Answered: 1. By using the method of Gauss…

1. By using the method of Gauss elimination, Find the currents: ii(t), i2(t), i3(t)? 120 V Μ 30 Ω ii(t) 10 Ω Μ i3(t) 20 Ω 50Ω i2(t)

Related questions

Q: The circuit in the figure (Figure 1) includes a battery with a finite internal resistance, r= 0.30…

Q: Table 3(Resistors in both series and parallel) R(Q) ¡ex(A) R₁ R₂ R3 R4 Reg 10Ω 100Ω 1000 10Ω 10 100…

A: Given, R1=10ΩR2=100ΩR3=100ΩR4=10Ω The equivalent resistance,…

Q: In the figure the ideal battery has emf -32.6 V, and the resistances are R₁ R₂-210. Rg-R₁ Rs -9.10,…

Q: b) Calculate the Total equivalent resistance (RT) for the circuit shown in figure 4 and draw the…

Q: Use Kirchhoff's junction and loop rules to determine (a) the current 1₁, (b) the current 12 and (c)…

A: Kirchhoff's junction law, also known as Kirchhoff's first law or Kirchhoff's current law, states…

Q: Ex (H. W) Determine the current supplied by each Battery in the Grcuit 42 5 V 22 30 V 20 V- svT 5 V…

A: Let us assume that current flows in anticlockwise direction in each loop shown in the diagram…

Q: Ε Ο Γ 1 20 Ω 0.5 Ω R₁ 18 V R₁ 15 Ω I R₂ Έν 1₂ b g 0 12 13 6Ω 3.0 V 0.25 Ω R3 ww 8 Ω E4 24 V E3 ΓΑ rg…

Q: R1 R2 R3 E2 E1 1. Find the currents through each resistor given that R1 = 3N, R2 R3 = 22. The…

Q: In the circuit shown in the Fig. (a) find the emfs ɛ1 and E2 (b) find the potential difference of…

Q: In the figure the ideal batteries have emfs &₁ = 4.89 V and 2 = 10.2 V, the resistances are each…

A: To determine the potentials V1 and V2 at the indicated points, we'll need to apply Kirchhoff's loop…

Q: R2 R1 10KO R3 R6 3.1 kn BAT1 R5 R4 A) 13.884 mW B) 53.067 mw C) 24.25 mw D) 265.32 mW

Q: For each of the circuits shown, find the equivalent resistance seen by the source.

Q: 50 V 10 μF wwww 0.40 MO Initially, for the circuit shown, the switch S is open and the capacitor is…

Q: 3. In the circuit below the emf of the battery (in volt (A) 200 (B) 275 (C) 149 (D) 400 (E) 325 (F)…

Q: In the figure the ideal batteries have emfs &₁ = 4.89 V and ₂ = 10.2 V, the resistances are each…

Q: 3) The current in the 8.00 0 resistor in the drawing is 1.1 A. Find the current in a) the 20.0 Q…

A: Given : R1=8 ohm R2=16 ohm R3=9 ohm R4=18 ohm R5=20 ohm Current in 8 ohm resistor = I1 = 1.1 A We…

Q: Question: If a current of 64 A is running through point a, what is the potential difference between…

A: Given data: Current through point a (I) = 64 A Resistance (R1) = 6.7 Ω Required: Potential…

Q: Question 18 I 12.0V O2.32 A Given the above circuit connected to emf of 12.0 V. Compute the current…

Q: 29. || Find the current through and the potential difference across each resistor in Figure P23.29.…

Q: Gold and iron wires of equal length are found to have the same resistance. What is the ratio of…

Q: Reference figure for N. 13-15. Three resistors are connected as shown in the figure. The potential…

A: 2 ohm & 4ohm resistances are in a parallel configuration, its resultant is in series with 3-ohm…

Q: The figure shows a circuit with two batteries and three resistors. Determine the magnitude of the…

Q: 1. Find the currents: i¹(t), i2(t), i3(t) by using matices 120 V Μ 30 Ώ ii(t) 10 Ω Μ i3(t) 20 Ω 50Ω…

Q: Question 4. Consider an electric circuit as in Figure 2, determine, (a) the current in each…

Q: ww R, R1

A: Given: The network is redrawn as,

Q: R2 В >I R1 I- A

Q: 0.00 V battery in the figure (Figure 1) is removed from the circuit and reinserted with the opposite…

Q: I 12.0V ww R₁ = 12 O 11.31 V O 12.0 V Given the above circuit connected to emf of 12.0 V. Compute…

Q: # 5 Find the current through and the potential difference across each element in the following…

A: voltage of battery is Vb = 10 V Resistance R1 = 2.5 Ω , R2 = 15 Ω , R3 = 10 Ω , R4 = 5 Ω

Q: 7.67 Use any analysis technique of your choice to determine ic(t) in the circuit of Fig. P7.67. 3ic…

A: Given Use any analysis technique of your choice to determine iC(t) in the circuit, as following…

Q: 60.0 Ω 15.0 Ω 45.5 Ω 20.0 Ω 80.0 Ω An idealized voltmeter is connected across the terminals of a…

Q: The circuit to the right consists of a battery (V% = 3.00 V) and five resistors (R¡ = 411 2, R2 =…

A: Equivalent resistance in series R = R1 + R2 Equivalent resistance in parallel 1/R = 1/R1 + 1/R2

Question

1. By using the method of Gauss elimination, Find the currents: ii(t), i2(t), i3(t)?
120 V
+
30 Ω
ii(t)
10 Ω
Μ
i3(t)
20 Ω
Μ
50Ω
i2(t)

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

SEE SOLUTION Check out a sample Q&A here

Step 1: Determination of the equations:

VIEW

Step 2: Applying Gauss elimination method:

VIEW

Solution

VIEW

Step by step

Solved in 3 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Similar questions

6.0 V 9.0 V 1.0 Ω 1.0 2 Batteries a b R
Determine I when ε =36 V and R = 15 Ω.
PLEASE ANSWER ALL PARTS!!!!! VERY URGENT!!!!!!!!!!!!
In the figure the ideal battery has emf = 31.7 V, and the resistances are R1 = R2 = 41 Ω, R3 = R4 = R5 = 8.2 Ω, R6 = 5.4 Ω, and R7 = 4.8 Ω. What are currents (a)i2, (b)i4, (c)i1, (d)i3, and (e)i5?
If a voltmeter that is ideal is connected to measure the voltage across the 83.0-kΩ resistor, what is its reading? Enter the absolute value of the reading. (in image, x = 8.20 V)
A 36 V battery is connected to a network of resistors with R1 = 45 Ω, R2 = 36 Ω, and R3 = 108 Ω. What is the potential difference across R3? (in V) (a) 54.0 V (b) 13.5 V(c) 27.0 V(d) 36.0 V
In the figure ε1 = 3.24 V, ε2 = 0.829 V, R1 = 4.71 Ω, R2 = 1.75 Ω, R3 = 3.59 Ω, and both batteries are ideal. What is the rate at which energy is dissipated in (e) battery 2?
2a