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. T

    Point charges in electric field

    Homework Statement A metal sphere hangs from a string and has 6 kg of mass. The sphere has a charge of +3.7 µC. A uniform electric field is turned on and directed to the right. (a). What is the electric force on the metal sphere if the magnitude of the electric field is 106 N/C? (b)...
  2. T

    What is the net force on the third spider (S3)?

    Homework Statement The sides of the triangular web have a length of a = 0.74 m, as depicted in the figure. Two of the spiders (S1 and S3) have +6.6 µC charge, while the other (S2) has −6.6 µC charge. a.) What are the magnitude and direction of the net force on the third spider (S3)? I...
  3. K

    Find the point b/w two charges where the electric field is zero?

    Homework Statement Two positive charges of 16 micro coulomb and 4 micro coulomb are separated by a distance 3 m along a straight line...find the spot on the line joining the two charges where Electric field is zero? Homework Equations E = F/Q and F = Q1Q2/R^2 The Attempt at a...
  4. U

    The balancing point between two point charges

    Where is the potential zero? 1. Where is the potential zero between a negative (-.03c) and a positive charge (.27) separated by 1 meter? 2. Point charges laws 3. My textbook doesn't mention where is potential zero between two charges, it's easy to solve if i know the point is in between or...
  5. K

    Properties of neutral charges?

    Three objects (A, B, and C) are brought close to each other one at a time. A and B attract, but B and C repel. Simple true/false question involving "is this one positive/negative/etc." What I'm unsure about is whether or not A could possibly be neutral, or more specifically, is there any way to...
  6. S

    How Does a Dielectric Medium Affect the Force Between Two Point Charges?

    Hello. I am not sure if I must post here. The problem is not for homework, it derived from a classmate's question. Homework Statement We have a large quantity of liquid dielectric with relative permittivity \varepsilon and a charge Q immersed in the liquid in depth h. We bring another...
  7. B

    Energy required to remove point charges

    Homework Statement Four charges are placed at the corners of a square of side length a, as follows : -Q on the top left corner, +Q on the top right corner, -Q on the bottom left corner and +Q on the bottom right corner. Determine the electric field at the centre of the square and determine...
  8. E

    Electric field of finite line charge and 2 point charges

    Homework Statement A finite uniform linear charge ρ_L = 4 nC/m lies on the xy plane; start point and end point are (7,0,0) and (0,7,0) .While point charges of 8 nC each are located at (0, 1, 1) and (0, -1, 1). Find E at (0, 0 ,0) Homework Equations dE=ρ_L *dz'/4∏ε *...
  9. K

    Representation of a 1 phase transmission line as line charges

    Hi, According to what I understood, when a terminal is connected to a line, it causes electrons to flow in one direction. And so for a single phase transmission line in parallel if connected to supply, then in one side electrons will be flowing in one direction and the same electrons will be...
  10. Astrum

    Bound Charges - Polarized Distributions

    The potential due to a polorized distribution is given by: V( \vec{r}) = \frac{1}{4 \pi \epsilon _{0}} \int _{V} \frac{ \hat{r} \cdot \vec{P} ( \vec{r}')}{r^{2}} dV After working some voodoo math, this is worked into the form V = \frac{1}{4 \pi \epsilon _{0}} \oint _{S} \frac{1}{r} \vec{P}...
  11. M

    Why charges travel faster in semiconductor than in metallic conductor?

    Homework Statement "Use the equation I=nAve to justify why charges travel faster in semiconductor than in metallic conductor. Assume that the dimensions and current are the same. " Homework Equations I=nAve I know I = current, n = number density, A= cross sectional area v= drift...
  12. K

    What are point charges?Why we use point charges for coulomb's law?

