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suryakalpo
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1. The problem statement:
A leaky capacitor, Zc =74.5 ohm is in series with a coil Z coil = 40 ohm and a resistor R=50 ohm. When a voltage V=200V is applied I=2.5A and the p.d across R and Z coil is combined is 194V. Find the loss in the capacitor.
Z=(R^2 + (XL - XC)^2)^0.5
I have used the impedence eqn for the coil and obtained the inductance and resistance of the coil as r=19.22 ohm and XL = 35.08 ohm
Then I applied the impedence eqn to the entire ckt and obtained the value of Xc = 75.19 ohm.
Now, a leaky capacitor can be represented by a non-leaky capacitor in parallel with a resistance (i hope its right!). But on equating both these capacitive impedences I'm getting an imaginary value of resistance.
I can't figure out where exactly have i gone wrong...if its the theory of the leaky capacitor or mi calculations..please suggest something
A leaky capacitor, Zc =74.5 ohm is in series with a coil Z coil = 40 ohm and a resistor R=50 ohm. When a voltage V=200V is applied I=2.5A and the p.d across R and Z coil is combined is 194V. Find the loss in the capacitor.
Homework Equations
Z=(R^2 + (XL - XC)^2)^0.5
The Attempt at a Solution
I have used the impedence eqn for the coil and obtained the inductance and resistance of the coil as r=19.22 ohm and XL = 35.08 ohm
Then I applied the impedence eqn to the entire ckt and obtained the value of Xc = 75.19 ohm.
Now, a leaky capacitor can be represented by a non-leaky capacitor in parallel with a resistance (i hope its right!). But on equating both these capacitive impedences I'm getting an imaginary value of resistance.
I can't figure out where exactly have i gone wrong...if its the theory of the leaky capacitor or mi calculations..please suggest something
