Test your knowledge of electrical circuits and networks with this quiz on series...

Questions and Answers

In a series electrical network, what can be said about the electric current through each component?

• The electric current through each component is directly proportional to the voltage
• Each component has the same electric current through it, equal to the current through the network (correct)
• Each component has a different electric current through it, depending on its resistance
• The electric current through each component is inversely proportional to the voltage

What is the voltage across a network in a series connection?

• The voltage across the network is equal to the sum of the voltages across each component (correct)
• The voltage across the network is equal to the voltage across the component with the highest resistance
• The voltage across the network is equal to the product of the voltages across each component
• The voltage across the network is equal to the average of the voltages across each component

What can be said about the voltage across each component in a parallel electrical network?

• The voltage across each component is inversely proportional to the current
• The voltage across each component is different and depends on the current
• Each component has the same voltage across it, equal to the voltage across the network (correct)
• The voltage across each component is directly proportional to the resistance

What is the current through a parallel electrical network?

The current through the network is equal to the sum of the currents through each component (C)

What does the article use the term 'component' to refer to?

A two-terminal 'object' that participates in series/parallel networks (C)

In a series connection of components, what can be said about the voltage across each component?

The voltage across each component is the same (B)

What is the relationship between the electric current through each component in a series connection?

The current through each component is the same (A)

In a parallel connection of components, what can be said about the voltage across each component?

The voltage across each component is the same (A)

What is the relationship between the electric current through each component in a parallel connection?

The current through each component is different (D)

In a series connection, what can be said about the total resistance of the network?

The total resistance is the sum of the resistances of each component (A)