    Homework Statement What is a point charge? and what is the purpose of it when the definition of coulomb's law says,"force b/w TWO POINT CHARGES is directly proportional to their magnitude,and inverse to the square of their distance..."...I mean what is the use of it,why only point charges...
  13. B

    Two infinite sheets with charges

    Two infinite-plane non-conducting, thin sheets of uniform surface charge p1 = 12.30 uC/m2 and p2 = -3.30 uC/m2) are parallel to each other and d = 0.615 m apart. What is the electric field between the sheets? (Note: the field is positive if it is parallel to the vector x). Hi, I've tried this...
  14. T

    Force on charges placed at vertices of a square.

    Hello. This isn't a homework, but rather my own self-study of a textbook (Franklin's Classical Electromagnetism), so if this is an inappropriate place for these types of questions let me know. Homework Statement Four equal charges q are placed at the vertices of a square of side L. What is...
  15. M

    Electric field lines between 20/30 V point charges vs. 10/0 V

    Homework Statement What would the electric field lines / equipotential lines look like between point charges that are set up with potentials of 20 volts and 30 volts versus point charges that are set up with potentials of 0 volts and 10 volts? The Attempt at a Solution At first I thought the...
  16. M

    Electric Charges Causing Centripetal Motion

    Homework Statement A particle of charge Q is fixed at the origin of an xy coordinate system. At t = 0 a particle (m = 0.671 g, q = 5.90 µC is located on the x-axis at x = 15.6 cm, moving with a speed of 54.4 m/s in the positive y direction. For what value of Q (in μC) will the moving particle...
  17. andyrk

    Potential Of Negetive and Positive charges

    In a battery, why is the negative terminal at a lower potential than the positive terminal? And can we define absolute potential of a point? Potential means that the work done in bringing a charge from a given point to a given point on presence of the electric field created by another charge in...
  18. P

    What is the magnitude if the total force exerted by the four charges

    Four charges of magnitude +q are placed at the corners of a square whose sides have a length d. What is the magnitude if the total force exerted by the four charges on a charge Q located a distance b along a line perpendicular to the plane of the square and equidistant from the four charges...
  19. A

    What is the relation between positive and negative charges?

    Is it the absence and presence of an electrical fluid called as positive and negative charges?
  20. V

    Electric charges and conservation of energy

    Homework Statement Two charged particles connected by a string exert electric forces on one another. One has a mass of 3 grams and the other 6 grams. The string is .04m. The force is calculated to be 50.56N. What is the tension in the string? What is the total energy of the system...
  21. A

    Help Needed: Calculating Force Using Image Charges

    Hi, I'm trying to use image charges to find the force that apply on the following particle (on the attachment) , but it seems that I do something wrong - F=2q^2/(2a^2)-2cos(60)q^2/a^2 The gray section have 0 potential, so I've tried to put image charges like it is in the second attachment...
  22. A

    Charges in two plate capacitor

    I saw this section somewhere in the forum: Picture 2 plates charged to a voltage V, w/ capacitance C. Of course Q = C*V. An electron is placed in between the plates & released, & it moves towards the positive plate. Said electron with its negative charge now adds to the positive charge...
  23. C

    Calculating Work and Potential Energy in a System of Point Charges

    Homework Statement Two point charges are located on the x-axis, q1 = -e at x = 0 and q2=+e at x=a.(a)Find the work that must be done by an external force to bring a third point charge q3 = +e from infinity to x = 2a. (b) Find the total potential energy of the system of three charges.The Attempt...
  24. Saitama

    Potential due to induced charges

    Homework Statement A point charge q is placed at a distance ##r## from the centre O of a uncharged spherical shell of inner radius ##R## and outer radius ##2R##. The distance ##r<R##. Find the electric potential at the centre of shell.Homework Equations The Attempt at a Solution The charges...
  25. C

    Feynman diagrams - electrical charges

    I have a request for some explanation in Feynman diagram concerning repelling/attraction of electrical charges. I have been told that when two charges (say, e1(-) and the e2(-)) repel each other, a photon is being emitted from one of them, and the other charge is later being hit by this photon...
  26. K

    Two Point Charges and Magnetic Field

    Homework Statement Find the magnetic forces acting on each electron in the attached image Homework Equations B = \frac{μ0}{4pi}*q*\frac{v x \hat{r}}{r^{2}} F_{m} = qv x B The Attempt at a Solution B_{1} = 10^{-7} * 1.6*10^{-19} *...
  27. T

    Does the Motion of Electrons in a Wire or Charged Metal Sphere Produce EM Waves?

