Electric Charge

  1. Electric charge is a fundamental property of matter that causes it to experience a force in an electric field.
  2. There are two types of charges: positive and negative.
  3. Like charges repel each other, and unlike charges attract each other.
  4. Charge is measured in coulombs (C).
  5. Quantization of charge states that charge exists in discrete packets, as multiples of the elementary charge e (1.6 × 10-19 C).
  6. Conservation of charge states that the total charge in an isolated system remains constant.

Coulomb’s Law

  1. Coulomb’s law gives the force between two point charges: \( F = k \frac{q_1 q_2}{r^2} \).
  2. The force is directly proportional to the product of the magnitudes of charges and inversely proportional to the square of the distance between them.
  3. The constant k is the Coulomb’s constant, \( k = \frac{1}{4 \pi \epsilon_0} \).
  4. ε0 is the permittivity of free space, \( \epsilon_0 = 8.854 × 10^{-12} \, \text{F/m} \).
  5. Coulomb’s law applies in vacuum and for point charges.
  6. The force acts along the line joining the charges and is a central force.

Electric Field

  1. An electric field is a region around a charge where other charges experience a force.
  2. The electric field is represented by the symbol E and is a vector quantity.
  3. The electric field due to a point charge is \( E = k \frac{q}{r^2} \).
  4. The direction of the field is away from a positive charge and toward a negative charge.
  5. The unit of electric field is newton per coulomb (N/C) or volt per meter (V/m).
  6. The electric field lines indicate the strength and direction of the field. Closer lines represent a stronger field.
  7. The electric dipole consists of two equal and opposite charges separated by a distance, creating a unique field pattern.

Key Principles

  1. Superposition principle: The net electric field at a point is the vector sum of electric fields due to all charges.
  2. Gauss’s law: The total electric flux through a closed surface is proportional to the enclosed charge.
  3. The relationship between electric force and electric field is \( F = qE \), where \( F \) is the force on charge \( q \).

Applications

  1. Coulomb’s law is used to calculate forces in atomic and molecular interactions.
  2. Electric fields are crucial in designing capacitors and electrostatic devices.
  3. The principles are used in particle accelerators to manipulate charged particles.
  4. Understanding electric fields helps in shielding sensitive devices from electrostatic interference.
  5. Electric dipoles play a role in polar molecules and their interactions.

Category

Questions

  1. The force between two charges is proportional to which parameter?
  2. Who introduced the concept of lines of force?
  3. Two charges are separated by a distance "r". If both charges are doubled, what happens to the force?
  4. What is the value of Coulomb's constant (k) in free space?
  5. The strength of the electric field due to a point charge is maximum at what point?
  6. In which direction does a positive charge placed in an electric field move?
  7. What happens to the electric field inside a hollow spherical conductor?
  8. How is the force experienced by a charge in an electric field given?
  9. What does the total flux through a closed surface enclosing a charge depend on?
  10. What is the principle behind the working of a capacitor?
  11. How does the electric field due to a dipole on its axial line vary?
  12. If the net force acting on a charge in an electric field is zero, what is the charge?
  13. What is the value of ε₀ in SI units?
  14. Two charges +q and -q are placed close to each other. What is the field due to this system?
  15. The direction of an electric field at any point is given by the direction of what?
  16. The force between two charges placed in a medium is how compared to that in a vacuum?
  17. What is the SI unit of permittivity?
  18. The permittivity of free space is denoted by which symbol?
  19. What is the nature of the electric field due to an infinite charged sheet?
  20. To which type of forces does the principle of superposition apply?
  21. If a test charge is placed in an electric field, what does it experience?
  22. The electric field due to a point charge is inversely proportional to what?
  23. The electric field at a point due to a positive charge is directed in which way?
  24. What is the electric field inside a conductor?
  25. What happens to the force between two charges if the distance between them is halved?
  26. Coulomb’s law is applicable to what type of charges?
  27. What is the SI unit of the electric field?
  28. In which direction do electric field lines point?
  29. What is the nature of force between two like charges?
  30. How is electric field intensity defined?
  31. According to Coulomb’s law, the force between two charges is inversely proportional to what?
  32. According to Coulomb’s law, the force between two charges is directly proportional to what?
  33. What is the SI unit of electric charge?