05. In region D= x âx + y ây + z âz C/m2. theflux radiating out of a sphere of radius 1mcentered at the origin is(a) (T/2) Coulombs(c) 2n Coulombs(b) n Coulombs(d) 4n Coulombs06. A potential field is given by V = 3x°y – yz.Electric field at (1, 0, –1) is(a) 3 âx +4 ấy(c) – 4 ây(b) -3 âx -3 ây(d) 4 ây

We’ll answer the first question since the exact one wasn’t specified. Please submit a new question…

Answered: 05. In region D= x âx + y ây + z âz…

05. In region D= x âx + y ây + z âz C/m?. the flux radiating out of a sphere of radius 1m centered at the origin is (a) (T/2) Coulombs (c) 2n Coulombs %3D (b) n Coulombs I (d) 4n Coulombs

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: D7.7. A solid conductor of circular cross section is made of a homogeneous monmagnetic material. If…

A: Solution

Q: D2.5. Infinite uniform line charges of 5 nC/m lie along the (positive and negative) x and y axes in…

Q: P: Uniformly charged wire density A C/m with change located on the is X- axis shown i'n the figure.…

Q: Q37. A circular conducting loop of radius 4m, centered at origin in the plane z = 0 carries a…

A: In this question we need to find a magnetic field intensity at the origin of the circular conducting…

Q: Two conical conducting surfaces, 0 = 20° where V = 10 [Volt], and 0 = 40° where V = 3 [Volt], are…

A: Conductive materials are the best conductors of electricity and heat. Conductors allow heat to…

Q: 2 of 5 1. Assume that an observer calculates electric field and potential by measuring the force on…

A: Since bartleby has policy to solve only first question and in case if it has subparts then solve…

Q: The surface y = 5 carries charge 10nC/m². The direction of the electric flux density, D, at the…

Q: A circular conducting loop of radius 2m, centered at origin in the plane z = 0 carries a current of…

A: Given radius r=2 m Current = 4 A Z= 0 plane. For circular conducting loop ,…

Q: Suppose you have an infinitely long cylindrical current carrying wire with radius a=25cm. The…

A: a) we have I=πCa2∫0ar55 =π×5a2a55 =a3π×55 =0.253π×55 =0.049…

Q: Q (2): Two infinite sheets of charges with 10 nC/m2 and -10 nC/m2 respectively. These sheets are…

Q: tion 27 FD 5p2 a, nC/m2 find the total charge enclosed by the cylindrical closed surface p=1m, and…

A: Here the answer that I have derived is not same with the mentioned in the question. I have solved it…

Q: An infinite plane slab, of thickness 2d, carries a uniform volume charge density Pv placed parallel…

A: According to the question we have to find the electric field inside the slab.

Q: A long cylindrical conductor whose axis is coincident with the z axis has a radius 8.4 cm and…

A: By ampere law we will find out magnetic field at given location then compare it with given field to…

Q: Q5) a current of 2 A is carried by an infinitely long filamentary wire in the +z direction.…

A: We need to find out the magnetic flux density and magnetic flux for given current carrying wire

Q: space, a cylinder has base area 9π square meters and height 2 meters. If it carries a total current…

A: We need to find out the magnetic flux density for given current distribution

Q: A coaxial cable is carrying a uniformly distributed current of 100 A in the inner conductor and -100…

A: Given that A coaxial cable is carrying a uniformly distributed current of 100 A in the inner…

Q: 3.7.[1] The cylindrical surface p 8 cm contains the surface charge deasity Ps 5e-20|z| nC/m. (a)…

A: Note: Surface charge density can not be nc/m it will be nc/m2 Given data ρ=8 cmρs=5e-20|z|nC/m

Q: D2.5. Infinite uniform line charges of 5 nC/m lie along the (positive and negative) x and y axes in…

A: In the question Infinite uniform line charge, 5nC/m For + X-axis and -y axis Find the electric…