    So we know that an accellerating charge will emit EM waves. Consider putting a voltage through a circular wire. Electrons are traveling in the wire with constant speed but their velocity is changing constantly as it is changing direction due to the shape of the wire. Now does that mean the...
  28. N

    Finding the charges on capacitors in a circuit

    Homework Statement Four capacitors are connected as shown and connected to a battery to maintain a constant potential difference between points a and b. A charge Q2 = 61.6 μC is measured on capacitor 2. What is the charge on capacitor C3? Homework Equations Q = CV; rules for...
  29. Sunil Simha

    Electrostatics problem: Find charges on the surface of the dielectric

    Homework Statement An arbitrarily-shaped object is given a charge q and is then surrounded by a dielectric of permittivity ε as shown in the figure below Find the charges induced in the inner and outer surface of the dielectric. Homework Equations I'm not sure but Gauss's law may...
  30. A

    Calculating induced charges by a charge between two capacitor plates.

    A charge Q is kept at a distance x from one of the plates of a parallel capacitor having plates d distance apart with cross section area A.The whole system is earthed.Find the value of induced charges on both the plates. I tried putting the sum of induced charges equal to Q and balancing...
  31. X

    How come potential energy is negative when charges attract

    and positive when they repel? It doesn't make any sense to me at all. To what are they referring to? The way I see it, if you're got... +...- The closer they are, the less electrical potential energy they have. So it should still be positive. And if you've got two like charges C...C The...
  32. V

    Can two objects having same sign charges attract each other

    Hello A neutral charged object can be attracted to a charged body due to electrostatic induction.A charged body will induce charges of opposite polarity in the neutral body ,hence causing attraction. But is it possible that two bodies having same sign charges ,say two positive bodies...
  33. V

    Capacitor having equal charges on plates connected to a battery

    Hello I am having a doubt regarding capacitors .I know that when two neutral plates of an uncharged capacitor of capacitance C are connected to a battery of V volts then charges present on the inner surface of the plates are equal and opposite i.e +Q and -Q,where Q=CV . But what will...
  34. B

    Voltage measured across a capacitor with embedded charges

    Hi all, Lets consider the situation illustrated in the attached figure. A permanent surface charge density \sigma is embedded in between the two metallic electrodes of a capacitor. \sigma is located at distances d1 and d2 from the bottom and top electrodes, respectively. \sigma induces a...
  35. F

    Potential Difference between two positive point charges

    Homework Statement Two equal positive charges Q are fixed on the x-axis, one at +a and the other at -a. (a) The electric field E at the Origin O (b) The electric potential V at the origin O Homework Equations E=-dV/dr --> V=kQ/rThe Attempt at a Solution VNet = V0 + V1 I got V0 = -kQ/r...
  36. F

    Why do different elements have different charges?

    Since I was first introduced to chemistry, it's been because "it has two more than eight, and it wants eight to be "happy" so it loses two electrons and gains a positive two charge." It's good enough for me to write on tests, but 'happy' isn't exactly a scientifically accurate term. And why...
  37. U

    Arrangement of Charges: Solving Homework Problems

    Homework Statement Homework Equations The Attempt at a Solution I've managed to do the first parts up till part (a) and part (b), where I have some questions: 2. how do you know where the E-field is zero? Is it in the region of space where there's some sort of special...
  38. R

    Finding the distance between 2 charges in electric equilibrium.

