What is the relationship between the two given equations? v1=100 cos(377t +30°) volts v2=120 cos(377t +60°) volts
Q: 1 Find the activity factor at the output of each gate if P at A, B and C are all equal to 1/2.
A: We are authorized to answer one question at a time, since you have not mentioned which question you ...
Q: Within a region of free space, charge density is given as P C/m?. Find the total charge lying within...
A: In this question we have given volume charge density within sphere....We have to find out total char...
Q: A network connected between terminals a and b consists of two parallel combinations that are in seri...
A:
Q: Communication Three different information signals each bandlimited to 6kHz, 11kHa, and 3kHz. quantiz...
A:
Q: 1. Calculate position of Fermi level in n-type silicon with donor concentration of 3x1017 cm-³ at a ...
A: Brief description : Generally semiconductors are divided as two types 1.Intrinsic semiconductors an...
Q: 1. 2. List out the various types of pressure sensor. Explain any one with necessary diagram.
A: Types of pressure sensor Strain Guage pressure sensor Sputtered thin film pressure sensor Variabl...
Q: For the circuit shown in Figure 2(c), determine the range of the load resistance and load current. [...
A: In this question, We need to calculate the range of load resistance and load current? Power dissip...
Q: Q. Use the below PAL device to realize the logic functions f1and f2 given by the following truth tab...
A: The solution is given below
Q: linear, lumped-parameter electrical RLC is shown in Figure Q1a below. Let C = 1F, R = 22, L = 1H. Ze...
A: We need to find transfer function for given circuit
Q: Design the combinational circuit using decoder and two-input NAND gates. (a) F(A, B, C)= A B'C + AB'...
A:
Q: The network N1 shown in Figure 123(a) contains linear RLC components. The driving- point input imped...
A: The circuit is shown below: The impedances of the encircled portion are calculated as: Z1=R1+1jωC...
Q: what value of capacitance is required to produce 50V of reactance at 450 MHz
A:
Q: From the given circuit, determine the following: a. The voltage across the resistor Rx and the power...
A:
Q: A d.c. motor is driven from a class-A d.c. chopper with source voltage of 220 V and at frequency of ...
A: DC motor- A DC motor is a machine that converts the DC input fed into the armature (assuming the sta...
Q: 3/ A Smasodail signal Shown in figure (1) be low: Vや- Time (t) Upp is 12v and T= 0.08 Sec I- Explain...
A: Please find the detailed solution in below images
Q: COMPLETE SOLUTION Derive the truth table, simplified Boolean function (equation), and draw the logic...
A:
Q: A 1 MHz carrier with an amplitude of 1 V peak is modulated by a 1 kHz signal with m = 0.5. Sketch th...
A:
Q: A 350 Hz sinusoidal
A:
Q: Q1: If the frequency of information signal is 5kHz find 1- The number of pulse in one second and fin...
A: Given:f=5 kHz
Q: (s+a)(s+b) plant is sampled using a zero-order hold (ZZOH) before the signal is fed to a digital con...
A:
Q: A single phase transformer is rat 2,424 V / 206 V. 60 Hz The eau
A:
Q: s(3s+2) Given the system transfer function T (s) what is the steady state phase angle shift (radians...
A: We need to find steady state phase angle for given system
Q: A coaxial cable's shiled diameter is 0.4cm and the inner conductor has a diameter of 0.02cm. What is...
A: STEPS: First find the L and C of the cable using Inner and outer diameter Characteristics impedance...
Q: to find the value of planks const and photoelectric work function of the material of the cathode usi...
A: Given: value of planks const and photoelectric work function of the material
Q: 3. For the power amplifier circuit in Figure A: a) Calculate the power input and power output if the...
A: A power amplifier (PA) is a device that transforms a low-power signal into a higher-power signal. Au...
Q: Selve tie chfferstiat egartier by luplace troms f リーフ=シツ)=!, fio) =t 24 Sulve ジナジ+7ソ=e 9(0) = 0-16, ...
A:
Q: 50:1 1:20 Ideal Ideal be
A:
Q: Expand the following equation of Laplacetransform in terms of its partial fractionsand obtain its ti...
A: The solution is given below
Q: iF AN AMMETER WAS CONNECTED BETWEEN SWITCH1 AND POTENTIOMETER R1, HOW MUCH CURRENT WOULD IT INDICATE...
A: The solution is given below
Q: Reduce the system shown below by using the block reduction:
A:
Q: i1. Find VAB for the given circuit below in Figure lc. +20 V • 100 150 20 202 A B Figure lc
A:
Q: Find v in the circuit of the figure. 6 V ww 14 V 30 20 62 Select one: O a. -800 mV O b. 800 mV O C. ...
A: Given data,
Q: Determine the transfer function for the op-amp circuit shown in the Figure below. Let R1 = 167 KN, R...
A:
Q: . For the combinational op-amp circuit in Figure 1: A. Identify the connection/application of each o...
A: For the combinational op-amp circuit four op-amps are used with different configurations.
Q: What is the phase sequence of a three-phase motor for which VAN =220 /-100° V and VeN =220 140°V ? Q...
