In parallel connection all the positive terminals are connected with positive of the source and all the negative terminals are connected to negative of the source.
Whereas in series connection one positive terminal is connected to the negative of another, like wise it goes on and finally the positive end is connected to the negative of the source.
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In series connection, components are connected end to end in a single path, so the same current flows through each component. In parallel connection, components are connected across multiple paths, so the voltage across each component is the same but the current can be different in each path.
In a series connection, the current flows through each component in a single path, while in a parallel connection, the current splits and flows through multiple paths.
In a series connection, components are connected end to end, creating one path for current flow. In a parallel connection, components are connected side by side, creating multiple paths for current flow. As a result, the voltage is the same across components in a series connection, while the current is the same across components in a parallel connection.
In a parallel circuit, the components are connected in separate branches, allowing different amounts of current to flow through each branch. In a series circuit, the components are connected in a single path, forcing the same amount of current to flow through each component. This difference in current flow is a key distinction between parallel and series circuits.
A parallel series circuit is a combination of components where some components are connected in series, and parallel branches are connected in parallel across them. This configuration allows for different pathways for current flow and voltage drop. It is often used in more complex electrical circuits to achieve specific functionality.
that is called a perfect circuit