. Three components are connected in parallel. The first component is a 5- ohm resistor, the second component is an inductor with 200mH inductance and the third component has a capacitance of 80 microfarad. If the parallel combination is connected to a source with e=240 sin (400t+30), find the equations of the current flowing on each component. 7. Determine the inductive and capacitive reactance of the second and third component if the parallel combination in problem no. 6 is now connected to 300 volts, 25 Hz source.
. Three components are connected in parallel. The first component is a 5- ohm resistor, the second component is an inductor with 200mH inductance and the third component has a capacitance of 80 microfarad. If the parallel combination is connected to a source with e=240 sin (400t+30), find the equations of the current flowing on each component. 7. Determine the inductive and capacitive reactance of the second and third component if the parallel combination in problem no. 6 is now connected to 300 volts, 25 Hz source.
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6. Three components are connected in parallel. The first component is a 5- ohm resistor, the second component is an inductor with 200mH
inductance and the third component has a capacitance of 80 microfarad. If the parallel combination is connected to a source with e=240 sin (400t+30), find the equations of the current flowing on each component.
7. Determine the inductive and capacitive reactance of the second and third component if the parallel combination in problem no. 6 is now
connected to 300 volts, 25 Hz source.
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