What is Charge density: Definition and 439 Discussions
In electromagnetism, charge density is the amount of electric charge per unit length, surface area, or volume. Volume charge density (symbolized by the Greek letter ρ) is the quantity of charge per unit volume, measured in the SI system in coulombs per cubic meter (C⋅m−3), at any point in a volume. Surface charge density (σ) is the quantity of charge per unit area, measured in coulombs per square meter (C⋅m−2), at any point on a surface charge distribution on a two dimensional surface. Linear charge density (λ) is the quantity of charge per unit length, measured in coulombs per meter (C⋅m−1), at any point on a line charge distribution. Charge density can be either positive or negative, since electric charge can be either positive or negative.
Like mass density, charge density can vary with position. In classical electromagnetic theory charge density is idealized as a continuous scalar function of position
x
{\displaystyle {\boldsymbol {x}}}
, like a fluid, and
ρ
(
x
)
{\displaystyle \rho ({\boldsymbol {x}})}
,
σ
(
x
)
{\displaystyle \sigma ({\boldsymbol {x}})}
, and
λ
(
x
)
{\displaystyle \lambda ({\boldsymbol {x}})}
are usually regarded as continuous charge distributions, even though all real charge distributions are made up of discrete charged particles. Due to the conservation of electric charge, the charge density in any volume can only change if an electric current of charge flows into or out of the volume. This is expressed by a continuity equation which links the rate of change of charge density
ρ
(
x
)
{\displaystyle \rho ({\boldsymbol {x}})}
and the current density
J
(
x
)
{\displaystyle {\boldsymbol {J}}({\boldsymbol {x}})}
.
Since all charge is carried by subatomic particles, which can be idealized as points, the concept of a continuous charge distribution is an approximation, which becomes inaccurate at small length scales. A charge distribution is ultimately composed of individual charged particles separated by regions containing no charge. For example, the charge in an electrically charged metal object is made up of conduction electrons moving randomly in the metal's crystal lattice. Static electricity is caused by surface charges consisting of ions on the surface of objects, and the space charge in a vacuum tube is composed of a cloud of free electrons moving randomly in space. The charge carrier density in a conductor is equal to the number of mobile charge carriers (electrons, ions, etc.) per unit volume. The charge density at any point is equal to the charge carrier density multiplied by the elementary charge on the particles. However, because the elementary charge on an electron is so small (1.6⋅10−19 C) and there are so many of them in a macroscopic volume (there are about 1022 conduction electrons in a cubic centimeter of copper) the continuous approximation is very accurate when applied to macroscopic volumes, and even microscopic volumes above the nanometer level.
At atomic scales, due to the uncertainty principle of quantum mechanics, a charged particle does not have a precise position but is represented by a probability distribution, so the charge of an individual particle is not concentrated at a point but is 'smeared out' in space and acts like a true continuous charge distribution. This is the meaning of 'charge distribution' and 'charge density' used in chemistry and chemical bonding. An electron is represented by a wavefunction
ψ
(
x
)
{\displaystyle \psi ({\boldsymbol {x}})}
whose square is proportional to the probability of finding the electron at any point
x
{\displaystyle {\boldsymbol {x}}}
in space, so
|
ψ
(
x
)
|
2
{\displaystyle |\psi ({\boldsymbol {x}})|^{2}}
is proportional to the charge density of the electron at any point. In atoms and molecules the charge of the electrons is distributed in clouds called orbitals which surround the atom or molecule, and are responsible for chemical bonds.
Homework Statement
Calculate the surface charge density on a thin insulated and uncharged cone, which has a point charge inside of it on the cone axis. Furthermore, calculate the force between the point charge and the cone.
Homework Equations
The relevant equation is the Poisson equation...
Homework Statement
Two charged conducting spheres of radii a and b are connected to
each other by a wire. What is the ratio of electric fields at the surfaces
of the two spheres? Use the result obtained to explain why charge
density on the sharp and pointed ends of a conductor is higher
than on...
