What is Charges: Definition and 1000 Discussions

Electric charge is the physical property of matter that causes it to experience a force when placed in an electromagnetic field. There are two types of electric charge: positive and negative (commonly carried by protons and electrons respectively). Like charges repel each other and unlike charges attract each other. An object with an absence of net charge is referred to as neutral. Early knowledge of how charged substances interact is now called classical electrodynamics, and is still accurate for problems that do not require consideration of quantum effects.
Electric charge is a conserved property; the net charge of an isolated system, the amount of positive charge minus the amount of negative charge, cannot change. Electric charge is carried by subatomic particles. In ordinary matter, negative charge is carried by electrons, and positive charge is carried by the protons in the nuclei of atoms. If there are more electrons than protons in a piece of matter, it will have a negative charge, if there are fewer it will have a positive charge, and if there are equal numbers it will be neutral. Charge is quantized; it comes in integer multiples of individual small units called the elementary charge, e, about 1.602×10−19 coulombs, which is the smallest charge which can exist freely (particles called quarks have smaller charges, multiples of 1/3e, but they are only found in combination, and always combine to form particles with integer charge). The proton has a charge of +e, and the electron has a charge of −e.
Electric charges produce electric fields. A moving charge also produces a magnetic field. The interaction of electric charges with an electromagnetic field (combination of electric and magnetic fields) is the source of the electromagnetic (or Lorentz) force, which is one of the four fundamental forces in physics. The study of photon-mediated interactions among charged particles is called quantum electrodynamics.The SI derived unit of electric charge is the coulomb (C) named after French physicist Charles-Augustin de Coulomb. In electrical engineering it is also common to use the ampere-hour (Ah). In physics and chemistry it is common to use the elementary charge (e as a unit). Chemistry also uses the Faraday constant as the charge on a mole of electrons. The lowercase symbol q often denotes charge.

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  1. Z

    Finding charges in a pendulum in equilibrium

    (solved) Finding charges in a pendulum in equilibrium Homework Statement Two small metallic spheres, each of mass 0.20 g, are suspended as pendulums by light strings from a common point. The spheres are given the same electric charge, and it is found that the two come to equilibrium when...
  2. S

    Light Reflection and Feynmans plane of oscillating charges

    In ch 30-7 of the Lectures, Feynman explains that the field of a plane of oscillating charges at a point P is proportional to the velocity of the charges, considered at the appropriate retarded time (retarded by the vertical distance from the point P). Feynman derives this formula only for...
  3. Q

    What is the Method for Calculating Stress Between Two Positive Charges?

    Homework Statement Hi guys! If I have two positive charges really close to each other, what would be the electric stress between the positive charges? Now I don't need a numerical answer, but I would like to know if my attempt is correct. Homework Equations σ=ε(EiEj-(1/2)δij(E^2))...
  4. F

    Calculating Work and Energy for Moving Charges: A Case Study

    Two charges q1 = 3.0µC and q2 = −4.0µC initially are separated by a distance ro = 2cm. An external agent moves the charges until they are rf = 5cm apart. a) How much work is done by the electric field moving the charged from ro to rf? Is it negative or positive? What is the work done by a...
  5. T

    Understanding Free & Bound Charges: H & D Fields Explained

    My teacher's notes don't explain this. What are free and bound charges, and why are the H and D field defined like they are?
  6. A

    Electric potential due to two point charges

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  7. J

    Coulomb's Law Placement of Charges in Equilibrium

    Homework Statement Consider the arrangement of two point charges equal in magnitude but opposite sign (+Q, and -Q), which are a fixed distance d apart. Can you find a location where a third positive charge Q could be placed so that the net electric force on this charge is zero? Homework...
  8. R

    Two small beads having positive charges 3q and q are fixed

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  9. K

    How Is Electric Force Calculated Without Distance?

    Homework Statement Find the magnitude and direction at the midpoint of two point charges q1=20nC and q2=-40nC Homework Equations How can we answer the question if we aren't given the distance? The Attempt at a Solution Do I solve in terms of x for distance and use the formula...
  10. I

    Calculating Electric Field from Two Point Charges

    Homework Statement "A point charge of 3*10^-6 C is at the origin and another point charge of -4*10^06 C is at point 0.1m away along the x axis. What is the magnitude and direction of the electric field at point 0.15m from the origin along the posting y-axis? Homework Equations E=...
  11. R

    Help with Electric charges using coulomb's law

    Homework Statement Two point charges are located on the y-axis as follows: charge q1=-2.5nC at y=-0.6m, and charge q2=+3.5nC at the origin. What is the net force (x, y components) exerted by these two charges on a third charge q3=+5.0nC located at y=-0.4m? Homework Equations F=k...
  12. H

    Calculation of potential of an grounded sphere ball with charges

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  13. S

    Electrical Force Between Two Moving Charges

    We all know the coulomb's law of electrical force between two charges q_1,q_2 equals to \normalsize F= Kq_1q_2/d^2. But this law is not precisely true when the two charges are moving. We know for a single charge q moving with a velocity v the force is \ F=q(E+v×B) What is the straightforward...
  14. J

    Electrostatic energy of two opposite charges in water and in a vacuum

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  15. M

    Charges at the corners of a square.

