9.3 Conservation of Electric Energy

Cards (23)

  • Electric potential energy is measured in Joules
  • The principle of conservation of electric energy states that the total energy in a closed system remains constant
  • Electric potential energy is a type of kinetic energy.
    False
  • The sum of kinetic and potential energy of charges in an electric field remains constant.

    True
  • In an electric circuit, the total energy is the sum of kinetic energy and electric potential energy
  • What principle dictates that total energy remains constant in a system?
    Conservation of electric energy
  • What is the formula for electric potential energy?
    U = qV
  • The potential difference is the amount of energy required to move a unit charge between two points.
  • The principle of conservation of electric energy applies in open systems.
    False
  • The total energy in a closed system remains constant unless acted upon by external forces.
    True
  • Kinetic energy is calculated as \( \frac{1}{2} mv^2 \).
    True
  • What is the unit of potential difference?
    Volts
  • Steps to solve conservation of energy problems in electric systems:
    1️⃣ Identify initial and final states
    2️⃣ Calculate initial potential and kinetic energy
    3️⃣ Calculate final potential and kinetic energy
    4️⃣ Apply conservation of energy
    5️⃣ Solve for unknown variables
  • What type of energy do power generators convert into electric potential energy?
    Kinetic energy
  • A charge of \( 2 \times 10^{-6} \) C is released from rest at a potential of 50 V and moves to a potential of 20 V. What is its final kinetic energy?
    60 \times 10^{-6} \, \text{J}
  • Conservation of energy ensures that the total energy within a system remains constant.
  • Match the concept with its description:
    Electric Potential Energy ↔️ Energy possessed by a charge in an electric field
    Equation ↔️ \( U = qV \)
  • Match the concept with its equation:
    Conservation of Electric Energy ↔️ \( E_{total} = K + U = \text{constant} \)
    Kinetic Energy ↔️ \( K = \frac{1}{2} mv^2 \)
    Electric Potential Energy ↔️ \( U = qV \)
  • Potential difference is measured in volts
  • The total energy in a system is the sum of kinetic energy and potential energy.
  • Match the energy type with its formula:
    Total Energy ↔️ E_{total} = K + U
    Kinetic Energy ↔️ K = \frac{1}{2} mv^2
    Electric Potential Energy ↔️ U = qV
  • Electric potential energy is measured in joules.

    True
  • Electric motors convert electric potential energy into kinetic energy.

    True