4.2.3 Ohm's Law

    Cards (74)

    • What does Ohm's Law state regarding the relationship between current and voltage?
      Directly proportional
    • Ohm's Law applies to all types of electrical circuits.
      False
    • Arrange the variables in Ohm's Law by their symbols and units:
      1️⃣ V (Volts)
      2️⃣ I (Amperes)
      3️⃣ R (Ohms)
    • In Ohm's Law, V represents the potential difference measured in volts
    • The unit for current (I) in Ohm's Law is amperes
    • Match the variables in Ohm's Law with their definitions:
      Voltage (V) ↔️ Potential difference across a conductor
      Current (I) ↔️ Rate of flow of electric charge
      Resistance (R) ↔️ Opposition to current flow
    • In Ohm's Law, R represents the resistance measured in ohms
    • What is the definition of current (I) in Ohm's Law?
      Rate of charge flow
    • What is the role of resistance in Ohm's Law?
      Limits current flow
    • Voltage acts as the force propelling electrons in a circuit.

      True
    • Current quantifies the flow of electrons in a circuit.

      True
    • Resistance limits current flow and dissipates energy as heat.

      True
    • What does the Ohm's Law formula V=V =IR IR highlight about the relationship between voltage, current, and resistance?

      Voltage is proportional to current and resistance
    • What is the current in a circuit with 12 volts and 3 ohms of resistance?
      4 amperes
    • Ohm's Law states that current is directly proportional to voltage if temperature and conditions remain constant.

      True
    • What unit is voltage measured in?
      Volts
    • Match the variable with its unit in Ohm's Law:
      Voltage ↔️ Volts
      Current ↔️ Amperes
      Resistance ↔️ Ohms
    • Resistance is measured in units called ohms
    • Ohm's Law applies to linear conductors where resistance remains constant
    • Resistance causes energy to be dissipated as heat.

      True
    • What is the fundamental formula for Ohm's Law?
      V=V =IR IR
    • What is the unit of resistance?
      Ohms (Ω)
    • The formula to find resistance in Ohm's Law is R=R =V/I V / I.

      True
    • What is the equivalent resistance of two 6Ω resistors in parallel?
    • Ohm's Law assumes that resistance changes with temperature.
      False
    • The mathematical formula for Ohm's Law is V=IR
    • What type of conductors does Ohm's Law apply to?
      Linear conductors
    • Match the variable in Ohm's Law with its definition and unit:
      Voltage (V) ↔️ Potential difference (V)
      Current (I) ↔️ Flow of charge (A)
      Resistance (R) ↔️ Opposition to flow (Ω)
    • Ohm's Law is mathematically expressed as V=IR
    • What is the formula for Ohm's Law?
      V=V =IR IR
    • What does voltage (V) represent in Ohm's Law?
      Potential difference
    • The role of current (I) in Ohm's Law is to quantify the flow of electrons
    • What is the mathematical expression of Ohm's Law?
      V=V =IR IR
    • Match the variables in Ohm's Law with their units:
      Voltage (V) ↔️ Volts (V)
      Current (I) ↔️ Amperes (A)
      Resistance (R) ↔️ Ohms (Ω)
    • Resistance dissipates energy as heat in Ohm's Law.
      True
    • The unit of voltage is volts
    • The unit of current is amperes
    • The unit of resistance is ohms
    • Arrange the variables in Ohm's Law in their correct order.
      1️⃣ Voltage (V)
      2️⃣ Current (I)
      3️⃣ Resistance (R)
    • To find the current, the formula is I=I =VR \frac{V}{R}.

      True
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