Answered: Calculated the total energy stored in…

Calculated the total energy stored in the shown circuit. Given that: V= 6, C=0.00003, and L= 0.0232 10 N 15 N 15 N V CF LH

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter17: Resistive-inductive Series Circuits

Section: Chapter Questions

Problem 2PP: Assume that the voltage drop across the resistor, ER, is 78 V, that the voltage drop across the...

See similar textbooks

Related questions

Q: The current source in the following circuit is supplying current as shown in the figure below. Find…

Q: Find the numerical value for R. for maximum power transfer for Ro. Find Pmax- + VA 340 0.85 vA R. 24…

A: Applying nodal analysis at node 1:V∆2=V-6i∆4+i∆i∆=-0.85 V∆V∆2-V4+i∆2=0-V4+3V∆40=0→equation 1from…

Q: Consider the circuit shown in Figure below: 1H 2 H 2H ele 10e Mu(t) V 10 i. Compute the values of…

Q: H.W.// Find the current i(t) in the network in Figure shown below: i(t) 20 1 v(t) = 120 sin 50 uF…

A: Ohm's law is very important to find the current, voltage, or resistance of a circuit. According to…

Q: A solenoid has a self inductance of 5.00 H. If the current varies at a rate of +3.45 A/s, what is…

A: In this answer we will try to find the magnitude of the self induced emf using the parameters given…

Q: 2. A 0.5uF capacitor has voltage waveform v(t) as shown in following figure, plot i(t) as function…

Q: Given: L, B, C. 01 Caleulate the oltage v(t) at t = 3 s across a L mH inductor if the current…

Q: H.W.// Find the current i(t) in the network in Figure shown below: i(t) 20 N v(1) = 120 sin + 50 µF…

Q: ind the current i(t) in the network in Figure shown below: 20 1 )120 sin (3771 + 60) V 50 µF 40 mH

A: we need to find out current i(t).

Q: In the following circuit, if L, 10 H, then the energy stored in the inductor is: 22 ww re 2 F LI 3…

Q: 28 A constant voltage is applied to a series RL circuit at t=0. The voltage across the inductance is…

Q: In the circuit shown, if the chargo stored by tho 2.0 microFarad capacitor is 32 microCoulomb find…

Q: Determine the inductor current i(t) for both t = 0– and t > 0 for the given circuit. Assume V = 27…

A: Before t=0, steady state was reached so inductor acts as a short circuit and switch is open.…

Q: Answer the following questions: QI) For the circuit in Fig. (1), find the inductor voltage for t> 0.…

A: Here i have found the inductor voltage by differentiating the inductor current.

Q: The figure shows the voltage across L = 30OH , then the current through inductor at t = 1.5 s is (…

A: Find the current in the inductor again time to= 1.5s Assume initial current is zero.

Q: H.W.J// Find the current i(t) in the network in Figure shown below: i(t) v(t) = 120 sin (377t + 60°)…

Q: Under de condition, find ig, V1, the energy stored by the inductor and capacitor, for the given…

A: In DC conditions, the capacitor will act as an open circuit and the inductor will act as a short…

Q: The switch in the circuit shown in the figure below is opened at t = 0 s. Assume that I; = 6.5 A.…

A: To find the voltage and current value in the given figure

Q: For the network in following circuit, determine the capacitance that will ensure maximum power to…

Q: Assume thát the switch in the circuit given below has been closed for a long time and the source…

Q: For the following circuit, solve for v(t) at t>0. 150 t = 0 120 25 1 v(1): 1/27 F 24V 601 3H

A: Circuit: The electrical circuit is the interconnection of the resistors, capacitors, inductor,…

Q: 9. Find i(t) in the circuit given below. Assume that the circuit is reached steady state at t=0. t =…

Q: 42 150 + 2 9A Q.32: For the circuit shown, the switch has been in position "1" for a long time. At…

Q: i (1) 3 H O v(1) 10 H 15 H The input to this circuit is the voltage source source voltage V(t) =…

