what does the Kirchhoff's second law states?
Answers
Answer:
Kirchhoff's Second Law states that the “net electromotive force around a closed circuit loop is equal to the sum of potential drops around the loop”. Itis termed as Kirchhoff's Loop Rulewhich is an outcome of an electrostatic field which isconservative. Consider one point on a closed loop in an electrical circuit.
Answer:
Kirchhoff’s Second Law states that the “net electromotive force around a closed circuit loop is equal to the sum of potential drops around the loop”. It is termed as Kirchhoff’s Loop Rule which is an outcome of an electrostatic field which is conservative.
∑V=0 The below figure illustrates that the total voltage around a closed loop must be zero.
Kirchoff's Second Law
This law manages the voltage drops at different branches in an electrical circuit. Consider one point on a closed loop in an electrical circuit. If somebody goes to another point in a similar ring, he or she will find that the potential at that second aspect might be not quite the same as the first point.
On the off chance that he or she keeps on setting off to some unique point on the loop and he or she may locate some extraordinary potential in that new area. If he or she goes on further along that closed loop, eventually he or she achieves the underlying point from where the voyage was begun.
That implies, he or she returns to a similar potential point in the wake of the intersection through various voltage levels. It can be then again said that the gain in electrical energy by the charge is equal to corresponding losses in energy through resistances.
Explanation:
The first and foremost step is to draw a closed loop to a circuit. Once done with it draw the direction of the flow of current.
By using Kirchhoff’s First Law
At B and A
I1+I2=I3
By making use of above convention and Kirchoff’s Second Law
From Loop 1 we have :
10=R1∗I1+R3∗I3
=10I1+40I3
1=I1+4I3
From Loop 2 we have :
20=R2∗I2+R3∗I3
20I2+40I3
1=I2+2I3
From Loop 3 we have :
10−20=10I1−20I2
1=−I1+2I2
By making use of Kirchhoff’s First law I1+I2=I3
Equation reduces as follows (from Loop 1 ) :
1=5I1+4I2
Equation reduces as follows ( from Loop 2 ) :
1=2I1+3I2
This results in the following Equation:
I1=−13I2
From last three equations we get,
1=13I2+2I2
I2=0.429A
I1=0.143A
I3=0.286A