A capacitor is constructed using concentric conducting spheres. The inner sphere has radius a, the outer sphere (a thin-walled shell) has radius b. (a) Show that the capacitance is ab k(ba) when the space between the inner and outer spheres is empty. Start with our result from Gauss's law for the field outside a spherical charge distribution - you do not have to re-derive that, but please DO derive the potential difference between the spheres. PHY 205 Homework 6. Due March 1, 2023 3 (b) What is the capacitance if a = 0.1 m and b = 0.103 m? (c) What would the capacitance be if we filled the gap with Aluminum Oxide (and again, make a = 0.1 m and b = 0.103)?

A capacitor is constructed using concentric conducting spheres. The inner sphere has radius a, the outer sphere (a thin-walled shell) has radius b. (a) Show that the capacitance is ab k(ba) when the space between the inner and outer spheres is empty. Start with our result from Gauss's law for the field outside a spherical charge distribution - you do not have to re-derive that, but please DO derive the potential difference between the spheres. PHY 205 Homework 6. Due March 1, 2023 3 (b) What is the capacitance if a = 0.1 m and b = 0.103 m? (c) What would the capacitance be if we filled the gap with Aluminum Oxide (and again, make a = 0.1 m and b = 0.103)?

University Physics Volume 2

18th Edition

ISBN:9781938168161

Author:OpenStax

Publisher:OpenStax

Chapter6: Gauss's Law

Section: Chapter Questions

Problem 86AP: Two non-conducting spheres of radii R1 and R2 are uniformly charged with charge densities p1 and p2...

See similar textbooks

Related questions

Q: A block of mass m is pulled along a level surface by a rope that makes an upward angle of 8 with the…

A: Given data- coefficient of kinetic friction, μk = ( Ax - Bx2) Concept explanation-…

Q: A truck in (Figure 1) has a weight of 31000 lb and an engine which transmits a power of 350 hp to…

Q: Given two identical marbles, each of mass m, traveling together with a speed of v, what is the total…

A: as initiallynet mometum =2mvnet kinetic energy=12mv2+12mv2 =mv2and the…

Q: For the circuit shown below Vs = 20V and Rint 300 2, what value of the load resistor, RL (to the…

A: o find the value of the load resistor RL that will result in maximum power transfer, we need to use…

Q: A suspicious-looking man runs as fast as he can along a moving sidewalk from one end to the other,…

A: Concept of Relative velocity: Let's assume velocity of an object "O" moving at velocity (V0) w.r.t…

Q: A crate of mass m1 slides down a well-lubricated hill of height h, with negligible friction. At the…

A: Given Data: Mass 1 (m1) = 2.4 kg.Mass 2 (m2) = 2.6 kg.Compression in spring (d) = 0.35 m.Spring…

Q: Find the potential difference between point a and point b for the situation shown below. Here &₁ =…

Q: A loudspeaker is driven by an audio oscillator and amplifier, and is adjustable from 1 to 2 [kHz].…

A: The length of the pipe closed at one end, L=68.8cm The speed of sound in air, v=344 m/s

Q: . Which doe not belong to the group? a. Joules b. Joules/sec c. Calories d.…

A: 1)a) joule ................... unit of energy b) joule/s ..................... unit of power c)…

Q: A charge monkey took his three favorite point charges, qA = -39.7 nC, qb= 24.5 μC, and qc = 8.5 nC,…

Q: A child stands on a bank beside a pond, grasps the end of a 20.0 m long rope attached to a nearby…

Q: A spherical object of radius r moving slowly through the air is known to experience a retarding…

Q: A flea jumps by exerting a force of 1.12 x 105 N straight down on the ground. A breeze blowing on…

A: Vector addition: If we add two vectors (A→ & B→) making an angle θ= 900 tail to tail then the…

Q: Which requires more work: (Body A) lifting a 100 N crate to a vertical distance of 6.0 meters;…

A: Given that, Body A which weighs 100N means Body A has mass = (100/9.8) kg = 10.2 kg And lifting to a…

Q: A small earthquake starts a lamppost vibrating back and forth. The amplitude of the vibration of the…

Q: 2. Consider projectile motion on level ground where the object is launched with speed vo from the…

Q: The current in a 42-22 resistor is 0.16 A. This resistor is in series with a 28-2 resistor, and the…

Q: Consider the following circuit of three resistors (R1, R2, and R3), with batteries that have e1 & =…

Q: The equipotential contours in a region of space that contains an electric field are shown in the…

Q: What is the average ground reaction force acting on the volleyball player?

Q: incorrect. please re-solve answer should be p=6.10W

Q: A block of mass 53.1 kg rests on a slope having an angle of elevation of 24.3. If pushing downhill…

Q: What is the value of the tension in rope 2 (T2) in newtons?