    Homework Statement Charge A and charge B are 2.2m apart.Charge A is 1.0C, and charge B is 2.0c. Charge C, which is 2.0C, is located between them and is in electrostatic equilibrium. How far from charge A is charge C. Homework Equations E = KcQ1Q2/r^2-------Electric force Formula where E...
  39. T

    3 Equal Charges in Equilateral Triangle - Find KE @ Inf

    Homework Statement Question is attached. I know there's a few ways to solve this, but I'm wondering specifically why my integral of F ds isn't working. Homework Equations F = k * q^2 / r^2 U = ∫ F ds cos 30 = √3/2 s= rcos30 The Attempt at a Solution U = 2 * cos 30 * k *...
  40. D

    Magnetic Forces on Moving Charges True or False

    Homework Statement Consider a charged particle moving with velocity v through a magnetic field B. Answer True or False. 1) The magnetic field B is always perpendicular to the acceleration a of the particle. 2) The magnetic force F is always perpendicular to the acceleration a of the...
  41. C

    Help on problem for physics point charges

    Two point charges, one measuring +5μC and the other -6μC are placed .02m apart. What is the force between the two charges? Which point charge exerts the greater force on the other? Is it an attracting or repelling force? 1μC= 1x 10 to the negative sixthC
  42. C

    Why are mirror charges created?

    When a charge is placed next to an uncharged conductor, a mirrored image of that charge is created on the other side of the uncharged conductor. The mirrored image charge will have an equal and opposite magnitude to the original charge. For example, if there was a 1C point charge 1m away from...
  43. R

    Force on a point from electric charges

    Homework Statement What is the net force on the bottom charge? Please give the force in Fx and Fy Homework Equations F=qE E=kq/r^2 The Attempt at a Solution Fx=2.88x10^-9N Fy=-1.01x10^-4N These aren't correct. I used the equation above and used r=0.035m for both the side...
  44. Roodles01

    Confusion about Coulomb's Law and 3 Point Charges

    Homework Statement 2 questions regarding the answer I have been given for this problem. Attachments are the problem & relevant worked answer I disagree with. Problem Three charges are arranged in the xy-plane as shown in attachment. A charge Q is at the point A with (x, y) coordinates...
  45. Pruddy

    Finding the Net Electric Field of Two Point Charges

    Homework Statement Two point charges Q1 = -58.6 mC and Q2 = +35.4 mC are located so that Q1 is directly above Q2. The coordinates of Q1 is (-12.0 cm, +15.6 cm). The two charges are 42.8 cm apart. Determine the coordinates of the location where the net electric field due to Q1 and Q2 is zero...
  46. T

    Testing for Charges in X-Y Plane Given Field Lines

    Homework Statement The Electric field lines in an X-Y plane are given in the attached image. The field is defined as E=αi(vector)y at x=0 and x=some distance along the positive X axis. α is a positive constant. Test for charges in the X-Y plane Homework Equations N/A The Attempt...
  47. R

    Find the Electric field strength at a point between two charges

    Homework Statement See images Homework Equations See images The Attempt at a Solution I have tried parts C and D several times, and the homework program is telling me that it's still not correct. For C, I keep getting: 7.7x10^8 N/C for D I keep getting: 7.1x10^-12 N/C...
  48. S

    Three Charges Problem: Sketching the Motion of Charges Released from Rest

    Roughly sketch the path of each charge if they are released from rest at the same time, and are allowed to move freely. Here is my sketch : The model answer: Please tell me what is wrong with my sketch. Once R moves to the left side, PR and QR will be shorter than PQ. Attractive...
  49. M

    Charges in a polygon distribution

    Homework Statement 13 equal charges q are placed at the corners of a polygon and as on a clockface, what is the net force on a test charge at the center Q? I assume the charge at the center is positive and the charge on the polygon so they repel Homework Equations (1/4piEo)(qQ/r^2) The...
  50. G

    Combined Electric field for two charges using electric potential

    Homework Statement Two equal and positive point charges Q1 and Q2 are a distance d from each other on the x-axis. Find the electric potential at the point P which lies a distance z on the z-axis from their centre. Then find the Electric field at the point, and then find the force F on a...
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