The numerical value of the ratio of inst...

The numerical value of the ratio of instantaneous velocity to instantaneous speed is.

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we found the amplitude of the current and voltages. Now we have to find the expressions for the instantaneous values of the current and voltages. As we learned, the voltage across a resistor is in phases with the current but the voltages across an inductor or capacitor are not. We also learned in this section that `phi` is the phase angle between the source voltage and the current.
The current and all the voltage oscillate with the same angular frequency.
Let us choose
`E=E_(0)sin omega t implies E=50 sin(10,000 t)`
then `I_I_(0) sin (10,000 t+ phi)`,
where `phi= -53^(@)=-(53xxpi)/(180) rad = -0.93 rad`
`implies I=0.10 sin (10,000 t-0.93)`
Current and voltage are in phase in resistor so
`V_(R)=V_(R0) sin (10,000t-0.93)=30 sin(10,000 t-0.93)`
In inductor voltage voltage leads current by `pi//2` so ,
`V_(L)=V_(L0) sin [10,000t-0.93+(pi//2)]=60 cos(10,000 t-0.93)`
In capcitor voltage lags currents lags currents by `(pi//2)` so
`V_(C)=V_(C0) sin[10,000t-0.93+(pi//2)]`
`=-20 cos (10,000t-0.93)`.

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