The figure below shows a closed Gaussian surface in the shape of a cube of edge length 2.20 m. It lies in a region where the electric field is given by = [ (3.00x + 4.00) + 6.00 + 7.00 ] N/C, where x is in meters. What is the net charge contained by the cube?
So i used the x value of the...
Suppose we have two metal plates, one with a charge density of 3 C/m^2, the other -3C/m^2
We are told that the charge density on surfaces 1 and 4 are zero and the charge density on surface 2 is 3C/m^2, on surface 3 is -3C/m^2
Any reason for that? Is it possible that the charge density on...
Homework Statement
I have attached the question in a picture. I also attached a picture a drew as my attempt at understanding the question.
Homework Equations
flux = EA = Qencl/εo
The Attempt at a Solution
So I am not sure how to interpret this question. Is the charge distributed...
We are doing electricity now in school and it made me wonder..
When there is too much mass in a certain amount of volume, it supposedly forms a black hole, right? Well, does anything happen when there is too much charge density?
I know this excess charge would want to neutralize itself and...
A 20-cm radius ball is uniformly charged to 80 nC.
(a) What is the ball’s charge density (C/m3)?
(b) How much charge is enclosed by spheres at points 5, 10 and 20 cm
from the center?
(c) What is the electric field strength at points 5, 10 and 20 cm from the
center?
ATTEMPT:
part a: i...
Homework Statement
A disk of radius 2.30 cm has a surface charge density of 5.22 μC/m2 on its upper face. What is the magnitude of the electric field produced by the disk at a point on its central axis at distance z = 11.2 cm from the disk?
Homework Equations
Formula for an electric...
Homework Statement
Calculate the total charge embodied in a solid with charge density that decreases linearly with height from a value of λ at the bottom to 0 at the top.
Solve for a rectangular prism and a sphere.
Homework Equations
∫∫∫ρdxdydz
∫∫∫pr^2sinθdrdθd∅
The Attempt at a Solution...
Homework Statement
A straight, nonconducting plastic wire 8.00 cm long carries a charge density of 125 nC/m distributed uniformly along its length. It is lying on a horizontal tabletop.
A) Find the magnitude and direction of the electric field this wire produces at a point 5.50 cm directly...
Gauss Law and Flux for variable charge density in a sphere
Homework Statement
The charge density within a sphere varies as a constant, a, times its radius, r. Find an expression for the direction and magnitude of the electric flux, D, within the sphereHomework Equations
Gauss' Law
sphere...
Hello,
I am solving schrodinger and poisson's equation in a self consistent way. I solved schrodinger equation and obtained eigen values which are allowed energy states. now I am calculating electron density with
n=sum(psi*psi*f(E))
where f(E)=1/(1+exp((E-Ef)/kT)) fermi function.
Now...
VOLUME charge density from SURFACE/LINE charge density??
So I'm doing a problem from Jackson, but this is a more general question anyway. He says that there is a charge Q uniformly spread over a spherical shell of radius R, and asks for the three dimensional charge density ρ(x).
Obviously...
1. Homework Statement [/b]
A static charge distribution produces radial electric field as follows:
\stackrel{\rightarrow}{E}=A\frac{e^{-br}}{r}\stackrel{\rightarrow}{e_{r}}
A,b are constants,please compute the charge density.
Homework Equations
\nabla\cdot...
Homework Statement
The y-axis carries a uniform linear charge density of -2 nC/m, and there is a 8 nC point charge
at the point (3 cm, 0 cm, 0 cm) as well as a -4 nC point charge at the point (-8 cm, 0 cm, 0 cm).
What is the electric flux through a closed spherical surface of radius 4 cm...
Homework Statement
An infinitely extended cylindrical region of radius a>0 situated in free space contains a volume charge density given by:
[
ρ(r)= volume charge density
ρo=constant=initial volume charge density
radius=a>0
ρ(r)=ρo(1+αr^2); r<=a
]
with ρ(r)=0 for r>a
Questions...
Why do I have to integrate? Isn't it redundant?