Q: ww 10 V(+ 2H lellll

Q: Pb. 4 For the circuit below, (a) find v(t). (b) find i(t). (c) What is the energy stored in L and C…

A: Given circuit

Q: Use nodal analysis to find io(t) in the circuit below. 2 ΚΩ 2 μF 0.25 H 10i0 4 sin (10000 t + 30) V

A: Solution XL=ωL =10000×0.25 =2500Ω XC=1ωC…

Q: connected in series carrying a current of 1 A. Find the

Q: For the circuit below, assume the capacitor is completely discharged for tOsec. b. Draw a sketch of…

A: a Given , Vimt=10vt C=0.01mF , R=20kΩ Vc0+=Vc0-=0V Time constant , Z=RC…

Q: Solve for i(t) and v(t) of the given circuit. ww y= 20 sin(10t + 30°) V 0.2 H

A: In phasor form

Q: iR 25 kN 20 kN 10u(t) V 5 µF 2 1 mA 80 kN

Q: 200 pF 1200 pF 40 V 400 pF C4 : 600 pF Find the total capacitance for the circuit above. Just write…

A: Given data Capacitance is C1 = 1200 pF Capacitance is C2 = 200 pF Capacitance is C3 = 400 pF…

Q: The following is given for a series R-L-C circuit: resistor (R) = 8 Ohms, an inductor (L) = 32 mH…

A: A series RLC circuit offers a net impedance of Z. The expression for the Total impedance offered by…

Q: The electric potential along the x-axis is V=325cos(7x) V, where x is in meters. What is Ex at 6.5m?

A: V=325cos7x Vx=6.5m

Q: Problem A: Given the time domain current i(t) = %3D 20cos(200t + 20 deg) A. Convert the current into…

A: Given time domain current is, i(t)=20cos200t+200 A

Q: For the following circuit, find R such that Rab=10.92 Q 10 Q a o WW 12 d 1Ω C R Rab 3Ω 4Ω 52 ww 12 2…

Q: H. W.: Find the total energy stored in the circuit of Figure below L, = 2 mH 30 L=4 mH 9v(+ C = 20…

A: Inductance: It is the electromagnetic property of matter where inductor is the component to design.…

Q: Consider the circuit given below where Vs=59 V and R;=22 Q. The contribution of the voltage source…

A: KCL states algebraic sum of currents at a node is equal to zero. It is also called nodal analysis.

Q: QI: For the circuits shown in figures. If the temperature has changed from 25°C to 65°C, find Alc.…

A: At 250C Ic =1.5mA Rf = 250KΩ Rc=1kΩ Re=0.5Ω VBE=0.6 β=55. We know IC=βIB+(1+β)ICO So we get…

Q: Find the current through inductor, i(t) at t = 2 sec. 5Ω 1 H ll 20 2 ww- t=0 V i + 50 V (A)1.7 mA…

A: Given circuit

Q: Find the angle (Ø) of the current i(t) given by; i(t) = 0.44 = 0.5 sin (0.2+ø) %3D %3D

Q: For the circuit shown in the Figure, the voltage v at t = 100 ms is: 5Ω %3D0 62 + v - 20 V 2 A 12 2…

A: Transient response is the response of a system which is the change in transient(equilibrium) or…

Q: he capacitor voltage in the circuit below is given by v(t) = 12 – 10e *v _ for t>0 Determine i(t)…

Q: The figure shows the voltage across L = 30H , then the current through the inductor at t = 1.5 s is…

A: Find the current in the inductor at time to= 1.5s Assume initial current zero.

