One thing that you may find a puzzle in these op-amps is once the current makes it to the output terminal, where does it go from there? The voltage at the output is determined by the current flow in the feedback resistor, but you can put in any "load" resistor you want, and the output voltage doesn't change. (Here your load resistor is infinite, but you could make it ## R_L=100 \, \Omega ## and you get the same output voltage.) For these op-amps, the current into the circuit doesn't look like it equates with what comes out of the circuit. And the answer is that any differences are taken up by what can be unequal flows of current on the ## \pm \, 12 \, volt ## bias lines. ## \\ ## (Incidentally, your ground connection is incorrect and belongs at the "+" input. The standard op-amp has 3 ports: two input pins (pins 2 and 3) and one output (pin 6). The output voltage gets referenced to the + input pin. The standard op-amp does not contain two output ports.)