91Ó°ÊÓ

Determine the AC peak and RMS voltages, DC offset, frequency, period and phase shift for the following expression: \(v(t)=10 \sin 2 \pi 1000 t\).

Determine the AC peak and RMS voltages, DC offset, frequency, period and phase shift for the following expression: \(v(t)=0.4 \sin 2 \pi 5000 t\).

Determine the peak AC portion voltage, DC offset, frequency, period and phase shift for the following expression: \(v(t)=-3+20 \sin 2 \pi 50 t\).

Determine the peak AC portion voltage, DC offset, frequency, period and phase shift for the following expression: \(v(t)=12+2 \sin 2 \pi 20000 t\).

Determine the AC peak and RMS voltages, DC offset, frequency, period and phase shift for the following expression: \(v(t)=10 \sin \left(2 \pi 100 t+45^{\circ}\right)\).

Determine the AC peak and RMS voltages, DC offset, frequency, period and phase shift for the following expression: v(t) = 5 sin (2? 1000 t ? 90°)

Determine the peak AC portion voltage, DC offset, frequency, period and phase shift for the following expression: v(t) = 10 + 1 sin (2? 400 t ? 45°)

Determine the peak AC portion voltage, DC offset, frequency, period and phase shift for the following expression: \(v(t)=10+10 \sin \left(2 \pi 5000 t+30^{\circ}\right)\).

Determine the peak AC portion voltage, DC offset, frequency, period and phase shift for the following expression: \(v(t)=10+10 \sin \left(2 \pi 5000 t+30^{\circ}\right)\).

A 2 kHz sine wave has a phase of \(18^{\circ}\). Determine the time delay. Repeat for a 100 kHz sine wave.