    Homework Statement Four positive charges are located on the corners of a square of side-length a. The charges are A=4, B=2, C=8 4q----a----q |------------| a-----------a |------------| 2q----a----8q Determine the magnitude and direction of the electric field experienced by charge q in terms of...
  16. J

    Query regarding concepts of charges

    my question is , what's the fundamental difference difference between positive and negative charge? i mean in what way a positron and a electron are fundamentally different? is it spin properties or others?
  17. N

    Electric Potential Energy, Point Charges and velocity

    Homework Statement A small metal sphere, carrying a net charge of q1 = -2.90 μC , is held in a stationary position by insulating supports. A second small metal sphere, with a net charge of q2 = -7.20 μC and mass 1.70g , is projected toward q1. When the two spheres are 0.800 m apart, q2 is...
  18. N

    Point Charges and Electric Potential Energy with Work Done

    Homework Statement A point charge q1 is held stationary at the origin. A second charge q2 is placed at point a, and the electric potential energy of the pair of charges is + 5.4 x10^-8 J. When the second charge is moved to point b, the electric force on the charge does - 1.9x10^-8 J of work...
  19. L

    Magnetic Field Force on Parallel Moving Charges

    Why don't magnetic fields not force to charges/currents that are moving parallel to the field? Does it have something to do with the orientation of the field created by the moving charge in relation to the field it is in? I know the answer of this question may not be clear yet, but are...
  20. L

    Magnetic Fields: Force on Charges Moving Perpendicular

    Why do magnetic fields only apply force to charges/currents that are perpendicular to the field? Does it have something to do with the orientation of the field created by the moving charge in relation to the field it is in?
  21. N

    Point Charges, Maginitudes and Electric Fields.

    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...
  22. P

    Charges in a Line Conceptual Question with picture

    Homework Statement Two balls, one with charge Q1 = +Q and the other with charge Q2 = +2Q, are held fixed at a separation d = 3R as shown. See picture. Another ball with (non-zero) charge Q3 is introduced in between Q1 and Q2 at a distance = R from Q1. See right below first...
  23. P

    Finding the Electric Field Between Charges [picture]

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  24. O

    Finding E on the Z Axis: A Differential Approach

    Imagine you have a regular 13 sided polygon with charges distributed on every corner of the polygon. What would a test charge experience in the center? The answer to that was a 0 net force (which makes some intuitive sense to me due to the symmetry of the polygon). I understand that if we...
  25. K

    Three charges are at the corners of an isosceles triangle

    1. Three charges are at the corners of an isosceles triangle as shown in the figure. The +q1 = 5.05 uC and -q1 = 5.05 uC charges form a dipole. A) Find the magnitude and direction of the net force that the q2 = 8.50 uc charge exerts on the diple. B) For an axis perpendicular to the line...
  26. U

    Experimental proof that uniformly accelerated charges radiate

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  27. P

    Current Ionic Solution, Charges

    Homework Statement Current passes through a solution of sodium chloride. In 1.00 second, 2.68*10^16 Na+ ions arrive at the negative electrode and 3.92*10^16 Cl- ions arrive at the positive electrode. What is the current passing between the electrodes? Final answer must be in milliamperes...
  28. G

    [Point Charges] Can't figure this out

    Homework Statement In the figure below, six charged particles surround particle 7 at radial distances of either d = 1.0 cm or 2d, as drawn. The charges are q1 = +8e, q2 = +8e, q3 = +e, q4 = +8e, q5 = +8e, q6 = +4e, q7 = +4e, with e = 1.60 10-19 C. What is the magnitude of the net electrostatic...
  29. Pruddy

    Coulombs Law: magnitude of the force between two point charges

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  30. P

    Electric Potential: Two identical + 8.5mu C point charges

    Homework Statement Two identical + 8.5mu C point charges are initially 2.5 cm from each other. If they are released at the same instant from rest, how fast will each be moving when they are very far away from each other? Assume they have identical masses of 2.0mg . Homework Equations...
  31. M

    Three point charges are arranged on a line.

    Homework Statement Three point charges are arranged on a line. Charge q3 = +5.00nC and is at the origin. Charge q2 = -4.00nC and is at x = 4.50cm . Charge q1 is at x = 2.00cm. What is q1 (magnitude and sign) if the net force on q3 is zero? Homework Equations The Attempt at a...
  32. X

    Exploring the Electrical Field: A Study of Five Charges

    http://imgur.com/a3vxU Really haven't a clue how to go about this, it's the last question on the paper and nothing before it is anything near as complex as this. Any help much appreciated
  33. R

    Electron Between Infinite Line Charges and SHM

    Homework Statement Two infinite line charges, of charge density λ Cm-1, are aligned parallel to one another as shown in the diagram below. The line charges are a distance 2a apart. An electron is placed at location (x, 0, 0), x << a and released. Show that it will execute simple harmonic...
  34. 1

    Moving point charges - help debugging

    Homework Statement See attachment Homework Equations The Attempt at a Solution I was successful with finding a solution. But, only because I tried the practice version of that (where you can see the answers) and noticed the equation I derived gave angles that, when summed with...
  35. Greg Bernhardt

