Answered: 6-For the circuit below, calculate the…

6-For the circuit below, calculate the value of R that will make the energy stored in the capacitor the same as that stored in the inductor under de conditions. R 160 µF 5 A 4 4 mH ll

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter19: Capacitors

Section: Chapter Questions

Problem 3RQ: A capacitor uses air as a dielectric and has a capacitance of 3 F. A dielectric material is inserted...

See similar textbooks

Related questions

Q: 6. A circuit having a resistance of 15 Q, an inductance of 0.15 H and a capacitance of 100 µF in…

Q: 6.20 Find the equivalent capacitance at terminals a-b of the circuit in Fig. 6.54. 1 µF =1 µF 2 µF +…

A: Given

Q: 2. A 4-mF capacitor has the current waveform shown in the figure. Assuming that v(0)=10 V, sketch…

Q: 27 Exercise 4.1 Find the time at which the voltage across the capacitor reaches 1 percent of its…

Q: 0.300 (a) Find the charge stored on each capacitor in the figure shown above (C, 17.8 uf. C,9.28 uf,…

A: Solution- C1 =17.8 μF C = C1 +C2 = 17.8+9.28 = 27.08 μF , C & C3 are in…

Q: In the following circuit, if L, = 10 H, then the energy stored in the inductor is: %3D

A: As the supply source is a DC current source, the capacitor will behave as open circuit and inductor…

Q: If a 6-µF capacitor is charged through a resistor a 10 k-ohm resistor, what is the circuit time…

A: Given: A capacitor is charged through a resistor. Capacitance, C=6 μF Resistance, R=10 kΩ

Q: In the following circuit, if L, = 10 H, then the energy stored in the inductor is: 29 "C 2F 3A() 452…

Q: Compute the energy stored in capacitor. * 6 H ll + 10 A 6Ω 2Ω 4 F

Q: 400 pF 100 pF 400 µF +1.5V 300 µF 100µF

A: According to the question we have to find the value of charge on the 300 μF capacitor.

Q: Homework 2: Find the current through a 5-H inductor if the voltage across it is 30r. v(1) = lo. 1 0.

A: Steps: Find current i(t) at t=5 s VL=Ldidt i=1L∫0t v(t) dt E=12L I2

Q: Consider the circuit shown below. If V = 100 V, R = 1 kN, L = 65 H, what is the current in mA…

Q: 6.21 Determine the equivalent capacitance at terminals a-b of the circuit in Fig. 6.55. 5 µF 6 µF 4…

A: Given : Brief description: In the above given question they have mentioned series and parallel…

Q: Question 10 A pure inductance of 100mH is connected in parallel to a 25μF capacitor. The network is…

Q: 6.46 Find vc, i̟, and the energy stored in the capacitor and inductor in the circuit of Fig. 6.69…

A: Capacitor- A capacitor is a pair of conductors located near each other; in use the conductors will…

Q: Chapter 7 Problem 46 The current source provides an AC current i,(t) = 5cos(3t) Amp. The capacitor…

A: Solution: Converting given circuit in s domain, Where Is(s)=LIs(t)Is(s)=L5cos3tIs(s)=5ss+9 Using…

Q: For the circuit shown Figure 3, Calculate the expression of the Ve(t) assume the initial value of…

A: for the above-given circuit expression of Vc(t) is calculated as shown below

Q: The circuit shown below has been connected for a long time. What is the energy stored in the 5 H…

A: At steady state inductor short circuited and capacitor open circuited. We will apply nodal analysis…

Q: With regard to the circuit presented inFigure below, (a) obtain an expression for v(7) which is…

A: Given the circuit, as shown below: We need to : a) Obtain an expression for v(t) which is valid for…

Q: 3 A capacitor works as a circuit under DC condition O short as it is open O planar

Q: Consider a 20 µF capacitor charged to 45 V. The charged capacitor is then connected to a 3.0 mH…

A: Given C= 20uF L= 3mH V= 45V

Q: What is the inductor current at t= 200 µs the circuit shown? 50 mH 1 k2 X t=0 5 mA, 2502 İL = _ mA

A: The given circuit is

Q: If the current through a 32.9 mH inductor is constant value 3.6 A, what is the ."inductor voltage in…

A: Given, Inductance of inductor, IL=32.9 mH Current is constant in inductor, IL=3.6 A

Q: The shown circuit has been closed for a long time. Find the charge (in uC) on the 6 µF capacitor if…

A: consider the given question;

Q: Find Ce, in the circuit of Fig. 6.52 if all capacitors are 4 µF.

