1. Draw your own visualization of the waveform(s) using the following information. each) a. Waveform A has a determined frequency wherein its one cycle is completed within 0.100 seconds. The waveform is defined as V=28.5sin(62.831) volts. Compute the VEMS. Vave. Vpp. b. Waveform B has a determined frequency wherein its one cycle is completed within 0.100 seconds but only oscillates using a half-bridge set-up at negative half cycle. The waveform is defined as V-15sin(62.831) volts. Compute the Vews. Vore, Vpp- c. Waveform C has a determined frequency wherein its one cycle is completed within 0.100 seconds but only oscillates using a full-bridge set-up at every positive half-cycle. This waveform produces a Voc output of varying 14.5V to 16V.

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ANALYZE the question very carefully. SOLVE for the different parameters and DRAW the corresponding OUTPUT WAVEFORMS. Label each waveform. * 1. Draw your own visualization of the waveform(s) using the following information. each) a. Waveform A has a determined frequency wherein its one cycle is completed within 0.100 seconds. The waveform is defined as V=28.5sin(62.83t) volts. Compute the VRMS, Vave, Vpp. b. Waveform B has a determined frequency wherein its one cycle is completed within 0.100 seconds but only oscilates using a half-bridge set-up at negative half cycle. The waveform is defined as V=15sin(62.831) volts. Compute the VRMs. Vave, Vpp. c. Waveform C has a determined frequency wherein its one cycle is completed within 0.100 seconds but only oscillates using a full-bridge set-up at every positive half-cycle. This waveform produces a Voc output of varying 14.5V to 16v.