The correct option is
B No
Let’s try to apply Kirchhoff’s loop law to the middle loop. First let’s name the junctions.
Have named them A, B, C, D as you can see. Let’s pick a junction and move around in a loop say ABCDA (remember
ΔV=ir) On moving from A to B, as we move in the direction of current the potential decreases so it’s
[−I3×3000] (following the convention where decrease in potential is negative and rise is positive)
On moving from B to C, as we move in the direction of current again the potential decreases
so it’s
[−I4×4000] On moving from C to D, as we move in the direction of current the potential should decrease but since R there is zero so the potential difference is also zero. So it’s
[−I3×0]=0.
On moving from D to A, as we move opposite to the direction of current the potential increases
so it’s
[+I2×6000] So the equation becomes −I3×3000−I4×4000+0+I2×6000=0 which is not same as the equation given in question ( check once!)
So it’s not correct!