Homework Statement
The volume charge density inside a solid sphere of radius a is given by ρ=ρnaught*r/a, where ρnaught is a constant. Find the total charge as a function of distance r from the center.
Homework Equations
Q=ρV
The...
Homework Statement
2. The attempt at a solution
I have the solution, but it's pretty confusing so I want to see if anyone else can walk me through step by step. The first step is pretty clear...You have to find the acceleration that the proton will experience as it moves towards the...
Homework Statement
I have attached the question as a pdf.
Homework Equations
I'm thinking that we take the line integral of voltage to get electric field. But I'm not sure how to proceed from here. Is the line integral from a to b? Also, how do I get the charge density having found...
Homework Statement
given simple circuit with V the voltage connected to a resistor
with area A, length d and electrical conductance: b*e^-2x/d
after my computations the resistance
R=d*(e^2-1)/(2bA)
Homework Equations
what is the electrical field E in the center of the...
I am taking a lightning class for my atmospheric science masters degree. However its been awhile and I am having trouble with remembering how to do the physics portion of it. I hope someone can help me!
Homework Statement
I have an electric field...
Homework Statement
For your senior project, you are designing a Geiger tube for detecting radiation in the nuclear physics laboratory. This instrument will consist of a long metal cylindrical tube that has a long straight metal wire running down its central axis. The diameter of the wire...
Homework Statement
In a particular region of Earth's atmosphere, the electric field above Earth's surface has been measured to be 147 N/C downward at an altitude of 260 m and 165 N/C downward at an altitude of 410 m. Calculate the volume charge density of the atmosphere, assuming it to be...
here I am only considering the charge density of the nucleus, i.e the density of protons.
I know that from mass density i have rho = m/v -> v = m / rho
I'm not sure what mass to use here. Molecular weight? molar mass? where does avagadros number come into it?
then is it simply charge...
Hi,
I'm doing MD-simulations in a capacitor-like system: 2 charged electrodes with a dense ionic liquid in between (non-diluted) with periodic boundaries in 2 dimensions (so for the electrodes I get infinite planes (xy) ,charged).
I want to get the potential U(z) along the z-axis (witch is...
The concept of volume charge density is an even distribution of charge over a three dimensional area. C/m^3. However, the concept of electrostatic equilibrium says that all of a conductors charge lies on the surface of the conductor.
The existence of one seems, to me at least, to render the...
Homework Statement
Hi,
This is supposed to be simple, so I guess I miss something..
We have charge q at x1=d*cos (w*t), y=0, z=0. and charge -q at
x2=-d*cos (w*t), y=0, z=0. I need to do Fourier transform to the charge density.
Homework Equations
The Fourier transform is ...
Homework Statement
A solid metal sphere of radius 'a' is concentric with a hollow metal sphere of inner radius '2a'. The space between the spheres is filled with a dielectric material of relative permittivity 'ε' carrying a uniform static charge density 'ρ0'. The charge density is zero...
Homework Statement
A long round dielectric cylinder is polarized so that the vector P = ar, where 'a' is a +ve constant & 'r' is the distance from the axis.find the space density rho` of bound charge as a function of distance r from the axis.
Homework Equations
Gauss Law.
The...
Electric charge is distributed over a disk x^2+Y^2<=4 so that the charge density at (x,y) is
o(x,y)= x+y+x^2+y^2
what is the total charge on the disk
so I change to polar and get (rcos +rsin +r^2)rdrdtheta
and my limits go from 0 to 2pi and 0 to 2
for my answer i got 8 pi I am...
Homework Statement
This is not a home work, I actually make this problem up and work on it. I want to verify whether I am correct in the step and I need help to solve the final integration.
The question is:
Given a plastic circular ring radius = a with line charge density glued on...
I've already posted this question in the advanced physics forum, but I really think it should go here. My apologies for the double posting.
Homework Statement
If we are given a uniformly charged solid sphere with total charge Q and radius R, then the volume charge density rho is given by...
Hi, I am new to this forum. I have a question on one of the physics problem.
a proton is shot with a speed v from the point a in the vicinity of a infinite straight wire carrying a charge density. in term of these variables determine the nearest distance of approach.
