A. if you were going to implement your solution in problem 6) using quad 2 input AND gates (74LS08) and quad 2 input OR gates (74LS32) and hex inverters (741504) (hex means there are 6 in the IC, Quad means there are 4 in the IC) how many of each would it take? What is the total number of 74L500 series ICs required? 9) B. if you were going to implement your solution in problem 8) using quad 2 input NAND gates (74LS00) and hex inverters (74LS04) (hex means there are 6 in the IC, Quad means there are 4 in the IC) how many of each would it take? What is the total number of 74LS00 series iCs required? C. If in B. above you were going to use NAND gates with the inputs tied together instead of inverters how many NAND gates would that require and how many 74LS00 integrated circuits would be required. What is the total number of 74LS00 series ICs required? 10) A. of A, B, C which do you think is the best. Consider number of integrated circuits needed, length of wire runs, complexity of the resulting circuit, complexity of your order for materials... in your answer. B. Suggest another solution that is better than the ones described, and why is it better? A. if you were going to implement your solution in problem 6) using quad 2 input AND gates (74LS08) and quad 2 input OR gates (74LS32) and hex inverters (741504) (hex means there are 6 in the IC, Quad means there are 4 in the IC) how many of each would it take? What is the total number of 74L500 series ICs required? 9) B. if you were going to implement your solution in problem 8) using quad 2 input NAND gates (74LS00) and hex inverters (74LS04) (hex means there are 6 in the IC, Quad means there are 4 in the IC) how many of each would it take? What is the total number of 74LS00 series iCs required? C. If in B. above you were going to use NAND gates with the inputs tied together instead of inverters how many NAND gates would that require and how many 74LS00 integrated circuits would be required. What is the total number of 74LS00 series ICs required? 10) A. of A, B, C which do you think is the best. Consider number of integrated circuits needed, length of wire runs, complexity of the resulting circuit, complexity of your order for materials... in your answer. B. Suggest another solution that is better than the ones described, and why is it better