Greeting PF’rs
Subject: Levitation using directed electric fields
If someone had a way to take a spherical mass and pump electrons into the mass and fill many of the valence electron shells in the atoms, there would be an enormous electric field emitted by the charged mass. (Yellow sphere in...
You place a conductor in an electric field. The charges inside the conductor will relocate, to form an opposing electric field which cancels the outside field, making the field inside the conductor zero.
However, surely there's a limit to how big an opposing field the charges in the...
Homework Statement
At which location will the electric field between the two parallel plates of a charged capacitor be the
strongest in magnitude?
a. near the positive plate
b. near the negative plate
c. midway between the two plates at their ends
d. midway between the two plates nearest...
I have taken my Gauss surface as the front of the shape, with E_1 coming through uniformly. I get the right answer for the charge inside the shape, but I'm unsure about b. I imagine a situation that I've drawn could be possible, but I've never seen it before, so I do not know. I'm thinking that...
It is asked to find the electric flux through a "gaussian" sphere which has a point charge (-3 microcoloumbs) enclosed with the radius of 0.2 m ... I can shortcut this and use Flux= q Enclosed / e0.. However, i want the other approach using the formula Flux = ∫ E da... I know that E is constant...
Homework Statement
An example problem I am reading is about the electric field of a uniform ring of charge.
I attached the diagram provided in the problem.
What confuses me is that the electric field lines in the y-direction cancel out. Wouldn't the fields have to cross, if they were to...
Hey yall. This is a question from my homework but it's so basic that it's just to help with the concept for me. So the question is this:
A small object A, electrically charged, creates an electric field. At a point P located 0.250 directly north of A, the field has a value of 40.0 directed to...
Homework Statement
1st Problem
(a) Consider the electric potential V = C . r, where C is a constant vector. Find the electric field E(r).
(b) For a given uniform electric field E = E(0)z^, using part (a) find the electric potential for this electric field...
Homework Statement
A small conducting sphere of mass 5.0x10^-3 kg attached to a string of length 20 cm, is at rest in a uniform electric field E. There is a charge of -5.0x10^-6 coulomb on the sphere. The string makes an angle of 30° with the vertical. Calculate the tension in the string...
Homework Statement
one capacitor is charged until its stored energy is 4.0 J, the charging battery then being removed. a second uncharged capacitor is then connected to it in parallel. if the charge distributes equally what is now the total energy stored in the electric fields? where the...
Hello,
I have a few questions (with regards to conducting hollow spheres) .
1: What is the difference between a charge in the sphere and an excess charge coming out of the sphere or the charge resting on the outside of a sphere?
2: Image a conducting sphere that has a shell of a small...
Homework Statement
In the figure below, determine the point (other than infinity) at which the electric field is zero. (Let q1 = -2.45 µC and q2 = 6.50 µC.)
Homework Equations
The Attempt at a Solution
Here is a little commentary my author gives on this problem:
Each...
Gauss equations state that the flux of a gaussian surface is equal to the sum of all the electric field times the surface area.
Although he stated this in theory, how was he able to prove it possible. What measuring device do people use to prove that this theory is correct?
Homework Statement
see attachment for question wording.
a) find acceleration
b) find horizontal displacement
c) find final velocity
vx=4.0*10^6m/s
ε=4.0*10^2 N/C
Δdy=0.02m
mass of electron = me = 9.11*10^-31kg
charge of electron = qe = -1.6*10^-19 C
Homework Equations
suvat...
Homework Statement
How do you find the electric fields of regions between parallel infinite sheets of charge?
The set up: 3 parallel infinite sheets of charge a,b,c from left to right.
Region 1 is to the left sheet a.
Region 2 is between sheets a and b.
Region 3 is between sheets b and c...
Coulomb's Law
F = kqq/r^2
Why does the intensity of a uniform electric field not get weaker in the middle? I would understand this if the intensity over distance was a linear function, but it isn't. The force near one of the plates would approach infinity, because r^2 is so small... but in...
I was trying to think of more impossible electric fields than my book has. I understand it is anything that breaks the rule that the path integral is zero. One example is a circular field. I was trying to picture some more complicated 3d examples.
Are all magnetic fields an impossible...
En and Ec are the non-conservative and conservative electric field respectively.
I've quoted this from the textbook I'm using (University Physics by Young and Freedman 12th edition).