Q: 2. The current in 7 µH inductor is given by i(t) = (4t + 3) A. What is the value of the inductor's…

Q: b. Find W. (capacitor energy) in the following circuit under DC conditions: 12 42 12 V 2 H 1F 25 J…

A: Given circuit, C=1 FL=2 H

Q: 10F 10 F 10 F 10 F H H H H 50V 10 F 10 F 10 F 10 F 10 F 10 F 10 F 10 F

Q: 42 1 F0 Q.17: The switch has been in position "1" for a long time. At t=0, the switch moves to "2".…

Q: In the circuit shown, th for a long time and is c current i(t) for t 20* is S 10 Ω i(1) [Ž10 sto www

Question

Calculated the total energy stored in the shown circuit.
Given that: V=6, C=0.00003, and L= 0.0232
10 N
ww
15 N
15 Ω
V
CF
LH

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

VIEW

Step 2

VIEW

Step by step

Solved in 2 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

Sinusoids and Phasors of Alternating Circuit

Learn more about

Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, electrical-engineering and related others by exploring similar questions and additional content below.

Similar questions

Assume that the current flow through the resistor, IR, is 15 A; the current flow through the inductor, IL is 36 A; and the circuit has an apparent power of 10,803 VA. The frequency of the AC voltage is 60 Hz. ET ER EL IT IR15A IL36A Z R XL VA10,803 P VARSL PF L
Inductive Circuits Fill in all the missing values. Refer to the following formulas: XL=2fLL=XL2ff=XL2L Inductance (H) Frequency (Hz) Inductive Reactance ( ) 1.2 60 0.085 213.628 1000 4712.389 0.65 600 3.6 678.584 25 411.459 0.5 60 0.85 6408.849 20 201.062 0.45 400 4.8 2412.743 1000 40.841
The circuit is connected to a 60-Hz line. The apparent power in the circuit is 29.985 VA, and the power factor is 62.5%. The resistor has a voltage drop of 14.993 V, the inductor has an inductive reactance of 60 , and the capacitor has a capacitive reactance of 45 . ETITZVA29.985PF62.5%ER14.993VIRRPELILXL60VARsLLECICXC45VARsCC
Fill in all the missing values. Refer to the formulas that follow. Resistance Capacitance Time constant Total time 150 k 100 F 350 k 35 s 350 pF 10 s 0.05 F 1.2 M 0.47 F 12F 0.05 s 86 k 1.5 s 120 k 470 pF 250 nF 100 ms 8 F 150 s 100 k 150 ms 33 k 4 F =RCR=CC=R Totaltime=5
Assume that the voltage drop across the resistor, ER, is 78 V, that the voltage drop across the inductor, EL, is 104 V, and the circuit has a total impedance, Z, of 20 . The frequency of the AC voltage is 60 Hz. ETITZ20VAPFER78VIRRPEL104VILXLVARsLL
A 250 pico-farad capacitance has a current drawing i = -12.75 cos(250t + 400) A. Determine the equation of voltage in the circuit.
Use CTFT table and properties to find the numerical value of x(t) at t=0.75 if x(t)= 3 sinc (2t) * sinc (4t) : Select one: a. 0.75 sinc (1.5) b. None of the given options c. 3 sinc (1.5) + 3 sinc (3) d. 3 sinc (1.5) sinc (3) e. 3/8 rect (1.5) rect (3)
A source voltage is connected across a 10ohm resistor. What is the la place transform of its current
Find the impedance theoretically of a wire if it carries the frequency 10 kHz have a voltage is 8v, the current is 2mA, resistance is 12 kΩ , inductance 27 mH and capacitance 0.2 µf
Find the current in the RLC-circuit when inductance is 0.1 H; resistance is 20 ohms, C = 0.0002 farad and E(t) is 110 sin(415 t) V at 66 Hz.
A 160 μF capacitor is connected in series with a 10 Ω resistor. Write the equation of the current when the voltage is 220 Vp? a. 11.4 sin (377t + 59) b. 8.9 sin (377t – 46) c. 9.8 sin (377t + 52) d. 7.2 sin (377t + 46)
In the following circuit it is given that u(t) = 325sin(314t)V. Find 1) The impedance of the circuit 2)the reading of an ammeter of negligible internal resistance, connected in series with the resistance 3)The waveform of the total current of the circuit