5- Identify each of the following gates and the input / output of each (A) (B) Do (C) (D) Da

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### 5. Identify Each of the Following Gates and the Input/Output of Each

In this section, various logic gate configurations are shown. Below are explanations for each configuration with corresponding inputs and outputs:

**Diagram (A):**
- **Description:** This diagram depicts an OR gate followed by a NOT gate.
- **Inputs:** Two inputs are fed into the OR gate.
- **Output:** The output of the OR gate is then inverted by the NOT gate, resulting in a NOR gate overall behavior.

**Diagram (B):**
- **Description:** This diagram shows two NOT gates with their outputs connected to an OR gate, followed by another NOT gate.
- **Inputs:** Two inputs are fed into the NOT gates.
- **Output:** Each NOT gate inverts its input before reaching the OR gate. The OR gate output is further inverted by a final NOT gate, effectively creating a NOR gate.

**Diagram (C):**
- **Description:** This diagram depicts a NOT gate connected to one of the inputs of an OR gate.
- **Inputs:** Two inputs; one input goes directly to the OR gate, while the other goes through the NOT gate.
- **Output:** The OR gate processes the inverted and direct inputs, providing a typical OR gate output.

**Diagram (D):**
- **Description:** This complex circuit includes an AND gate, an OR gate, and multiple NOT gates in an interconnected configuration.
- **Inputs:** Multiple inputs feed into the circuit, connecting through various gates.
- **Output:** The circuit's configuration results in a more complex logic function involving combinations of AND, OR, and NOT operations, with inversion steps altering the resulting outputs.

These diagrams are examples of basic logic gate combinations used in digital circuits.
Transcribed Image Text:### 5. Identify Each of the Following Gates and the Input/Output of Each In this section, various logic gate configurations are shown. Below are explanations for each configuration with corresponding inputs and outputs: **Diagram (A):** - **Description:** This diagram depicts an OR gate followed by a NOT gate. - **Inputs:** Two inputs are fed into the OR gate. - **Output:** The output of the OR gate is then inverted by the NOT gate, resulting in a NOR gate overall behavior. **Diagram (B):** - **Description:** This diagram shows two NOT gates with their outputs connected to an OR gate, followed by another NOT gate. - **Inputs:** Two inputs are fed into the NOT gates. - **Output:** Each NOT gate inverts its input before reaching the OR gate. The OR gate output is further inverted by a final NOT gate, effectively creating a NOR gate. **Diagram (C):** - **Description:** This diagram depicts a NOT gate connected to one of the inputs of an OR gate. - **Inputs:** Two inputs; one input goes directly to the OR gate, while the other goes through the NOT gate. - **Output:** The OR gate processes the inverted and direct inputs, providing a typical OR gate output. **Diagram (D):** - **Description:** This complex circuit includes an AND gate, an OR gate, and multiple NOT gates in an interconnected configuration. - **Inputs:** Multiple inputs feed into the circuit, connecting through various gates. - **Output:** The circuit's configuration results in a more complex logic function involving combinations of AND, OR, and NOT operations, with inversion steps altering the resulting outputs. These diagrams are examples of basic logic gate combinations used in digital circuits.
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