Homework Equations...
Homework Statement
A proton orbits a long charged wire, making 1.60 * 10^6 revolutions per second. The radius of the orbit is 1.60 cm. What is the wire's linear charge density?
Homework Equations
F=qE
F=ma
F=(mw^2)/r
F=Eklambda/2r=mw^2/r (the radiuses cancel out)
The Attempt at...
Homework Statement
Consider two coaxial conducting cylinders with radii a and 3a and length L. The region a<r<2a is filled with a material of conductivity σ1, and the region 2a<r<3a has conductivity σ2. (Assume ε1=ε2=εo.) The inner cylinder is held at potential V0 and the outer cylinder at...
Homework Statement
a thin rod of length L is set along an X axis. we want to find the electric field at a point P at the origin, a distance "d" from the rod. The linear change density changes with X and it's given by λ=λ0 ((x-d)^3)/d^3 find the electric field at the point P...
Homework Statement [PLAIN]http://img232.imageshack.us/img232/8974/61038710.png
The Attempt at a Solution
Well \sigma = charge/area
But how am I suppose to find the area if I am not even given the dimensions of the plates?
Consider three very large, parallel planes of charge that are equally spaced as shown in the figure below. These planes are insulators, and each is charged uniformly with +188 µC on every square centimeter of area on the top surface of each plane. Use Gauss's law to determine the field at points...
I wanted to ask if someone can clarify for me when one would use the Heaviside function instead of (or in combination with) the Dirac delta function.
Thanks in advance
I have a charge density I would like to plot in 3D
The data is currently in the format
x1 y1 z1 density
x2 y2 z2 density
etc
etc
where x,y,z are grid points. Can this kind of data be formatted as an xyz file? I know xyz is normally atom locations (I have no explicit...
Homework Statement
There is a beam of electrons in the space starting at x=0 and ending at x=20cm. The cross section of the beam is A.The velocity of the electrons is a function of position x and let it be v(x).Now i need to calculate the volume charge density as a function of x.Homework...
Homework Statement
Suppose an electric field E(x,y,z) has the form:
E_x = ax, E_y = 0, E_z = 0
where a is a constant. What is the charge density? How do you account for the fact that the field points in a particular direction, when the charge density is uniform?
Homework Equations...
Homework Statement
A spark occurs at the tip of a metal needle if the electric field strength exceeds 3.0x10^6 N/C.
What is the minimum surface charge density for producing a spark?
Homework Equations
int(EdA) = (Qin) / e0
The Attempt at a Solution
I imagine the surface as a cylinder with...
Homework Statement
An infinite, vertical, nonconducting plane sheet is uniformly charged with electricity. Next to the sheet is a dipole that can freely oscillate about its midpoint O, which is at a distance Ж from the sheet. Each end of the dipole bears a charge q and a mass m. The length of...
Homework Statement
An infinite sheet of charge with a surface charge density of +7.8 micro-Coulomb/m2 lies on x-axis (technically in x-z plane). Another infinite sheet of charge with an unknown charge density lies on y-axis (technically in y-z plane). A positive point charge is placed in first...
1. Consider a long charged straight wire that lies fixed and a particle of charge +2e and mass 6.70E-27 kg. When the particle is at a distance 1.61 cm from the wire it has a speed 2.20E+5 m/s, going away from the wire. When it is at a new distance of 4.01 cm, its speed is 4.00E+6 m/s...
Homework Statement
Imagine a spherically symmetric charge density
p(x) = Cr for r≤a and 0 for r>a
(a) determine the electric field E(x) and potential V(r). Notice that V(r) and E(x) are continuous at r=a.
(b) Now suppose additional charge is placed uniformly on the surface at r=a, with...
Homework Statement
Two long, thin parallel rods, a distance 2b apart, are joined by a semicircular piece of radius b, as shown. Charge of uniform linear density \lambda is deposited along the whole filament. Show that the field E of this charge distribution vanishes at the point C. DO...