Q4/// What is the current of the 40 v ?voltage source of the circuit below SA 202 w 802 w 103 40 20 V 40 V Current source Voltage source leave question o 13 A 0.5 A O 12A O 10 A 1A O أخرى: Q5/// The maximum power dissipated in a 4 load is 100 w when connected to a d.c. voltage V and internal resistance R. Calculate: the current in the load, internal *.resistance R, and voltage V...
1. Find V in each case. 10 M N v 405v ) v 40 5v 340 10 NV | + V - + V - { 40 sv 40 .5v 40 10 M V- + 340 5v v 40 sv * 340 5v 340 V350350 20 + V - W 350 50 Hint - How much current flows through the 2 resistor?
For the DC cicuit show below, find the voltage and current across each resistor. The voltage source is 40V. Find the power dissipations in R1 and R3. Click on the circuit to view a larger image 20 , RB 500 2, Rc RA 400 , and Rp 75 - - Current through RA A Voltage drop across RA V Power dissipation in RA W Current through Rg A Voltage drop across R V Current through Rc = A Voltage drop...
Four resistors having resistances of 20 ohms, 40 ohms, 60 ohms, and 80 ohms are connected in series across an ideal dc voltage source. If the current through this circuit is 0.50 A, what is the voltage of the voltage source? 20 V 40 V 60 V 80 V 100 V
A simple DC circuit is shown below with ideal current and voltage sources. Find the voltage (Vout) across the current source, in volts. 212 10 V 5A out
The sinusoidal voltage v= 200 sin(2ttfe+60) is plotted in the Figure wheref=897,62 Hz. Find t, in milli-seconds 20 200 te 11 ms. 0 TT 2TT -160° Answer: If the source voltage is E= 24 volts, R=1.1 kOhm, R2=3.8 kOhm and R3-6.5 kOhm. The measured voltage by the voltmeter in the circuit of the figure is Volts w Rk Riko ŽR in
An ac source of maximum voltage Vo = = 40 V is connected to a resistor R = 60 12, an inductor L = 0.5 H, and a capacitor C = 30 uF. Find the average power at 60 Hz. Select one: a. 35.3 W b. 70.6 W C. 0.13 W d. 3.53 W e. 7.06 W X
n the circuit shown, the AC voltage source supplies an rms voltage of 156 V at frequency f. The circuit has R = 99 W, XL = 190 W, and XC = 93 W. (a) Find the impedence of the circuit. Z = W (b) Find the rms current flowing in the circuit. Irms = A (c) Find the phase angle in degrees between the current in the circuit and the voltage supplied by the AC source. f = degrees ...
can you solve this 5 problem please Q2. Using voltage divider and/or current divider to find the unknown on each of the circuits: 40 V -) ) ξR, υ ξR, 6 Ω 20 Ωξυ, 2.4A 1) 1890 Ω ξ10Ω 10 Ω ξ5 kΩ 360 kΩ 45 VI + υ, ξ 20 kΩ ξ90 ΚΩ Q3. Using a Y to delta transformation find the currents il, i2, and i3. And the power delivered by the source. 56 Ω 44Ω 80 Ω...
Please show all work and demonstrate how to find the expressions for the voltage v(t) 40 V 60 ms 140 ms 200 ms 240 uF Given: The figure above shows a 240 uF capacitor with a time-varying voltage across it. The graph above the figure shows the waveform of that voltage. Required: Determine the capacitor current at ta = 30 ms, at tp = 100 ms and at te = 170 ms.