Recent content by anol1258

How can i do this laplace. Its killin me

yeah I messed up should be:

I did Cramer's rule. I thought it would work for this problem, maybe not. Here's cramers rule:

or reactance is 0?

real and imaginary must be equal?

Ok I understand why the input voltage has to be > 1V. So how should I start this out? Can I connect the two grounds and do a loop equation?

Thank you gneill I'm having a hard time putting my current in laplace form so that I can do some inverse laplace on it. Here is the equation for the current:

But there isn't another node on the very bottom right part of the circuit. From looking at the diagram are you sure they are asking Vout across R2?

Ok. Once I find I2 though how can I solve for Vout. This isn't a simple case where I can use Ohm's Law with the R2.

Homework Statement Consider the following circuit which uses ideal components. Prior to t=0 switch S is open. Then suddenly at t=0 switch S is closed. Find the impedance Z_{2} such that the system output is a unit step function of voltage. Be certain to show all components used to construct...

whoa whoa whoa guys I'm still stumped on how I can do KCL on this. I'm a mechanical engineer not EE.

Is this correct now? Would I now put these equations in matrix form and solve for either I1 or I2?

It doesn't mention any loading of the secondary. He does give us the values of L1,L2, and M though. Yeah my professor said this was a pretty straightforward problem. Thanks for your contribution. I will work on what you have provided :)

Here is what I have so far: KVL on primary side and secondary side I am doing this right?

I know when you differentiate you multiply by s, and when you integrate you divide by s in the frequency domain.