Solving for R & XL Given Z & Phase Angle

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To find the resistance (R) and inductive reactance (XL) in a series circuit with a resistor and inductor, given the impedance (Z) of 350 ohms and a phase angle of 60 degrees, the relationship tan(φ) = XL/R can be used. Since there is no capacitor in the circuit, the impedance expression simplifies to Z^2 = R^2 + XL^2. Constructing a phasor diagram can aid in visualizing the relationship between voltage and current, making it easier to solve for the unknowns. The discussion emphasizes that understanding the phase relationships is crucial for solving such problems. Using phasors can significantly simplify the analysis of circuits involving reactive components.
smunger81
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Here's a tricky one...
A resistor is in series with an inductor, with the current (I) lagging behind the voltage (V) by 60degrees. I am given the impedance (Z) of the circuit, which is 350ohms. How the heck can I find the resistance (R) and the inductive reactance (XL) when I know only the impedance and the phase angle.

XL=2pifL
Z=sq.root(R^2+(XL-XC)^2

What equation would I use...since I don't know f, L, or C?

Thanks! :smile:
 
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Well you don't have a capacitor in your circuit to start off with so you don't actually need to know it, nor does it appear in the impedance expression. It usually helps to construct phasor diagrams in this situation. If you construct a phasor diagram you can see that the phase angle \phi between the current and voltage is related by the expression:

tan(\phi) = X_L/R

From this you can express X_L in terms of R or R in terms of X_L and then solve the original impedance expression of:

Z^2 = R^2 +X_L^2
 
I knew that about the capacitor...I was unaware you could manipulate the impedance expression like that but it makes sense since there is no capacitor! Thank you so much for your help...so much.
 
Yeah the only reason it is X_L-X_C for the impedance in an RLC series circuit is because the voltage across the inductor leads the current by 90 degrees while the voltage across the capacitor lags the current by 90 degrees.
But phasors sometimes help to make these questions a lot easier.
 
Do you mean drawing a phasor diagram makes it easier? Could you explain that last statement a little more if you get time...thanks.
 
Sorry yeah, what I meant was that for problems like that one it's easier to see how to answer a question if you use phasors. I've attached what I mean.
 

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