distinguish between series combination and parallel combination
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Electrical circuits are made up of both these kind of circuits but there is difference between series and parallel circuits. An electric circuits consists of many instruments attached to it such as resistors, diodes and switches which are positioned in a circuit structurally. And with these structure of placement there is a difference in output.

Difference Between Series and Parallel Circuits
The major difference is that the series circuit have the same amount of current flow through all the components placed in it. It got its name due to the components are placed in the same single path of the flow of current in electric circuit. On the other hand, in parallel circuits the components are placed in parallel with each other. This circuit splits the current flow. The current flowing from the source will be divided into the current flowing through each of this components.
Difference Between Series and Parallel Circuits
Series
Parallel
Same amount of current flows through all the components
The current flowing through each components combine to form the current flow through the source.
In an electrical circuit, components are arranged in a line
In an electrical circuit, components are arranged parallel with each other
When resistors are put in a circuit, the voltage across each resistor is different even though the current flow is same through all of them.
When resistors are put in this circuit, the voltage across each of the resistors is same. And even the polarities are same
If one component breaks down, the whole circuit will burn out.
Other components will function even if one components breaks down, each have their own independent circuit
If Vt it total voltage then it is equal to V1+V2+V3
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Electrical circuits are made up of both these kind of circuits but there is difference between series and parallel circuits. An electric circuits consists of many instruments attached to it such as resistors, diodes and switches which are positioned in a circuit structurally. And with these structure of placement there is a difference in output.

Difference Between Series and Parallel Circuits
The major difference is that the series circuit have the same amount of current flow through all the components placed in it. It got its name due to the components are placed in the same single path of the flow of current in electric circuit. On the other hand, in parallel circuits the components are placed in parallel with each other. This circuit splits the current flow. The current flowing from the source will be divided into the current flowing through each of this components.
Difference Between Series and Parallel Circuits
Series
Parallel
Same amount of current flows through all the components
The current flowing through each components combine to form the current flow through the source.
In an electrical circuit, components are arranged in a line
In an electrical circuit, components are arranged parallel with each other
When resistors are put in a circuit, the voltage across each resistor is different even though the current flow is same through all of them.
When resistors are put in this circuit, the voltage across each of the resistors is same. And even the polarities are same
If one component breaks down, the whole circuit will burn out.
Other components will function even if one components breaks down, each have their own independent circuit
If Vt it total voltage then it is equal to V1+V2+V3
MARK AS BRAINLIEST
THANX
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Many circuits can be simplified by combining two or more elements into a single equivalent element. The different elements have rules about the ways they combine when they are in series and when they are in parallel. This reference section will first describe what it means for two terminal elements to be connected in series and parallel, and then how these various elements combine.
Series
A two terminal element is in series with another two terminal element if there is a path from a terminal of one of the elements to a terminal of the other element that does not branch off at any point. The two elements cannot have both nodes in common (they would be in parallel then).
It is also important to note that order does not matter because of KCL (there must be the same current going through all of the elements in series because current cannot build up in any of the elements. This is useful for simplifying series connections where there are different types of elements.
Parallel
A two terminal element is in parallel with another two terminal element if they have common nodes for both of their terminals.
R1 and R2 are in parallel, R3 is not in parallel with the other two.
Combining elements
There are two basic ways that elements can combine, simple addition or addition of reciprocals. The first is an example of elements that combine by simple addition.
Req = 1 + 2 + 3 = 6
Req = 1 / (1/1 + 1/2 + 1/2) = 1/2
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Series
A two terminal element is in series with another two terminal element if there is a path from a terminal of one of the elements to a terminal of the other element that does not branch off at any point. The two elements cannot have both nodes in common (they would be in parallel then).
It is also important to note that order does not matter because of KCL (there must be the same current going through all of the elements in series because current cannot build up in any of the elements. This is useful for simplifying series connections where there are different types of elements.
Parallel
A two terminal element is in parallel with another two terminal element if they have common nodes for both of their terminals.
R1 and R2 are in parallel, R3 is not in parallel with the other two.
Combining elements
There are two basic ways that elements can combine, simple addition or addition of reciprocals. The first is an example of elements that combine by simple addition.
Req = 1 + 2 + 3 = 6
Req = 1 / (1/1 + 1/2 + 1/2) = 1/2
Please make me as brainliest
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