Q: Problem 17--CE 1 Suppose you want to connect a capacitor to a single 10.0-V battery. 1) What…

A: Given Data:Voltage of battery V = 10 Vcharge of capacitor q = 17 μClet C denotes the the capacitance…

Q: Learning Goal: To understand how the charges within a conductor respond to an externally applied…

A: In this case, it is given that, the electric filedE→ is towards the right. In the rod, the positive…

Q: When a force of 120.0N is applied to a certain spring, it causes a stretch of 2.25cm. What is the…

A: Applied force (F) = 120 N stretching distance (d) = 2.25 cm d = 0.0225 m

Q: A charge of 8nC is placed at each four corners of a square of sides 4cm long. Calculate the…

Q: Q1) Charge Q₁=5.00μµC is located at (0, 0) and charge Q₂ is located at (4.00 cm, 0). When a third…

A: The charge located at the origin, Q1=5μC The location of the charge Q2 is x=4cm The charge located…

Q: A parallel- plate capacitor is charged by a battery. It is disconnected from the battery. The plate…

A: Given: Capacitor charged and battery disconnected. Plate seperation d doubled

Q: 61.4 cm. Bead 1 is initially on the x axis at angle = 0°. It is then moved to the opposite side, at…

Q: A block of mass m= 2.0 kg is hanged on the spring with a spring constant of k = 1960 N/m. Find the…

A: Given m=2 kgk=1960 N/mas its said that the mass simply hangs on the springthen at maximum stretch…

Q: The car Cand its contents have a weight of 520 lb, whereas block has a weight of 230 lbs. The car is…

Q: Problem 5: Three ropes are connected to a metal ring of negligible mass, as shown in the diagram. A…

A: Answer the following question is

Q: Riding up an escalator while staying on the same step for the whole ride takes 29 s . Walking up the…

A: In this problem, we use kinematic equations to model the motion of a person walking against an…

Q: Tutorial Sheet 3 Problem 1 Calculate Vx and Ix in the following circuit using (a) nodal analysis (b)…

A: Answer the following question is

Q: In a galaxy far, far away (redshift z = 5.0) an electron and a positron collide and annihilate,…

A: The study of astrophysics involves understanding the nature of the universe and its components,…

Q: A loaded spring gun, initially at rest on a horizontal frictionless surface, fires a marble at an…

Q: The figure shows a rectangular array of charged particles fixed in place, with distance a = 43.3 cm…

Q: Researchers test canine locomotion by measuring the ground reaction force (the vector sum of the…

Q: In the circuit shown below, the voltage supplied by the battery is 12 V, R₁= 20 Ohms, R₂ = 64 Ohms…

Q: Part A What is the magnitude of the force vector required to keep the crate moving at constant…

Q: Adapted from Young and Freedman (14th edition) exercise 4.4, page 124. A man is dragging a 50kg…

Q: A man is dragging a 50kg trunk up the loading ramp of a mover's truck at constant speed. The ramp…

A: This problem involves the concept of forces and motion on an inclined plane. A man is pulling a 50…

Q: Calculate the net force (in Newtons)

A: Given: Mass of object is m=16 kg Acceleration of object is a=4 m/s2 Object accelerates on…

Q: A 100 kg block is pulled at a constant speed of 5 m/s across a horizontal force by an applied force…

A: Given, Mass of block = 100 kg Constant speed = 5 m/s Force = 122N at angle = 37° above the…

Q: A battery has emf 30.0 V and internal resistance r. A 9.00 resistor is connected to the terminals of…

Q: A block of mass 0.50 kg moves along a straight line and is acted upon by a net force of F(x) =…

Q: Two charged particles, Q₁ = -83 nC, and Q₂ = 77 nC, are located a distance, L = 39 cm, apart as…

Q: The frequency F of a fire truck siren heard by a stationary observer is given below, where ± v…

Q: musical instrument produces a frequency of 450 Hz when it vibrates in the fifth harmonic. The…

A: We know that , f = nf0 (f = frequency n = harmonic f0=fundamental frequency)

Concept explainers

Dielectric Constant Of Water

Water constitutes about 70% of earth. Some important distinguishing properties of water are high molar concentration, small dissociation constant and high dielectric constant.

Electrostatic Potential and Capacitance

An electrostatic force is a force caused by stationary electric charges /fields. The electrostatic force is caused by the transfer of electrons in conducting materials. Coulomb’s law determines the amount of force between two stationary, charged particles. The electric force is the force which acts between two stationary charges. It is also called Coulomb force.