Q: 6.19 Find the equivalent capacitance between terminals a and b in the circuit of Fig. 6.53. All…

Q: The circuit has been under DC conditions for a long time.

A: (a) Amount of energy stored in each of capacitor is calculated as follows,

Q: Two coils of inductance 6 H and 8 H are connected in parallel. If their coefficient of coupling is…

A: Need to find Leq for both cases First find M Therefoe M = K L1L2 = .4356x8M = 3.013 H Solution…

Q: 6. For the arrangement shown in Fig . Find The equivalent circuit capacitance and The voltage across…

A: The solution is given below

Q: For R1= 2 Q, 1= 5 A, L1= 4 mH, C1= 160 µF (micro farrad) in the shown circuit, calculate the value…

A: Resistors, inductors, and capacitors form an integral part of any electrical circuit. A source,…

Q: 3. A 3300 pF capacitor is required to store 0.5 mJ of energy. Find the pd to which the capacitor…

A: 3) Given: Energy to be stored E = 0.5 mJ Capacitor value C= 3300 pF

Q: Consider the circuit shown below. If V = 100 V, R = 1 k2, L = 65 H, what is the current in mA…

A: Applying KVL in loop gives diffrential equation in terms of inductor current i(t). Using intial…

Q: A 5 H inductor changes its current by 5.1 A in 0.6 s, Then the voltage produced at the terminals of…

A: Given L=5H ∆I=5.1A ∆t=0.6

Q: 2. For the arrangement shown in Fig. find (a) the equivalent circuit capacitance and (b) the voltage…

A: The given circuit is If two or more capacitors are connected in series, the equivalent capacitance…

Q: 6.46 Find ve, i, and the energy stored in the capacitor and inductor in the circuit of Fig. 6.69…

A: Under dc conditions capacitor acts as an open circuit and inductor acts like a short circuit.…

Q: Find the equivalent capacitance seen at the terminals of the circuit in Fig. 6.17.

A: A capacitor is a passive circuit element that can store charge. The amount of charge stored (Q) and…

Q: Given two capacitors 3.5F and 4.2F, and a total electric potential of 200V, find all the following…

A: Given: Two capacitors connected in parallel C1=3.5F C2=4.2F V=200volts we need to fill the table…

Q: Determine ve i, and the energy stored in the capacitor and inductor in the circuit of Fig. 6.28…

A: To solve above problem, one should know about dc condition of inductor and capacitor. When a…

Q: Determine vC, iL, and the energy stored in the capacitor and inductor in the circuit under de…

Q: Two metal plates with an area of 0.4 x 10-3 m² and separation distance of 1 x 10 m are used to form…

Q: 6. A circuit having a resistance of 15 Q, an inductance of 0.15 H and a capacitance of 100 µ F in…

A: Given values are - R=15ohmL=0.15HC=100μFf=50HzVS=100V

Q: 6.19 Find the equivalent capacitance between terminals a and b in the circuit of Fig. 6.53. All…

Q: 6. i. The capacitor sensors are simple by mechanical design and rugged to generate stable output. A…

Q: The inductor shown is 5 µH with a tolerance of +20%. Given the current waveform shown, sketch the…

A: Write the expressions for current according to the given waveform.

Q: Determine vC, il., and the energy stored in the capacitor and inductor in the circuit under de…

A: Apply source transformation 12 = 4ILIL = 3 A Voltage across 1 ohm resistance will be V1 = 1×3V1= 3…

Q: For the circuit as shown below, find a single equivalent inductor at terminals (a, b), where L1=17…

Q: For R1=7, 11=2 A, L1=4 mH, C1=170 uF (micro farrad) in the shown circuit, calculate the value of R…

Q: 6.19 Find the equivalent capacitance between terminals a and b in the circuit of Fig. 6.53. All…

Q: Calculate the total energy stored by all the capacitors of the circuit shown, considering the values…

A: Using series parallel combination of capacitor rèduce the circuit into single capacitor. Then total…

Concept explainers

Capacitor

The capacitor is an element used to store electrical energy in the electrical field. A capacitor is a form of passive energy.

