Mainnet Deployment Preparation for Cascadia Carbon's Smart Contract

Cascadia Carbon is preparing to transition its smart contract from the Sepolia test network to the Ethereum mainnet. This project aims to ensure that the contract is fully optimized, secure, and ready for deployment. The learners will conduct a thorough review of the existing contract code, identify any potential vulnerabilities, and optimize the contract for gas efficiency. Additionally, they will simulate various scenarios to test the contract's functionality and robustness. The project provides an opportunity for learners to apply their knowledge of blockchain technology, smart contract development, and security auditing. By the end of the project, the team will have gained practical experience in preparing a smart contract for a real-world deployment. https://gist.github.com/jason-c-child/586ae62bca5bbb2c79b4c9bdf2dce35f Implement above code suggestions, and submit to https://giuthub.com/cascadiacarbon for review.

Decentralized Application for Carbon-Negative-Assets

The main goal for the project is to create a decentralized application that allows users to connect their metamask wallet, login using their wallet address, add a tree to their account, and receive an estimate on how much CODEX they can earn based on the information provided about the tree's species, height, diameter, health, and a few images for verification. This application will be used to tokenize carbon-negative-assets for the company Cascadia Carbon.

Carbonaut Platform Development

Overview:  The Carbonaut Platform Enhancement Project aims to leverage the skills and creativity of student developers to enhance the functionality and user experience of the Carbonaut platform, by Cascadia Carbon. In this project, students will actively contribute by adding key features such as in-app camera functionality, integrating 3D maps, and refining various aspects of the user interface (UI) to create a more cohesive and feature-rich experience.    Project Scope:    In-App Camera Functionality:    Students will research and implement in-app camera functionality to empower users to capture and share real-time environmental observations.  This feature will encourage users to contribute visually to the platform, enhancing data collection and engagement.  Integration of 3D Maps:    Research and implementation of 3D maps to provide users with a more immersive and informative view of environmental data.  Enhance the user experience by visualizing geographical and environmental information in a three-dimensional space.  UI Refinement:    Conduct a comprehensive analysis of the existing UI to identify areas for improvement.  Collaboratively design and implement UI updates to create a more cohesive and visually appealing interface.  Ensure consistency across different pages and streamline navigation for an intuitive user experience.  Code Writing and Testing:    Students will actively write, test, and debug code related to the added features and UI enhancements.  Conduct thorough testing to ensure the stability, performance, and security of the new functionalities.  Feature Research:    Engage in research to explore additional features that could further enhance the Carbonaut platform.  Propose ideas for future development based on user needs, technological advancements, and industry trends.  Expected Outcomes:    In-app camera functionality enabling users to contribute visual data.  Integration of 3D maps for a more immersive and informative experience.  A refined and cohesive UI that enhances user engagement.  Well-documented code with thorough testing to ensure stability.  Research findings and proposals for additional features to guide future development.  Benefits for Students:    Practical experience in coding, testing, and collaborating on a real-world project.  Exposure to the environmental and sustainability sector.  Opportunity to contribute to a platform that promotes positive change.  Note: This project is designed to be completed in 80 hours, allowing students to make tangible contributions to the Carbonaut platform while gaining valuable hands-on experience in software development and environmental technology.

Web3 Solidity Smart Contract Development for Token Launch

The main goal for the project is to develop and integrate a web3 solidity smart contract and assist with the token launch on the Ethereum platform for Cascadia Carbon, a company that tokenizes carbon-negative-assets. This will involve several different steps for the students, including: - Learning about the company's mission and goals related to carbon-negative-assets. - Developing and integrating a web3 solidity smart contract for the token launch on the Ethereum platform. - Assisting with the technical aspects of the token launch process. - Collaborating with the company's team to ensure the successful implementation of the smart contract and token launch.