Answer:
1.Current
Series Connection:
In a series circuit, all components are connected end-to-end forming a single path for current flow.
Parallel Connection:
In a parallel circuit all components are connected across each othern forming exactly two sets of electrically.
2.Voltage
Series Connection:
Voltage applied to a series circuit is equal to the sum of the individual voltage drops.
Parallel Connection:
A parallel circuit has two or more paths for current to flow through Voltage is the same across each component.
3.Resistance
Series Connection:
In a series circuit the sum of the voltages consumed by each individual resistance is equal to the source voltage.
Parallel Connection:
Components connected in parallel are connected along multiple paths so that the current can split up.
4.Pathway of flow of electric current
Series Connection:
In a series circuit all components are connected end-to-end forming a single path for current flow.
Parallel Connection:
In a parallel circuit all components are connected across each other forming exactly two sets.
5.Brigthness of Bulbs
Series Connection:
Increasing the number of bulbs in a series circuit decreases the brightness of the bulbs.
Parallel Connection:
Bulbs in parallel are brighter than bulbs in series In a parallel circuit
6.If breaks occur in a circuit
Series Connection:
If one bulb burns out in a series circuit, the entire circuit is broken.
Parallel Connection:
In parallel circuits each light bulb has its own circuit so all but one light could be burned out.
7.Battery Status
Series Connection:
Batteries achieve the desired operating voltage by connecting several cells in each cell.
Parallel Connection:
Parallel connection attains higher capacity by adding up the total ampere-hour.
8.Applications
Series Connection:
While series connection is an all or none parallel circuit connection gives you the opportunity.
Parallel Connection:
Parallel connection offers resistance to the flow of current compared to series connection.
Explanatio