Q: Q3 The potential V 2r2 sin 0 sin Ø. Find the Electric flux density in the fre, space at point…

Q: Q (1): Infinite uniform line charges of 2 nC/m lie along the x and y axes in free space. Find E and…

A: We will use expression for finding electric field using following expression ρL2×π×ε×ρ×αρ

Q: D2.5. Infinite uniform line charges of 5 nC/m lie along the (positive and negative) x and y axes in…

Q: Let D" = y'z'a, + 2xyz° a̟ + 3xy°z¯ a_pC/m° in free space. a. Find the total electric flux passing…

Q: D3.3. Given the electric flux density, D = 0.3r²a, nC/m2 in free space: (a) find E at point P(r =…

A: Since you have asked multiple questions in a single request, we will be answering only the 1st…

Q: TT=3,1416, €o = · 10-9 36 Two infinite insulated conducting planes maintained at potentials 0 Volts…

Q: 1. A homogeneous dielectric (ɛ, = 2.5) fills region 1 (x 0) is free space. If D1 = 12ax – 10a, + 4a,…

A: Given, εr=2.5D1=12ax-10ay+4az nC/m2D2=?θ2=?

Q: D A very long rod of electrical charge with chage density of A is located at the axis of a con…

A: Charge density of the long charged cylinder of length L and radius a is λ. Another cylinder of same…

Q: Suppose you have an infinitely long cylindrical current carrying wire with radius a=13cm . The…

A: Here we have an infinite cylindrical shaped conductor having radius a=13 cm lets consider point 'r'…

Q: 2. A rectangular filamentary loop of wire has a resistance of 125 Q per meter length. The loop lies…

A: The machines work on the principle of faraday's law of electro-magnetic induction . It states that a…

Q: 7.31 A circular current filament lies in the xy plane with its center at the origin. The loop…

A: In this question we need to find a H

Q: Infinite uniform line charges of 5 nC/m lie along the (positive and negative) x and y axes in free…

Q: Let Er1 = 2.26 for 0 < y< 2 mm, ɛR2 = 2.31 for 2 < y< 2.7 mm, and ER3 = 4.31 for 2.7 <y<3.8 mm.…

A: We need to find out equivalent capacitance .

Q: Q3: (a) The current density in a cylindrical conductor of radius 2mm is: J = 10³e-400r Find the…

Q: Two parallel, infinitely long, z- axis oriented conducting cylinders of radius "a" are a distance…

Q: Q3: A long solenoid, of radius 5cm, is driven by an alternating current, so that the field inside is…

A: Given that; Field inside is sinusoidal (B→(t))=(88t)sin(6t)x⏞Resistance(R)=10kΩradius(a)=5cm

Q: (8r.ar x 8r.ag) x 0.5a= Select one: O a. 32 O b. 32r2 O C. None of these O d. 0 Suppose an Electric…

Q: A solenoid of radius r = 1.25 cm and length { = 31.0 cm has 330 turns and carries 12.0 A. (a)…

A: Given:r=1.25 cm=1.25×10-2 ml=31 cm=0.31 mNumber of turns, n=330i=12 A

Q: As can be seen from the above, I=10 [A] current comes from infinity to (-3.8,0,0) point with paralel…

Q: Find the flux crossing the portion of the plane φ=2π/4 defined by 0.043m < r < 0.16m and 0 < z < 575…

Q: free space, a cylinder has base area 9π square meters and height 2 meters. If it carries a total…

A: We need to find out the magnetic flux density .

