ttiger2k7
Feb27-08, 01:07 AM
1. The problem statement, all variables and given/known data
http://img266.imageshack.us/img266/4120/kirchoffho1.gif
In the circuit, I_1 = 1.6 A. Find the value of: (a) the current I_2 and (b) the current I_4.
2. Relevant equations
Junction Rule, Loop Rule, V=IR
3. The attempt at a solution
Small loop, top left:
2V + (2ohms)(I_2) - (4ohms)(1.6 A) = 0
(2 ohms)(I_2) - (6.4) = -2
2 ohms * I_2 = 4.4
I_2 = 2.2 A
That also means that the current in the entire circuit is 4.4 Amps.
...Right?
That is as far as I got. Assuming my answer for I_2 is correct, all I have to do is find I_4, which I am stumped on how to do. Should I combine the two resistors on the top left, since they're in series?
1. The problem statement, all variables and given/known data
2. Relevant equations
3. The attempt at a solution
http://img266.imageshack.us/img266/4120/kirchoffho1.gif
In the circuit, I_1 = 1.6 A. Find the value of: (a) the current I_2 and (b) the current I_4.
2. Relevant equations
Junction Rule, Loop Rule, V=IR
3. The attempt at a solution
Small loop, top left:
2V + (2ohms)(I_2) - (4ohms)(1.6 A) = 0
(2 ohms)(I_2) - (6.4) = -2
2 ohms * I_2 = 4.4
I_2 = 2.2 A
That also means that the current in the entire circuit is 4.4 Amps.
...Right?
That is as far as I got. Assuming my answer for I_2 is correct, all I have to do is find I_4, which I am stumped on how to do. Should I combine the two resistors on the top left, since they're in series?
1. The problem statement, all variables and given/known data
2. Relevant equations
3. The attempt at a solution