Now, it seems to me that the author just invoked the assumption that the inductor have negligible resistance...
The diagrams aren't coming through on my system, but the text is readable:
http://books.google.com/books?id=hlRhwGK40fgC&pg=SA13-PA6&lpg=SA13-PA6&#v=onepage&q&f=false
First off, I'm pretty sure he re-uses ##\rho_\omicron## to mean different things at different points in the discussion...
Homework Statement
for electric fields i know total flux through a closed surface is proportional to tot. charge enclosed..goes ssame for gravt. fields. total gravitational flux through a closed surface is proportional to total mass enclosed. Now there's the next equation that says if a...
If my question is lacking something in terms of its validity, please let me know (I am not too seasoned in electric fields) :)
Here is the source of my question: http://phys.org/news198350025.html
Ok... The brain produces it own electric field, by firing neurons and the chemicals that produce...
1. Homework Statement [/b]
Positive charge Q is distributed uniformly along the x-axis from x=0 to x=a. A positive point
charge q is located on the positive x-axis at x=a+r , a distance to the right of the end of Q.
Observe the figure below
My goal is to try to explain the...
Homework Statement
Point charge 2.5 microC is located at x = 0, y = 0.30 m, point charge -2.5 microC is located at x = 0 y = -0.30 m. What are (a)the magnitude and (b)direction of the total electric force that these charges exert on a third point charge Q = 4.5 microC at x = 0.40 m, y = 0...
Homework Statement
What is the electric field in the middle of the square in magnitude and direction?
four charges are arranged at the outer corners of the square in order from left to right , then top top to bottom respectively
+q,-2q,-q,+2q.Homework Equations
The Attempt at a Solution...
Hello,
I am not yet well-versed in quantum theory of the vacuum, but I certainly have encountered it everywhere I have turned in my studies. Since my electron paper is unwieldy I want to run by folks my thoughts of percolations in the vacuum. So many people have spoken of "electrons and...
Homework Statement
Two protons that has a 'm' mass and '+q' charge appears suddenly at the time t=0 as the picture shows. The distance from A to B is 'd0'. They start there motion from 0 velocity and move towards B.
1. What are the t1 and t2 times that are taken by the two masses to get to...
I recall that the path of light itself can be altered by gravity, then, being part of the electromagnetic force, then is it safe to assume that the paths of electric fields lines can also be warped?
I would imagine that the consequences would be enormous for electric flux in curved space...
Hi everyone:
Since there are many ions in ocean water, and these ions are carried by ocean currents, and they are moving through the Earth's magnetic field, by the electromagnetic induction laws, wouldn't there be a induced electric field in the ocean?
if i want to detect this electric field...
Homework Statement
In Fig. 22-31 the four particles are fixed in place and have charges q1 = q2 = 3e, q3 = 2e, and q4 = -10e. Distance d = 5.42 μm. What is the magnitude of the net electric field at point P due to the particles?
Homework Equations
E=1/(4πε0) x [ q4/2d^2-q3/d^2] j...
Hi all, new to the forums.
Anyways I had a day off and decided to try something quirky with maxwells equations.
Using the Ampere-Maxwell equation, I tried to solve for the magnetic field that would be created by a <0,0,t> Electric field. (No current and no magnetic materials)
∇ x B = εμ(∂E/∂t)...
Homework Statement
Mass= 15g
Q1= 8.0uC
Q2= 25 uC (stationary)
Q1 is released from a point 12cm from Q2. How fast will Q1 be moving when the separation is 20cm.
Homework Equations
F=ma
F=qe
F=kQq/r2
E=kQ/r2
Ke=mv2/2
W=FD
vf2=vi2+2ad
The Attempt at a Solution...
(1)Which of the following statements about electric field lines is false?
a) They are perpendicular to the surface of an isolated conductor
b) They never intersect
c) They indicate the path along which a test charge moves
d) More indicate a stronger field
e) They can be either straight or...
Does electric field vary with distance? For example, When I fix an electron along an axis and then fix another electron let's say 5m along the x-axis from the first, the first electron has an electric field that is creating a force on the other electron. If I free the second electron to move...
A spherical capacitor contains:
Region1: solid spherical conductor (radius=0.5mm, Q=7.4 micro coulombs)
Region2: surrounded by a dielectric material (er=1.8, radius extends to 1.2mm,
Region3: outer spherical non-conducting shell (variable charge per unit volume p = 5r, outer radius=2.0 mm)...