A: As per the guidelines given, we can only solve one question in multiple type questions. To get the s...
Q: Explain the successive approximation
A:
Q: Find I, in the network in Fig. P2.55. 4 k2 7KO 31x 6 mA 2ΚΩ 8KO Ix Figure P2.55 ww
A:
Q: Is it okay to use a cable tray for the horizontal path of telephone lines to their specific outlets?...
A: EMT conduit size (inch) Number of cable 1 4 1-1/4 6 1-1/2 8 2 14 2-1/2 17
Q: The resistive network shown in Figure 87(a) contains a VCVS and a VCCS, and is driven by a 22V de vo...
A: The resistive network is shown below,
Q: Explain Repulsion Type moving iron Instrument with neat diagram.
A: REPULSION TYPE MOVING IRON INSTRUMENT: Moving iron instruments of the repulsion type are utilized fo...
Q: Calculate v and i, in the circuit of Fig. 12Ω + 16 V - + v - + 10 V 4 V 3i (+1)
A:
Q: R = 175 Ω, R2 = 885 Ω, and R3 = 635 Ω, find R1 (in Ω). R1 = Ω
A:
Q: which type of overload relays connect a coil in series with the conductors supplying power to the mo...
A: "Thermal overload relays" connect a coil in series with the conductors supplying power to the motor....
Q: 2. The switch in the circuit has been at position a for a long time before closing at t = 0. Find v....
A:
Q: The network Nc shown below in Figure 1.99(a) contains a combination of scaled capaci- tors in series...
A: When capacitors are connected in parallel their equivalent value adds up and when capacitors are con...
Q: V3 -y (s) U Cs) s(S+1) Kz What are the constraints of K, and k, to Keep the system stable ?
A:
Q: or the circuit shown in Figure 2(c), determine the range of the load resistance and load current. [ ...
A:
Q: 2. Gather the data about hudan-eleckic power stations in 1lant @ capacily (gncation capacity) O loca...
A: Hydroelectric Power plant Generation Capacity Large Hydropower plant (> 30 MW) Small Hydropower ...
Q: Sag of the conductors of a transmission line is 2 m when the span is 200 m. Now if the height of the...
A: The vertically difference in level across points of support (most typically transmission poles) and ...
Q: Convert the following expressions to SOP forms: (a)(A'+ B) (C+D) (b) (A +B.C)·D (c) (A+c)·(A·B.C+A•C...
A: Please find the detailed solution in below image.
Step by step
Solved in 2 steps with 2 images
- find the power dissipated in each conductor: (P=Vi)Facts: R1=245Ω, R2= 440Ω R3=100Ω, V1=12V V2= 10VDont copy paste need new SOLUTIONs.solve with diagrams with clean Handwriting or understanding solutions A single-phase 60-Hz power line is supported on a horizontal crossarm. The spacing between conductors is 8 ft. A telephone line is supported on a horizontal crossarm 6 ft below the power line. The conductors of the telephone line are AWG No. 14 solid copper (d = 1.6277 mm) spaced 2 ft between centers. The conductors of the power line are AWG No. 2 solid copper (d = 0.2576 in). Find the mutual inductance between the circuits and the voltage per mile induced in the telephone line if the current in the power line is 150 A.The voltage applied to a circuit having a resistance of 12 ohms is 150 sin 377t volts. Determine: (a) equation of current wave, (b) equation of power wave, (c) frequency of power wave, (d) average power, (e) power when t = 0.002 sec., and (i) the energy delivered to the circuit when t = 0.002 second.
- Accordingly, find the current i at t=21.6 seconds. V=35cos(1300t+40) voltsR1=11 ohmsC=90 microFL=9mHR2=31 ohmsAccordingly, find the current i at t=21.6 seconds.Take eo=1.6×10-19JV, k=1.381×10-23JK Question 4 : A solar cell (photovoltaic cell) has an open circuit voltage value of 0.5 V with a reverse saturation current density of J0=1.9×10-9Am2. The temperature of the cell is 25℃, the load voltage is 0.55 V. The solar irradiation is 900 Wm2, determine (c) The power output of the cell per unit area considering this load voltage 0.55 V, and the current output density of (b), and (d) The efficiency of the solar cell.A load that draws 12A is located 275 feet from its 240VDC source. It is supplied by aluminum conductors with a diameter of .092 inches operating at 75°C. What is the resistance of one conductor? [Answer is 10 ohms] Using the answer from this question, what is the voltage dropped across the load?
- Question 19.] Determine the induced voltages of e1 and e2 given the following1. How will the increase in atmospheric temperature affect the Transmission Line Sag? A. CUTS THE CABLE, CABLE FALLS TO THE GROUND B. INCREASES THE SAG C. REMAIN THE SAME, NO EFFECT D. DECREASES THE SAG Clear my choiceCalculate the actual sag and vertical sag from the following information (1) Carrying capacity of conductor Wc = 0.9 kg. / m (2) Weight of ice coating Wi =0.848 kg. / meter (3) Wind pressure Ww=1.83 kg. / meter (4) Breaking strength of conductor=5250 kg (5) Safety factor =2.5