6. Modify your experiment circuit so that it appears as shown in Figure 3.2. One logic input will come from SW1. The other logic input will be a 1Hz clock (CLK) signal from the FUNCTION GENERATOR. You will monitor the gate output with LED DISPLAY L1 and the clock output on LED DISPLAY L2. + 5V 1K SW1 CLK LED INDICATOR (1H2) L2

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6. Modify your experiment circuit so that it appears as shown in Figure 3.2. One logic input will come from SW1. The other logic input will be a 1Hz clock (CLK) signal from the FUNCTION GENERATOR. You will monitor the gate output with LED DISPLAY L1 and the clock output on LED DISPLAY L2. + 5V 1K SW1 CLK LED INDICATOR (1Hz) Figure 3.2 7. Set SW1 to Binary 0 (down). Note the output on L1. Then set SW1 to binary 1(up). Again note the output on L1. Explain your result, SW1 = 0; Output C = SW1 = 1; Output C = What logic function does this gate performing? 12 V 10 k Ohm IN4001 SW1 OUTPUT INPUTS IN4001 sw2 Figure 3.3 8. Construct the logic gate shown in Figure 3.3. (note for the -12V supply and the 10K resistor). Again, DATA SWITCH SW1 and SW2 will supply the logic input D and E, and you will measure the output voltage at F with a voltmeter.