5-6

avatar
Created by
azi

Cards (45)

  • Capacitance
    A property of an electric non-conductor that permits the storage of energy
    View source
  • Capacitance
    The ratio of the magnitude of the charge per volts
    View source
  • Capacitance formula
    C = q/V
    View source
  • Farad (F)

    The SI unit of capacitance
    View source
  • Capacitance will always be a positive quantity
    View source
  • The capacitance of a given capacitor is constant
    View source
  • Capacitance
    A measure of the capacitor's ability to store charge
    View source
  • The farad is a large unit, typically you will see microfarads (mF) and picofarads (pF)
    View source
  • Compute the capacitance
    1. Value of charge stored
    2. Volt supply
    View source
  • Determine the volt supply
    1. Capacitance value
    2. Charge stored
    View source
  • Capacitors
    Devices that store electric charge
    View source
  • Where capacitors are used
    • Radio receivers
    • Filters in power supplies
    • Energy-storing devices in electronic flashes
    View source
  • Capacitor
    Consists of two conductors called plates
    View source
  • When the conductor is charged, the plates carry charges of equal magnitude and opposite directions
    View source
  • A potential difference exists between the plates due to the charge
    View source
  • Dielectric
    A non-conducting material that, when placed between the plates of a capacitor, increases the capacitance
    View source
  • Dielectrics
    • Rubber
    • Glass
    • Waxed paper
    View source
  • Area of conducting plate
    Increase capacitance
    View source
  • Distance between the conducting plates
    Increase capacitance
    View source
  • Type of Dielectrics
    • More conducting - Decrease capacitance
    • Less conducting - Increase capacitance
    View source
  • Role of Dielectrics
    • Impede or block the charges passing through the material
    • Allows the storage of electric current on the material (capacitor)
    • The less conducting/more insulating the dielectrics are, the greater is the capacitance
    • Leakage Current: small amount of current that manage to pass through even with the dielectrics blocking their way
    View source
  • Shapes of Capacitors
    • Parallel-plate
    • Cylindrical
    • Spherical
    View source
  • Parallel Plate Capacitor
    • Each plate is connected to a terminal of the battery
    • The battery is a source of potential difference
    • If the capacitor is initially uncharged, the battery establishes an electric field in the connecting wires
    View source
  • Cylindrical Capacitor

    • The inner and outer cylinder structures correspond to the plates
    • The value of the capacitance is directly proportional to each length and cross-sectional area
    View source
  • Spherical Capacitor
    • Almost similar to the construction of the cylindrical capacitor
    • The value of the capacitance is directly proportional to the overall radius
    • Voltage on this type is also intensified by increasing the radius
    View source
  • Capacitors in a Circuit

    • Series connection
    • Parallel connection
    View source
  • Series connection
    1. Total charge stored is constant
    2. Total voltage varies
    3. Total capacitance is reciprocal of sum of reciprocals
    View source
  • Parallel connection
    1. Total charge is sum of individual charges
    2. Total voltage is constant
    3. Total capacitance is sum of individual capacitances
    View source
  • Compute the total values
    1. Capacitance
    2. Voltage
    3. Charge
    View source
  • Applications of Capacitance
    • Charged Parallel-plate Capacitors
    • Batteries and Electroscopes
    • Camera Flash Lamps
    • Geiger Counters
    • Coaxial Cables
    View source
  • Charged Parallel-plate Capacitor
    • Dependent on the area and the distance between charged plates
    • C = K.ε0.A/d
    • K = constant; dielectric value of a specific material
    • ε0 = constant; 8.85 x 10^-12 F/m
    • A = area of one of the charged plates
    • d = distance between the plates
    View source
  • Compute the capacitance
    1. Area of parallel plates
    2. Distance between plates
    View source
  • Batteries and Electroscopes
    • Convenient source of electric energy
    • Effective storage of electrical charges
    View source
  • Camera Flash Lamps
    • Provide an artificial source of light
    • Connected in an electric circuit that charges a capacitor
    View source
  • Geiger Counter
    • Used to measure ionizing radiation
    • Made up of a tube filled with noble gases
    • High voltage is applied to the tube
    • An electric current is conducted inside the tube when incident radiation ionizes the gas
    View source
  • Coaxial Cables
    • Has cylindrical capacitor structure
    • Primarily used in local area networking (LAN)
    View source
  • Energy is neither created nor destroyed; it can only be transformed from one form to another
    View source
  • Electric Power
    • The rate of energy conversion
    • P = VI
    • P = V^2/R
    View source
  • Compute the current
    1. Power
    2. Voltage
    View source
  • Compute the power
    1. Current
    2. Voltage
    View source