Answer:
[tex]V = 120 \sqrt {2} sin (120 \pi t)[/tex]
Explanation:
We start from the ideal conditions previously given, as well
[tex]V_ {rms} = 120V[/tex]
[tex]f = 60Hz[/tex]
We understand that the formula for Maximum Voltage is given by,
[tex]V_ {max} = \sqrt {2} V_ {rms}[/tex]
In turn, we can take the expression given for the Instantaneous Voltage, which is defined as,
[tex]V = \sqrt {2} V_ {rms} sin (2 \pi f t)[/tex]
Replacing all expressions in one,
[tex]V = 120 \sqrt {2} Vsin (2 \pi (60Hz) t)[/tex]
[tex]V = 120 \sqrt {2} V sin ((120 \pi rad / s) t)[/tex]
Eliminating units for better reading
[tex]V = 120 \sqrt {2} sin (120 \pi t)[/tex]
