• • • I want to someone who can do this project for me. This Includes the powerpoint, the design, the report Project Overview: Objective: Students will explain, design, and demonstrate the workings of a full adder circuit, including its logic diagram, truth table, Boolean expression, and physical or simulated circuit implementation. Materials Provided (all the materials is present in the free simulation: TinkerCad.Com ⚫ Integrated Circuits (ICs) ⚫ Breadboards ⚫ LEDS • Energy source ⚫ Jumper wires · Resistors • • Computer with internet access for simulation • Access to a free circuit simulation software (Tinkercad ) • Instructions: 1. Research and Explanation: • Students must start by researching what a full adder is and how it works, focusing on its role in binary arithmetic. · They should prepare a brief report explaining the concept of a full adder, its importance, and its applications. 2. Design: ⚫ Draw the logic diagram of a full adder, showing how it combines two one-bit numbers and a carry from a previous addition. • Create a truth table that lists all possible inputs (A, B, and Cin) and • Derive the Boolean expression for the Sum and Carry outputs. 3. Implementation: Design the full adder circuit using a free simulation tool (e.g., Tinkercad Circuits) for those not working on a physical circuit. 4. Presentation: • Students will present their full adder design, explaining the logic diagram, truth table, Boolean expressions, and how the circuit performs binary addition. • Demonstrate the functioning of the simulated circuit, highlighting how the Sum and Carry are represented. Suggested Free Simulation Tools: · Tinkercad Circuits: A user-friendly platform that allows students to • • EasyEDA: Another powerful, web- based tool for electronic circuit design and simulation. It supports both analog and digital simulations and offers a rich set of features, making it suitable for more advanced projects (EasyEDA). ⚫ CircuitLab: Offers in-browser tools for schematic capture and circuit simulation, allowing for the design and analysis of analog and digital systems before physical implementation. It's known for its precision and professional-grade outputs (CircuitLab). I would suggest for the students to Use TinkerCad.com platform because it is simple. If the student decide to go with another platform, • Activity Rubric (Total Grade: 100 points) The activity will be graded based on the following criteria: 1. Research and Explanation (20 points): Understanding of full adders, their purpose in binary arithmetic, and detailed explanation. Student will turn in a report and the citation page. • Exceptional (20): Comprehensive and clear explanation with examples. · Adequate (15): Good explanation with minor omissions. Basic (10): General explanation, lacks depth. • Poor (5): Minimal effort, significant inaccuracies. 2. Design Documentation (20 points): Accuracy and completeness of logic