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DQuestion 12 Find the voltage (VR) across the resistor in the following circuit. j 10Ω ●...
Using Mesh Analysis in the circuit of figure P3.3, find the voltage V across the .25-ohm resistance. 0.5 Ω 3Α 1Ω 2 A ν<0.25 Ω 0.33Ω Figure P3.3
. Find the capacitor voltage )for both<0 and 120 in the following circui 20 k? 12 v ( 40 kQ 30 kQ 3. Find the inductor current i() for both 1 < 0 and 1 20 in the following circuit. 3 2 4 H 24 v 8? 4 2
3. Using superposition theorem, calculate the voltage v. 13A 10Ω 14Ω 240V 20Ω 14Ω 4. Find the voltage v, using superposition theorem. 3A 10Ω 18Ω 240V 20Ω 48V 14Ω 12Ω 3. Using superposition theorem, calculate the voltage v. 13A 1012140 + 240V + + {200 31402 3140 > 1 4. Find the voltage v, using superposition theorem. 10121802 + 3200 240V C 48V 1491 120
Consider the following linear circuit. The capacitor voltage is +) 1, t<0 vc(t) = let, t > 0 Determine the total energy dissipated in the resistor for 0 <t<. Tu Circuit + Eu(t)
please show steps 5) Given the following circuit determine the voltage across the 192 resistor for all time >0. 10(--mA 19 w 250 ml
Using the half-circuit analysis, find the differential voltage gain for the circuit All differential pairs are symmetrical, λ > 0) in1 in2
In the voltage regulating circuit that is shown the zener diode has Vz=4.8V. Its current its limited by the interval . Find the interval of the possible load resistances and the minimum and maximum power dissipated by the diode. Answer and 5mA < 12 < 100m.4
Question 1.3. Solve the circuit and find the current lo and the power PRo dissipated by Rc 12Ω 10 >Re=262 4Ω 12 V Figure 3: Voltage Sources Circuit Answer. Io= PR Question 1.4. Solve the circuit and find the voltages VA and VB 10Ω 3 A 22 VA 2Ω VB
1.6 1 The voltage and current at the terminals of the circuit element in Fig 1.5 are zero fort <0. For 0. they are 80,000esov V. 0; 1 - 1ste SAA a) Find the time when the power delivered to the circuit element is maximum. b) Find the maximum value of power. c) Find the total energy delivered to the cir cuit element.
The source voltage vg in the circuit in figure equals 32 V. Use the node-voltage method to find the power developed by the 32 V source. ****NOT A 20V BUT A 32 V SOURCE. DISREGARD WHAT THE PICTURE SAYS. JUST USE THE PICTURE FOR THE CIRCUIT*** Use the node-voltage method to find the power devel- oped by the 20 V source in the circuit 35 i 2Ω 1Ω 4Ω ぢ> 3.125 v