6. Use the Voltage-Division principle to find voltage v. Then find the current i1, i2, and...
Find I1, I2 and I3 for the circuit attached above. 30 Ω 20 V 1 13 10 V 112 20 Ω
Use the mesh-current method to find the branch currents i1, i2, and i3 in the circuit in figure (Figure 1) if v1 = 35 V and v3 = 81 V .Find the current i1.Find the current i2.Find the current i3.
(1 point) In the circuit below, i1 = -2 A, i2 = 8 A, and v1 = -2 V. Use nodal analysis to find vx and iy in the circuit below i1 8Ω 15 Ω 36 Ω 2 iy y 14 Ω 20 Ω ν1 24 Ω 10 Ω i2 40 Ω 35 Ω 12 Ω 16 Ω 0.4Vx 2013 Paul Hummel CC BY NC SAΑ
solve the two problems P3- In the circuit below, Vs 20 V. find the current in R. (Steps: find: 1a using current division then 14 using current division) 330 2 56012 3302 560 12 P4- In the circuit below, find vi and v2 using voltage division and/or current division. 90Ω 60Ω 150 Ω 75 Ω 10 V 40Ω
Use Mesh Current Analysis To determine Currents I1 and I2 for Figure 5.54 but use these component values: R = 5 ohm XL = +j15 ohms. Xc = -j10 ohm P5.54. Solve for the node voltage shown in Figure P5.54. 310 V 52 누 20/09 10000 +jils 10/180°
The following equations describe an electric circuit. −I1(233 Ω) + 5.80 V − I2(389 Ω) = 0 I2(389 Ω) + I3(150 Ω) − 3.10 V = 0 I1 + I3 − I2 = 0 Calculate the unknowns (in mA). With respect to the 5.8 V battery, consider current moving toward the positive pole as positive and current moving toward the negative pole as negative. I1= ________mA I2= ________mA I3= ________mA
The following equations describe an electric circuit. −I1(236 Ω) + 5.80 V − I2(400 Ω) = 0 I2(400 Ω) + I3(150 Ω) − 3.10 V = 0 I1 + I3 − I2 = 0 (a) Draw diagram of the circuit. Identify the physical meaning of each unknown on your drawing. (b) Calculate the unknowns (in mA). With respect to the 5.8 V battery, consider current moving toward the positive pole as positive and current moving toward the negative pole as...
(a) Determine the currents I1, I2, and I3 in the figure above. Assume R = 12 Ω and the internal resistance of each battery is r = 1.0 Ω.I1 = ____ AI2 = ____ AI3 = ____ A(b) What is the terminal voltage of the 6.0 V battery?______ V
The following equations describe an electric circuit. −I1(209 Ω) + 5.80 V − I2(382 Ω) = 0 I2(382 Ω) + I3(150 Ω) − 3.10 V = 0 I1 + I3 − I2 = 0 (a) Draw diagram of the circuit. Identify the physical meaning of each unknown on your drawing. (Submit a file with a maximum size of 1 MB.) This answer has not been graded yet. (b) Calculate the unknowns (in mA). With respect to the 5.8 V battery,...
3-6: Use nodal analysis to find the values of i1, i2, and iz: 1 kΩ 10 mA 5 kΩ 11 30v) 1 ξ 500 Ω ξ4 ΚΩ (Ε) 80 V