    Lance Armstrong won't fight doping charges; loses titles

    Curious what people's opinions are on this. Does anyone have a link to the investigation and evidence. http://www.reuters.com/article/2012/08/24/us-cycling-armstrong-doping-idUSBRE87N03N20120824
  36. 1

    Charges are connected and then kicked by chuck norris

    Homework Statement Two identical conducting spheres, fixed in place, attract each other with a force of 0.111 N when their center to center separation is 45.00 cm. The spheres are then connected by a thin conducting wire. When the wire is removed, the spheres have a net positive charge and...
  37. B

    Finding Electric Field at r>= R with Four Point Charges

    Homework Statement Four point charges, two of charge +q and two of charge -q, are placed in an arbitrary way. Each charge is located a distance r_i < R from the origin. Find the electric field at r >= R. Homework Equations According to Gauss's law, the field should be zero, right...
  38. U

    Interaction between two point charges

    Let's suppose, we have two ideal point charges q_{1}, m_{1} and q_{2}, m_{2}. One of them comes from almost infinite distance with relative velocity v_{0}, w.r.t another charge. I'm curious how can we analyze this situation mathematically, i.e the equations of the motions of these particles...
  39. S

    How much energy is needed to place 4 positive charges

    Can someone just confirm if I'm doing these two problems correctly ... 1. How much energy is needed to place 4 positive charges, each of magnitude +5mC, at the vertices of a square of side 2.5cm 2. Choose one way of assembling the charges and calculate the potential at each empty vertex as...
  40. B

    Net Electrostatic Force of 4 Charges at a Regular Triangle Pyramid

    Homework Statement 4 identical charges each equal to Q are placed at the 4 vertices of a regular triangular pyramid of each side equal to 'a'. Find the net electrostatic force on anyone charge. Homework Equations F = kQ^2/a^2 The Attempt at a Solution find the force due to each...
  41. 1

    Point charges on equilateral triangle no idea what's wrong.

    Homework Statement These are really frustrating because they seem so simple, I work them all out without a hitch only to find that I'm wrong half the time and left wondering why. In fig 21-26a, particles 1 and 2 have charge 20 microcoulombs each and are held at separation distance d = 1.5...
  42. M

    Solving Magnetic Fields Produced by Multiple Charges in Free Space

    Why is there no equation for solving for the magnetic field produced by multiple charges in free space? To solve for this do you sum up all the magnetic fields produced by each of the point charges or what?
  43. W

    Uniform Magnetic Field's Effect on Moving Charges

    Homework Statement Charges 1 and 3 in the figure below have the same mass and the same speed. Which has the greater magnitude of charge? What are the signs of the charges? http://www.webassign.net/colfunphys1/21-p-001.gif Homework Equations F = |q|v*B*sin(θ) The Attempt at a...
  44. DennisN

    Empirical tests of quark charges, any info?

    Hi, I just remembered a question I have wondered about for countless of years without finding any answer to: Have (any of) the electric charges of quarks been empirically measured/tested/verified? (Yes, I know about the Standard Model and what the charges are supposed to be, that's not...
  45. H

    Partial/Complete charges and formal Charges?

    I'm reading the fundamentals of organic chemistry these days and I'd like to make sure I get the following absolutely right: 1) If a certain atom in an ion or a molecule etc has a formal charge of zero then the atom itself has no charge on itself irrespective of whatever the charge might be...
  46. J

    Electric field question involving 4 charges on a square

    Four charges are placed at the vertices of a square, centered at the origin, as shown in the diagram. If each side of the square has a length of 0.224 m, what is the strength and direction of the net electric field at the origin? Express your answer in terms of the charge magnitude q...
  47. C

    Electric Charges Homework: Find q from Tmax & Fc2

    Homework Statement An electrically neutral model airplane is flying in a horizontal circle on a 2.5-m guideline, which is nearly parallel to the ground. The line breaks when the kinetic energy of the plane is 50 J. Reconsider the same situation, except that now there is a point charge of +q on...
  48. J

    What is the Electric Field and Spring Constant for Two Charges on a Spring?

    Homework Statement Two charges Qa = 3 µC and Qb = -2 µC are placed on the x-axis with a separation of a = 25 cm. (a) Find the net electric field at point P, a distance d = 7 cm to the left of charge Qa. (b) Find the force on Qb due to Qa . The charges Qa and Qb are now attached to the...
  49. J

    Calculating Electric Field for 2 Test Charges

    Homework Statement Two test charges are located in the x–y plane. If q1 = -2.75 nC and is located at x = 0.00 m, y = 0.800 m and the second test charge has magnitude of q2 = 3.20 nC and is located at x = 1.00 m, y = 0.400 m, calculate the x and y components, Ex and Ey, of the electric...
  50. H

    Calculating partial charges for interatomic coulombic interactions

    I want to understand how to compute (or find a database for) partial charges, which I can then apply to calculating coulombic interactions. From http://www.chemaxon.com/marvin/help/calculations/charge.html, it is said that electronegativity is related to the partial charge by a quadratic...
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