I'm a bit confused about using kvlKVL on circuits. For e.g.example, suppose I have this circuit, and we are given the direction of inductors current and capacitors current, and we have to find VA. Using the convention, I got the following:
The solution is that VA is negative, so this is right.
But if I change the polarity of VA and solve according, I get:
VA isn't positive as indicated in the solution, but I'm getting positive. Am
Am I doing something wrong?
I'm a bit confused about using kvl on circuits. For e.g. suppose I have this circuit, and we are given the direction of inductors current and capacitors current, and we have to find VA. Using the convention, I got the following:
The solution is that VA is negative, so this is right.
But if I change the polarity of VA and solve according, I get:
VA isn't positive as indicated in the solution, but I'm getting positive. Am I doing something wrong?
I'm a bit confused about using KVL on circuits. For example, suppose I have this circuit, and we are given the direction of inductors current and capacitors current, and we have to find VA. Using the convention, I got the following:
The solution is that VA is negative, so this is right.
But if I change the polarity of VA and solve according, I get:
VA isn't positive as indicated in the solution, but I'm getting positive.
Am I doing something wrong?
ImI'm a bit confused about using kvl on circuits.For eg For e.g. suppose I have this circuit, and we are given the direction of inductors current and capacitors current, and we have to find VA. Using the convention, I got the following:
The solution is that VA is negative, so this is right.
But if I change the polarity of VA and solve according, I get:
VA isntisn't positive as indicated in the solution, but ImI'm getting positive. Am I doing something wrong?
Im a bit confused about using kvl on circuits.For eg suppose I have this circuit and we are given the direction of inductors current and capacitors current and we have to find VA. Using the convention I got the following:
The solution is that VA is negative so this is right.
But if I change the polarity of VA and solve according I get:
VA isnt positive as indicated in the solution but Im getting positive. Am I doing something wrong?
I'm a bit confused about using kvl on circuits. For e.g. suppose I have this circuit, and we are given the direction of inductors current and capacitors current, and we have to find VA. Using the convention, I got the following:
The solution is that VA is negative, so this is right.
But if I change the polarity of VA and solve according, I get:
VA isn't positive as indicated in the solution, but I'm getting positive. Am I doing something wrong?
Im a bit confused about using kvl on circuits.For eg suppose I have this circuit and we are given the direction of inductors current and capacitors current and we have to find VA. Using the convention I got the following:
The solution is that VA is negative so this is right.
But if I change the polarity of VA and solve according I get:
VA isnt positive as indicated in the solution but Im getting positive. Am I doing something wrong?
