2.2.1 Characteristics of Series Circuits

Cards (36)

What is a series circuit?
A single-loop electrical circuit
The total voltage in a series circuit is the sum of the voltages across each component.
True
The total power consumed in a series circuit depends on the current and voltage.
What is the primary characteristic of a series circuit in terms of component connection?
Single-loop connection
How does current flow in a series circuit?
Same current through all components
What happens to the current if one component fails in a series circuit?
Current flow ceases
The current in a series circuit remains constant throughout. 
True
What is the formula for calculating the total voltage in a series circuit?
V_{\text{total}} = V_1 + V_2 + \ldots + V_n</latex>
Match the circuit type with its total resistance formula:
Series ↔️ $R_{\text{total}} =$ $R_{1} +$ $R_{2} +$ $\ldots +$ $R_{n}$
Parallel ↔️ $\frac{1}{R_{\text{total}}} =$ $\frac{1}{R_{1}} +$ $\frac{1}{R_{2}} +$ $\ldots +$ $\frac{1}{R_{n}}$
What is a series circuit characterized by in terms of component connection?
A single loop
In a series circuit, the voltage across each resistor is proportional to its resistance value according to Ohm's Law. 
True
What do $ V_1 $, $ V_2 $, ..., $ V_n $ represent in the voltage distribution formula for a series circuit?
Voltage across each resistor
Steps to calculate total voltage in a series circuit
1️⃣ Determine the voltage across each resistor
2️⃣ Add the voltages across all resistors
3️⃣ The sum is the total voltage
How is the total resistance calculated in a series circuit?
By adding all resistance values
The total resistance in a parallel circuit is calculated using the reciprocal of each resistance
What is the formula for calculating total power in a series circuit using total voltage and current?
$ P_{\text{total}} = V_{\text{total}} \times I $
The total power in a series circuit is the sum of the power consumed by each component. 
True
What is a major disadvantage of a series circuit in terms of reliability?
Failure of one component breaks the circuit
In a series circuit, the voltage is distributed across the components
In a series circuit, the same current flows through each component.
How is the total resistance calculated in a series circuit?
By adding individual resistances
Series circuits are less reliable because if one component fails, the entire circuit breaks.
True
In a series circuit, the voltage across each component is the same.
False
The current in a series circuit is the same at any point in the circuit.
In a series circuit, the voltage across each resistor is proportional to its resistance value.
How is the total resistance in a series circuit calculated?
$R_{\text{total}} =$ $R_{1} +$ $R_{2} +$ $\ldots +$ $R_{n}$
The voltage in a parallel circuit is the same across each component. 
True
If one component fails in a series circuit, the current ceases, breaking the circuit
The total voltage in a series circuit is the sum of the voltages across each resistor
The total voltage in a series circuit is always equal to the sum of the individual voltages across all resistors.
True
Match the resistor characteristics with their values:
Resistance of R1 ↔️ 10 $\Omega$
Voltage across R1 ↔️ 5 V
Resistance of R2 ↔️ 20 $\Omega$
Voltage across R2 ↔️ 10 V
The total resistance in a series circuit is always less than the individual resistance values.
False
Match the circuit type with its total resistance formula:
Series ↔️ $ R_{\text{total}} = R_1 + R_2 + \ldots + R_n $
Parallel ↔️ $ \frac{1}{R_{\text{total}}} = \frac{1}{R_1} + \frac{1}{R_2} + \ldots + \frac{1}{R_n} $
The total power in a series circuit can also be expressed using $ I^2 \times R_{\text{total}} $, where $ R_{\text{total}} $ is the total resistance
Steps to design a series circuit
1️⃣ Determine the required voltage and current
2️⃣ Select components that meet the voltage and current requirements
3️⃣ Connect components in a single loop
4️⃣ Verify the circuit's operation
Series circuits are more efficient than parallel circuits for complex systems.
False