Question

6-For the circuit below, calculate the value of R that will make the energy stored in
the capacitor the same as that stored in the inductor under de conditions.
R
160 µF
5 A
4 mH

Expert Solution

This question has been solved!

Explore an expertly crafted, step-by-step solution for a thorough understanding of key concepts.

This is a popular solution!

SEE SOLUTION Check out a sample Q&A here

Step 1

VIEW

Step 2

VIEW

Step 3

VIEW

Trending now

This is a popular solution!

Step by step

Solved in 3 steps with 2 images

SEE SOLUTION Check out a sample Q&A here

Knowledge Booster

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

You are an electrician working in an industrial plant. You discover that the problem with a certain machine is a defective capacitor. The capacitor is connected to a 240-volt AC circuit. The information on the capacitor reveals that it has a capacitance value of 10 mF and a voltage rating of 240 VAC. The only 10-mF AC capacitor in the storeroom is marked with a voltage rating of 350 WVDC. Can this capacitor be used to replace the defective capacitor? Explain your answer.
Three capacitors having capacitance values of 20F,40F, and 50F are connected in parallel to a 60 - Hz power line. An ammeter indicates a circuit current of 8.6 amperes. How much current is flowing through the 40F capacitor?
What frequency must be applied to a 33-mH inductor to produce an inductive reactance of 99.526 ?
You are working in an industrial plant. You have been instructed to double the capacitance connected to a machine. The markings on the capacitor, however, are not visible. The capacitor is connected to 560 volts and an ammeter indicates a current of 6 amperes flowing to the capacitor. What size capacitor should be connected in parallel with the existing capacitor? What is the minimum AC voltage rating of the new capacitor? What is the minimum DC voltage rating of the new capacitor? What is the minimum KVAR size that can be used in this installation?
You find that a 25-F capacitor connected to 480 VAC is defective. The storeroom has no capacitors with a 480-VAC rating. However, you find two capacitors rated at 50 F and 370 VAC. Can these two capacitors be connected in such a manner that they can replace the defective capacitor? If yes, explain how they are connected and why the capacitors will not be damaged by the lower voltage rating. If no, explain why they cannot be used without damaging the capacitor.
A capacitor uses air as a dielectric and has a capacitance of 3 F. A dielectric material is inserted between the plates without changing the spacing, and the capacitance becomes 15 F. What is the dielectric constant of this material?
A postage stamp mica capacitor has the following color marks starting at the upper left dot: yellow, violet, brown, green, no color, and blue. What are the capacitance value, tolerance, and voltage rating of this capacitor?
Please draw the problem and answer, thank you. A capacitor is made of 2 rectangular metal plates with side length of 3 cm x 6 cm separated by a distance of 2.36 cm with water in between the plates. The capacitor has a voltage of 110 v and is not connected to a battery. Calculate the capacitance. What is the new capacitance if we replace water with a new dielectric material with a constant of 3.75 in between the plates? What is the new voltage? What is the charge on each plate?
Please show you detailed solution Number 44 A capacitor passes a current of 12.6 mA when supplied with 20-V AC with a frequency of 1000 Hz. The capacitance will A. 10 µF C. 10 nF B. 100 µF D. 100 nF
Find the equivalent capacitance with respect to the terminals a, b Determine the the initial voltage drop for the equivalent capacitance with respect to the terminals a, b
Find the equivalent capacitance with respect to the terminals a,b Determine the the initial voltage drop for the equivalent capacitance with respect to the terminals a, b
A 10-9.F capacitor (1 nanofarad) is charged to 50 V and then disconnected. One can model the charge leakage of the capacitor with a RC circuit with no voltage source and the resistance of the air between the capacitor plates. On a cold dry day, the resistance of the air gap is 3× 1018 2, on a humid day, the resistance is 6 × 10° 2. How long will it take the capacitor voltage to dissipate to half its original value on each day? ... On the dry day, it will take seconds.