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Multipurpose agricultural robots are becoming increasingly important in modern farming due to labor shortages and the need for improved efficiency and productivity. Traditional farming methods require significant manual effort and time, which can be reduced through automation. This project focuses on the design and implementation of a multipurpose agriculture robot capable of performing six essential farming operations: spraying, digging, cultivating, seeding, solar charging, and grass cutting. The robot is designed to operate efficiently in various agricultural conditions while minimizing human intervention. The system integrates multiple mechanisms and control units to perform different tasks using a single platform and utilizes electric motors, sensors, and control circuits to switch between operations effectively. Solar charging is incorporated to provide a sustainable and energy-efficient power source, enabling longer operation time in the field. The robot enhances precision in farming activities such as uniform seed distribution, controlled pesticide spraying, and efficient soil preparation. Additionally, the robot improves overall farm productivity by reducing labor costs and increasing operational speed. The multipurpose functionality eliminates the need for multiple machines, making it cost-effective for farmers. The system aims to support smart agriculture practices and promote the adoption of modern technology in farming