(TCO 3) For the figure below, if XFG1 is 1 volt DC, find V(pin2), I(R1),

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(TCO 3) For the figure below, if XFG1 is 1 volt DC, find V(pin2), I(R1), and

V(output).

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Capture2.PNG

Capture2.PNG

 
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Find the length in meters of a resonant half-wave dipole antenna at 16 MHz

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1.        Find the length in meters of a resonant half-wave dipole antenna at 16 MHz.

This is

the full question, and I need help with it please.

 
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I have a parallel circuit with a 10 Ω resistor in series with a 1mH inductor in one branch and a .1uF capacitor in the other.

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trying to understand how to analyze an RLC circuit using Laplace transforms. Please help???

I

have a parallel circuit with a 10 Ω resistor in series with a 1mH inductor in one branch and a .1uF capacitor in the other. I am required to calculate total impedance Z(s) using Laplace Transforms. The professor has given me the answer of Z(s)=10^7 ((s+10^4)/(s^2+10000s+10^10)), but I don’t understand how he got there. How do I arrive at that solution?

 
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I have a circuit with a 10Ω resistor that separates into a parallel circuit after the resistor

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I have a circuit with a 10Ω resistor that separates into a parallel circuit after the resistor. In one branch is

a 1mH inductor and in the other is a .1uF capacitor. What is the total inductance of the circuit expressed in Laplace domain as a ratio of two polynomials in s, with the coefficients of the highest power.

 
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