the branch current Ic in
the circuit shown in the figure.
D.) Use the mesh-current method to find the branch current Id in
the circuit...
In the circuit below all elements units are ohms. V(t) = 120 volts at a phase angle of 0 degrees. Find the value of the current, I, in the branch indicated with the inductor and resistance. Select the answer in amperes in phasor form (current followed by a phase angle) closest to your answer since values can be off by 10%. -4phone VIE) A. 11 amperes at a phase angle of 1 degree B. 30.75 amperes at a phase angel...
P5 [Ex. 9.60) Use the mesh-curren at method to find the steady-state expression for i.(t) in the circuit below, if valt) -100 cos 50000t V, and t)-100 sin(50000t+ 180°) v. P5 10Ω 0. 100 μΗ 2) 7b
4. Use the mesh-current method to find i, iandi in the circuit shown in Figure 4. W 1.50 Fig. 4 5. Use the mesh-current method to find i, toi, in the circuit shown in Figure 5. 250 m . 1000 200 V +) 500 10 Fig. 5 6. Use the mesh-current method to find the power that the current source delivers to the circuit shown in Figure 6. 5.60 0.80 30 A Fig. 6
Using mesh method only
2. For the following circuit, determine the current I (Hint: use mesh-equations method.) ?? 2? (A) 0.2 A (B)-1.5A (C)-0.25 A (D)-0.6A (E)-1.2 A
Use mesh analysis to determine the currents h(t) and iz(t) in the given circuit. Assume V1 = 10e-40 V, V2 = 12e V, R = 82, R2 = 42, R3 = 60, X = 10 , and Xc = 14 (The phase angle for V, and V2 is measured in degrees. Round the final answers to the nearest whole numbers.) R: 3 The currents if(t) = 731 cos(wt+-46°) mA and iz(t) = 641 cos(wt+-171 ®°)mA.
3. Use mesh-current method to find the steady-state expression for io(t). vs1 60 cos(40,000t)V v,,-90 sin(40,000t + 180°) V si- 202
Chapter 16, Problem 16.025 Calculate vo(t) in the circuit shown in the figure below ifh(t) is 200 cos(105t + 60°) mA, i2(t) is 100 sin( 105t + 90°) mA, and vs(t) = 10 sin(105t) V vcl!) 250 nF 36 Ohnvo() (a) Find the amplitude of vo(t) (b) Find the phase of vo(t) in degrees degrees Chapter 16, Problem 16.011 (Circuit Solution) Find Z in the network in the figure below 2? 1? 2? 2?
For the following circuit: (a) Second step use Mesh-Current Method to solve for all of the currents flowing in each of the different resistors in the circuit. Show all steps. (b) Find the current flowing from the voltage source and the voltage across the current source. (c) Calculate what i, and v, are in the circuit. i 45 Ω 2 A 60 12 512 V 10 V 2012 3512 1012 +
Learning Goal: To use the mesh-current method to solve circuits containing resistors and both independent and dependent sources. The mesh-current method is a general technique for solving planar circuits. When the circuit contains a dependent source, that source will create a constraint and add an unknown to your system of equations. You must write a constraint equation for each dependent source, in addition to the KVL equations. Before beginning this tutorial, you should review the mesh-current method and the four...
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