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The expression displayed is a Boolean algebra equation: \[ Y = \overline{A} + \overline{B} + C + \overline{DE} \] **Explanation of Terms:** - \( \overline{A} \): The NOT operation is applied to variable \( A \), indicating its complement. - \( \overline{B} \): The NOT operation is applied to variable \( B \), indicating its complement. - \( C \): The variable \( C \) appears as is. - \( \overline{DE} \): This term represents the complement of the AND operation between \( D \) and \( E \). The equation uses the OR operation (represented by \( + \)) to combine these terms. This expression may represent a logic gate function or circuit output where each term reflects a different logic operation.

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**Design Transistor-Level Circuits** Design transistor-level circuits for each of the following functions. Use a minimum number of transistors. **Hint:** Remember that the inputs are the true forms of the variables (i.e., A, B, C, etc.). To get the complement form (i.e., A', the inverse of A), you need to add an inverter to your design. Write the number of transistors you used for each design and circle it.