2) For the given waveforms determine the output Q and name the reasons for it. assume that the Flip-Flop is initially at Set and respond to a positive edge. CLK 3) Repeat the above question 2 for negative edge.

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### Educational Content on Flip-Flop Waveforms #### Problem Statement **2) For the given waveforms, determine the output Q and name the reasons for it. Assume that the Flip-Flop is initially at Set and responds to a positive edge.** #### Diagram Explanation The diagram features two waveforms: - **CLK (Clock Signal):** This waveform oscillates between high and low states. - **D (Data Input):** This waveform also alternates between high and low levels, although its pattern is different from the Clock Signal. Both waveforms align horizontally, indicating time progression from left to right. #### Task Determine how the output Q of a flip-flop would behave given these waveforms, assuming: - The flip-flop is a positive edge-triggered D flip-flop. - It responds when the clock signal (CLK) transitions from low to high (positive edge). --- **3) Repeat the above question 2 for a negative edge.** In this scenario, analyze the output Q if the flip-flop responds to negative edges, where the clock signal (CLK) transitions from high to low. --- This educational resource aims to practice understanding of digital circuits and timing analysis, specifically involving edge-triggered flip-flops.