5.4 Electromotive force and internal resistance

Cards (99)

  • Electromotive Force (EMF) is the potential difference that a source of electrical energy can provide when no current
  • Match the electrical term with its definition:
    EMF (ε) ↔️ Potential difference with no current flow
    Terminal Potential Difference (V) ↔️ Actual voltage available with current flow
    Internal Resistance (r) ↔️ Resistance within the source
  • Temperature is a factor that influences internal resistance.
    True
  • The internal resistance of a lead-acid battery is very low
  • What is the function of a battery in a simple electrical circuit?
    Provides potential difference
  • What does Electromotive Force (EMF) represent when no current is flowing?
    Maximum possible voltage
  • The formula relating EMF, terminal potential difference, and internal resistance is V = ϵIr\epsilon - Ir.
  • Arrange the factors affecting internal resistance in order of importance:
    1️⃣ Material and construction
    2️⃣ Age of the source
    3️⃣ Temperature
  • A simple electrical circuit must include a battery, wires, and a load.

    True
  • What is the current flowing in a circuit with an EMF of 12 V, external resistance of 5.5 Ω, and internal resistance of 0.5 Ω?
    2 A
  • What is the key difference between EMF and terminal potential difference?
    Current flow
  • Electromotive force (EMF) is the maximum potential difference a source can provide when no current is flowing.

    True
  • EMF is the actual voltage available at the terminals of a source when current is flowing.
    False
  • Match the term with its definition:
    EMF (ε) ↔️ Potential difference with no current flow
    Terminal Potential Difference (V) ↔️ Actual voltage available with current flow
    Internal Resistance (r) ↔️ Resistance within the source
  • Internal resistance reduces the terminal potential difference according to the formula V=V =ϵIr \epsilon - Ir, where II is the current
  • What is the relationship between voltage, current, and resistance defined by Ohm's Law?
    V=V =IR IR
  • What is the function of a battery in a simple electrical circuit?
    Provides voltage
  • What does the EMF (ε) of a battery represent?
    Potential difference
  • The terminal potential difference (V) is always less than the EMF (ε) due to the voltage drop across the internal resistance.

    True
  • A battery with an EMF of 12V12 V and internal resistance of 0.5Ω0.5 \Omega supplies a current of 2A2 A. What is the terminal potential difference?

    11V11 V
  • Match the term with its definition:
    EMF (ε) ↔️ Potential difference with no current flow
    Terminal Potential Difference (V) ↔️ Voltage available with current flow
    Internal Resistance (r) ↔️ Resistance within the source
  • Factors affecting internal resistance:
    1️⃣ Material and Construction
    2️⃣ Temperature
    3️⃣ Age
  • What formula is used to solve problems involving EMF and internal resistance?
    V=V =ϵIr \epsilon - Ir
  • The formula for terminal potential difference (V) is V=V =ϵIr \epsilon - Ir
    True
  • What causes the terminal potential difference to be less than the EMF?
    Internal resistance
  • Internal resistance reduces the terminal potential difference according to the formula V=V =ϵIr \epsilon - Ir
    True
  • What law defines the relationship between voltage, current, and resistance in a circuit?
    Ohm's Law
  • The terminal potential difference is always equal to the EMF when internal resistance is present.
    False
  • The terminal potential difference (PD) is equal to the EMF when no current is flowing.
    False
  • The formula for terminal potential difference (PD) is V = \epsilon - Ir</latex>
    True
  • In an example with an EMF of 12V12 V, internal resistance of 0.5Ω0.5 \Omega, and a current of 2 A</latex>, the terminal PD is 11 V
  • The internal resistance of a source usually decreases with age due to corrosion.
    False
  • Temperature fluctuations can affect the internal resistance of a source and need to be considered in experiments.
    True
  • The terminal potential difference is less than the EMF due to internal resistance.

    True
  • The formula relating EMF, terminal potential difference, and internal resistance is V = ε - Ir
  • Arrange the following sources in order of increasing internal resistance:
    1️⃣ Lead-Acid Battery
    2️⃣ Alkaline Battery
    3️⃣ Lithium Battery
  • In a simple electrical circuit, electrons flow from the positive terminal to the negative terminal of the battery.
    False
  • Match the electrical term with its definition:
    EMF (ε) ↔️ Potential difference with no current flow
    Terminal Potential Difference (V) ↔️ Actual voltage available with current flow
    Internal Resistance (r) ↔️ Resistance within the source
  • The terminal potential difference is always equal to the EMF.
    False
  • What is the effect of internal resistance on the terminal potential difference?
    Reduces terminal PD