2. If the given waveforms are the inputs of AND, OR, NOT, NOR, NAND, XOR and XNOR gates draw the output waveforms. Note: For the NOT gate use the top waveform ( Blue ) as input.

Introductory Circuit Analysis (13th Edition)
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**Logic Gates Waveform Analysis**

**Objective:**
Analyze the given waveforms and draw the output waveforms for different logic gates: AND, OR, NOT, NOR, NAND, XOR, and XNOR.

**Instructions:**
For the NOT gate, use the top waveform (Blue) as input.

**Graphs:**
The image includes two digital waveforms plotted on a time axis:

1. **Top Waveform (Blue):**
   - Represents one of the digital signal inputs.
   - The waveform transitions between high (1) and low (0) states.

2. **Bottom Waveform (Green):**
   - Represents another digital signal input.
   - The waveform also transitions between high (1) and low (0) states.

**Task:**
- Determine the output waveforms by applying each specified logic gate to the two given input waveforms.
- Note the behavior of each logic gate to produce the correct outputs.
- Pay special attention to how the NOT gate transforms the Blue waveform.

**Logic Gate Behavior Recap:**
- **AND Gate:** Outputs high only when both inputs are high.
- **OR Gate:** Outputs high when at least one input is high.
- **NOT Gate:** Inverts the input; if input is high, output is low, and vice versa.
- **NOR Gate:** Outputs high only when both inputs are low.
- **NAND Gate:** Outputs low only when both inputs are high.
- **XOR Gate:** Outputs high when inputs are different.
- **XNOR Gate:** Outputs high when inputs are the same.
Transcribed Image Text:**Logic Gates Waveform Analysis** **Objective:** Analyze the given waveforms and draw the output waveforms for different logic gates: AND, OR, NOT, NOR, NAND, XOR, and XNOR. **Instructions:** For the NOT gate, use the top waveform (Blue) as input. **Graphs:** The image includes two digital waveforms plotted on a time axis: 1. **Top Waveform (Blue):** - Represents one of the digital signal inputs. - The waveform transitions between high (1) and low (0) states. 2. **Bottom Waveform (Green):** - Represents another digital signal input. - The waveform also transitions between high (1) and low (0) states. **Task:** - Determine the output waveforms by applying each specified logic gate to the two given input waveforms. - Note the behavior of each logic gate to produce the correct outputs. - Pay special attention to how the NOT gate transforms the Blue waveform. **Logic Gate Behavior Recap:** - **AND Gate:** Outputs high only when both inputs are high. - **OR Gate:** Outputs high when at least one input is high. - **NOT Gate:** Inverts the input; if input is high, output is low, and vice versa. - **NOR Gate:** Outputs high only when both inputs are low. - **NAND Gate:** Outputs low only when both inputs are high. - **XOR Gate:** Outputs high when inputs are different. - **XNOR Gate:** Outputs high when inputs are the same.
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