Question

a-d

Problem 3
A capacitor is constructed using concentric conducting spheres. The inner sphere has radius a, the
outer sphere (a thin-walled shell) has radius b.
(a) Show that the capacitance is
ab
k(b-a)
when the space between the inner and outer spheres is empty. Start with our result from Gauss's
law for the field outside a spherical charge distribution - you do not have to re-derive that, but
please DO derive the potential difference between the spheres.
PHY 205 Homework 6. Due March 1, 2023
3
(b) What is the capacitance if a = 0.1 m and b = 0.103 m?
(c) What would the capacitance be if we filled the gap with Aluminum Oxide (and again, make
a = 0.1 m and b = 0.103)?
(d) Consider the limit when a and b are approximately equal (the shell wall is extremely thin.)
What happens to the capacitance, mathematically? What is a physics explanation for this?

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

Step 2

Step 3

Step 4

Trending now

This is a popular solution!

Step by step

Solved in 4 steps with 4 images

SEE SOLUTION Check out a sample Q&A here

Follow-up Questions

Read through expert solutions to related follow-up questions below.

Follow-up Question

can someone do d

Solution

by Bartleby Expert

SEE SOLUTION

Knowledge Booster

Learn more about

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

Similar questions

A parallel-plate capacitor of width w, length L, and separation d is partially filled with a dielectric medium (ɛr), as shown in Figure. A battery of Vo Volts is connected between the plates. a) Find D, E, P vectors and surface charge density ps in each region. b)Write the boundary conditions. Calculate the capacitance value. Vo
The uniform electric field E in the air outside the plane boundary of an LIH dielectric material is at an angle of 30° to the normal to the The relative permittivity & of the dielectric is 3.0. Find the angle that the electric field in the dielectric makes with the normal. Clearly state any boundary conditions that you boundary, as shown in Figure 2. use. 30° Eair air dielectric € = 3.0
Problem 1: A spherical conductor is known to have a radius and a total charge of 10 cm and 20uC. If points Aand B are 15 cm and 5 cm from the center of the conductor, respectively. If a test charge, q = 25mC, is to bemoved from A to B, determine the following:b.) The electric potential energy at B
This one is tougher! A sphere of radius r has charge q. (a) What is the infinitesimal increase in clectric potential energy dU if an infinitesimal amount of charge dq is brought to infinity to the surface of the sphere? (b) An uncharged sphere can acquire a total charge Q by the transfer of charge dq over and over and over. Use your answer to part a to find an cxpression for the potential energy of a uniformly-charged sphere of radius R with total charge Q. Answer: U = 3_1 Q² 5 4tc0 R' (c) Your answer to part b is the amount of energy nceded to assemble a charged sphere. It is often called the self-energy of the sphere. What is the self-energy of a proton, assuming it to be a charged sphere with a diamcter of 1.0 x 10 15 m?
I have the charge is d a charge o, riting at orizion- sumcounding Cubic bo z made of a perfect Conductor whose sides have length a. The domain of interest is volume Contained by box. a). Find expression of potential associated with this charge (This may be expression as sum). b). Find expression for surface charge density, one of inner walls of box (Again You can express this as sum). found on
Please draw the problem and solve, thank you. A capacitor of 3.23µF has an area of 6.35mm^2. Determine the separation distance between the two plates. If the new capacitance is now 5.63mF, what is the value of the dielectric inserted to the capacitor? What is the new voltage if the capacitor is connected to a 110 volts source? If the electric field created by two plates 8.99x10^4 N/C and a working voltage of 63 volts. Will the capacitor experience a dielectric breakdown? Prove your answer.
Problem 3. Z P y a) Find the potential of a thin disk of radius R cov- ered with a surface charge density o at a point P = (0, 0, z) on its axis of symmetry as shown. b) Then expand the result to leading order in the two limits R » zand z » R and in- terpret/identify the potentials in both of these cases.
Problem 1: a certain capacitor has a capacitance of 4μF when itsplates are separated by 0.2 mm of vacant space. Abattery is used to charge the plate to a potentialdifference of 500 V and is then disconnected from thesystem. Answer this: Assume that the source of voltage remains connectedto the 4 μF capacitor in problem number 1. What will bethe increase in charge as a result of the insertion of thesheet of mica?
if the potential at Some point on electrio field, Can be present as : a CosO V = r2 where : r,o are te polar coordinates of point a, b are Constants. Calculate th value of electric field Components Er , Eo at any point
Show that for a solid sphereconductor of radius R with a total charge q. Thepotential and electric field intensity inall places, both outside and insidesphere meet the equations of the figure. Help me fast so that I will give good rating.
A hollow conducting sphere of radius R is placed with its centre at the origin and acharge +Q is placed at position (X, 0, 0) where X > R. Use the method of images todetermine the electrostatic potential outside the sphere.
For the potential xy? – 3x, what is the corresponding electric field at the point (1,8)?