1. I have a capacitor that has been fully charged with a 10v source, then that source is removed. If I increase the distance between the plates, does the electric field stay the same, and the voltage increase, or does the voltage stay the same, and the field decrease? Or is it something that...
Homework Statement
A wire loop with area 8.00 cm2 is placed inside a 20.0 cm long solenoid with 5.00×10^4 turns that carries a current of 1.10 A. The loop is concentric with the solenoid. If the length of the solenoid is stretched so that its length increases at a rate of 8.000e-2 m/s, with...
Consider a thin parallel plate capacitor of an area of of 2.0x10^-4 metres squared, with
a thickness of 1.2x10^-4 metres. The top and bottom thirds of the capacitor are filled with a dielectric material with a relative dielectric permittivity εr1=4, and the central third, with another material...
Homework Statement
Consider a capacitor that consists of two metal plates of nonzero thickness separated by a positive distance d. When such a capacitor is connected across the terminals of a battery with emf EMF, two things happen simultaneously: Charge flows from one plate to another, and a...
Homework Statement
A point charge −3 pC is concentric with two
spherical conducting thick shells, as show in
the figure below. The smaller spherical conducting shell has a net charge of 22 pC and
the larger spherical conducting shell has a net
charge of 18 pC.
1-4)Answer in units of...
Homework Statement
An empty, hollow, spherical conductor with radius R = 20 cm is supported in air. Electrical breakdown occurs when the electric field at the conducting surface exceeds 3.0 × 106 V m−1.
What is the maximum charge that can be placed on the sphere?
Homework Equations
F = k...
Homework Statement
A solid nonconducting sphere of radius a has a has a total charge +Q uniformly distributed throughout its volume. The surface of the sphere is coated witha avery thing (negligable thickness) conducting layer of gold. A total charge of -2Q is placed on this conducting layer...
Homework Statement
Secret Agent Jane Pond is testing out a new particle ray gun. She knows the particles in the ray have charge -2e and a mass of 50u. (u = atomic mass unit.) To determine the speed of the particles in the ray, Jane needs a region of uniform electric field. She takes...
Homework Statement
In Fig.22-30, the four particles form a square of edge length a = 6.50 cm and have charges q1 = 7.59 nC, q2 = -10.9 nC, q3 = 11.5 nC, and q4 = -6.06 nC. What is the magnitude of the net electric field produced by the particles at the square's center...
Homework Statement
You want to create an electric field = < 0, 3x10^4,0 > N/C at location < 0, 0, 0>.
Where would you place a proton to produce this field at the origin?
Homework Equations
1/4?? * q/r^2 = 3x10^4 N/C
(if you can't see the 1/4th part of the equation it's...
Homework Statement
A point charge q = +2.0 µC is placed at each corner of an equilateral triangle with sides 0.23 m in length.
What is the magnitude of the electric field at the midpoint of any of the three sides of the triangle?
3. I want to know if I did this correctly, or totally...
Homework Statement
An electron with a speed of 5.57 × 108 cm/s in the positive direction of an x-axis enters an electric field of magnitude 2.72 × 103 N/C, traveling along a field line in the direction that retards its motion. (a) How far will the electron travel in the field before stopping...
TED Video: Treating cancer with electric fields
I found it amazing that patients wearing the radio therapy patches were able to carry on with their daily lives and without the dangerous debilitating side effects associated with chemo and radiation. Pretty interesting watching cell division...
Homework Statement
http://i.minus.com/jbxXiQZmmiOQtS.png
Homework Equations
Elecric flux = Integral of closed surface of E dotted into dA = qenclosed / ε0
Rho = 50 x 10^-6 abs(z)
The Attempt at a Solution
Integral of closed surface of E dotted into dA will end up being EA when E is...
Homework Statement
A total charge Q is spread uniformly over the surface of one hemisphere of a hollow insulating spherical hull of radius R. The magnitude of the electric field at the centre of the ball(point C) will be?
The Attempt at a Solution
The answer was less then that KeQ/R^2, was...
Hello!
Okay so I understand that electric potential:
V = kQ/r
...must be influenced by the radius doubling because it would make the potential energy half of what it originally was because of the proportionality law, v is proportional to 1/r.
With electric fields though, how can...