For the input waveforms in Figure 7-40, show the flip-flop's Q waveform. Q is initially 0. PRE PRE J C K K CLR CLR FIGURE 7-40

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**Transcription for Educational Website** --- For the input waveforms in Figure 7-40, show the flip-flop’s Q waveform. Q is initially 0. **Figure 7-40 Explanation:** The diagram illustrates a series of input waveforms and a JK flip-flop configuration. The waveforms, labeled from top to bottom, are: 1. **PRE (Preset)** 2. **J (input)** 3. **C (Clock)** 4. **K (input)** 5. **CLR (Clear)** **Flip-Flop Diagram:** On the right side, there is a rectangular symbol representing the JK flip-flop. It includes the following connections: - **PRE (Preset):** Connected at the top-left. - **J:** Connected to the left middle. - **C (Clock):** Connected to the left center, with the arrow indicating clock pulse input. - **K:** Connected to the left lower part. - **CLR (Clear):** Connected at the bottom-left. - **Q and Q̅ (complement):** Outputs on the right side. **Waveform Analysis:** - The waveforms are aligned in time with vertical dashed lines at each transition. - **PRE**: Alternates between high and low states. - **J and K Inputs**: Show specific transitions that affect the flip-flop's output according to the clock pulses. - **C (Clock)**: Regular pulses that define the timing for the flip-flop operations. - **CLR**: Used for resetting the flip-flop, transitions to low reset the Q output to 0. Understanding how each input interacts (J, K, PRE, CLR) uniquely requires applying the JK flip-flop truth tables to determine the resulting Q waveform. Given Q initially at 0, the waveform transitions depend on timing and interactions of the inputs per clock cycle as outlined by logic tables for JK flip-flops.