derive the equation when three resistors r1 r2 and r3 are connected in [1]series [2] paralell
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1)Series Connection
Derivation:
Let there be 3 resistance R1, R2, and R3 connected in series. A battery of V volts has been applied to the ends of this series combination. Now suppose the potential difference across the resistance R1 is V1, R2 is V2 and R3 is V3.
∴ V= V1+V2+V3 ...(1)
Now, suppose the total resistance of the combination be R, and the current flowing through the whole circuit be I.
So, applying Ohm's law to the whole circuit, we get :
V/I = R or V=IR ...(2)
∵ The same current is flowing through all three resistances, so by applying Ohm's law to three of them seperately, we will get
V1 = IR1
V2= IR2 and
V3= IR3 ... (3)
Now, putting (3) and (2) in equation (1), we get
IR = IR1 + IR2 + IR3
i.e IR = I ( R1 + R2 + R3 )
⇒ R = R1 + R2 + R3
Hence its derived
2) Parallel Connection
we show 3 resistors connected 'in parallel' with one another. In this case, the current flowing into P is divided among the 3 resistors
i = i1 + i2 + i3
However, the potential difference across any resistors is the same, namely
i1 R1 = i2 R2 = 13 R3
These equations can be thought of as determining the currents i1, i2, i3.
Substituting, We have
i = ( V/R1 + V/R2 + V/R3 ) = V / R
or
1/R1 + 1/R2 + 1/R3 = 1 / R.
Similarly, For n number of resistors connected in parallel,
The Total Equivalent resistance = 1/R1 + 1/ R2 +.......+ 1/Rn = 1 / R.
Hope this helps U ✌✌✌✌✌✌✌✌
♣♣♣ Here's Ur Answer ♣♣♣♣
1)Series Connection
Derivation:
Let there be 3 resistance R1, R2, and R3 connected in series. A battery of V volts has been applied to the ends of this series combination. Now suppose the potential difference across the resistance R1 is V1, R2 is V2 and R3 is V3.
∴ V= V1+V2+V3 ...(1)
Now, suppose the total resistance of the combination be R, and the current flowing through the whole circuit be I.
So, applying Ohm's law to the whole circuit, we get :
V/I = R or V=IR ...(2)
∵ The same current is flowing through all three resistances, so by applying Ohm's law to three of them seperately, we will get
V1 = IR1
V2= IR2 and
V3= IR3 ... (3)
Now, putting (3) and (2) in equation (1), we get
IR = IR1 + IR2 + IR3
i.e IR = I ( R1 + R2 + R3 )
⇒ R = R1 + R2 + R3
Hence its derived
2) Parallel Connection
we show 3 resistors connected 'in parallel' with one another. In this case, the current flowing into P is divided among the 3 resistors
i = i1 + i2 + i3
However, the potential difference across any resistors is the same, namely
i1 R1 = i2 R2 = 13 R3
These equations can be thought of as determining the currents i1, i2, i3.
Substituting, We have
i = ( V/R1 + V/R2 + V/R3 ) = V / R
or
1/R1 + 1/R2 + 1/R3 = 1 / R.
Similarly, For n number of resistors connected in parallel,
The Total Equivalent resistance = 1/R1 + 1/ R2 +.......+ 1/Rn = 1 / R.
Hope this helps U ✌✌✌✌✌✌✌✌
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