Q: Question 3 V = - E dr Two, hollow, spherical conductors, are placed concentrically in free space.…

Q: D7.7. A solid conductor of circular cross section is made of a homogeneous nonmagnetic material. If…

Q: : Two infinite sheets of charges with 10 nC/m2 and -10 nC/m2 respectively. These sheets are located…

Q: 1 A circular current filament lies in the xy plane with its center at the origin. The loop carries…

A: Given: A circular conductor in x-y plane with center at origin carries a current I=1A Radius of the…

Q: A student measures the electric flux through a closed spherical surface of volume V to be X. She…

A: a) The electric flux measured by the student of the spherical surface having volume V is X. After…

Q: Two sheets of charge, the first has a charge density of 10 nC/m2 and the second has a charge density…

Q: Consider a solid sphere of radius 5 cm having volume charge density of 20 C/m³. Calculate the…

A: Electric Flux: Despite the notion that an electric field cannot flow, electric flux is the…

Q: D= 5p2 a, nC/m find the total charge enclosed by the cylindrical closed surface p = 2 m, and 0<z<2 m…

A: Here I have solved it but my answer is not matched with the same mentioned in the question. I have…

Q: A very long (non-conducting) solid cylinder has a radius R and length L. A charge Q is spread evenly…

Question

05. In region D= x âx + y ây + z âz C/m2. the
flux radiating out of a sphere of radius 1m
centered at the origin is
(a) (T/2) Coulombs
(c) 2n Coulombs
(b) n Coulombs
(d) 4n Coulombs
06. A potential field is given by V = 3x°y – yz.
Electric field at (1, 0, –1) is
(a) 3 âx +4 ấy
(c) – 4 ây
(b) -3 âx -3 ây
(d) 4 ây

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

Step 2

Step 3

Step 4

Step by step

Solved in 4 steps

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

9 When a dielectric material is inserted between the parallel plates, what will happen to the value of capacitance? Select one: a. Capacitance will remains the same. b. Capacitance will increase. c. Capacitance will decrease. d. Capacitance will become zero.
A ten-turn solenoid has a ferromagnetic core with a relative permeability of 10,000. The length of the solenoid is l=10 cm and its cross section area is A=1 cm2. Determine the inductance L in mH. Round off to your answer to one decimal.
Ideal inductors do not dissipate energy; they store energy in the form of a magnetic field. True False
An inductor is constructed by winding a coil of 100 turns around a magnetic core. The core is a cylinder with radius 0.5 cm and the core material has relative permeability of 1000. The coil covers a length of 10 cm. Determine the resulting inductance. Enter your answer in mH rounded to two decimal places.
Q19. For the series-parallel inductor circuit shown in figure B19, answer the following questions. L2 2mH 4mH L3 L4 SMHS 5mH 3.5mH L6 8mH L7 2mH L3 4.5mH e Figure B19 Determine the inductance, L3 value. ii) If E is the energy stored in inductor for current, Calculate the energy if the current value is increased twice.
QUESTION 5 A 20 ohms resistor is connected in series with a capacitor of 0.01 farad and an emf in volts given by 40e-3¹ +20e-6. Assuming that the charge and current on the capacitor are zero at t=0, determine the charge and current at any time.
Determine the maximum voltage which can be applied across the parallel plate air capacitor having plate surface area 1 cm2and capacitance 1 pF. Breakdown electric field strength for air is 30 kV/cm.What is the maximum electric energy of this capacitor?
Find the inductance per unit length of a very long solenoid with a unit length of N windings. The permeability of the core is μ.
Q14. An air filled parallel plate capacitor is arranged such that the upper plate carries surface charge density 2C/m2 and lower plate carries surface charge density -2C/m as shown in figure. The electric field intensity under the bottom plate will be -2a/ɛ0 -a,/ɛ0 None of these ロロ
Q14. An air filled parallel plate capacitor is arranged such that the upper plate carries surface charge density 1C/m2 and lower plate carries surface charge density -1C/m2 as shown in figure. The electric field intensity between the plates will be -2az 60 None of these -az 80
A symmetrical toroidal coil is wound on a plastic core (μr ≡ 1) and is found to have an inductance of 1 mH. What inductance will result if the core material is changed to a ferrite having μr=200? Assume that the entire magnetic path is composed of ferrite.
Ex Por finding the capacitance of Coaxial cable Let the potential between the two conductors is Vo Inner vadies a outer radies b