🎖 We recommend you check the Scaffold-ETH 2 version of the challenges: https://github.com/scaffold-eth/scaffold-eth-2
Learn how to use 🏗 scaffold-eth to create decentralized applications on Ethereum. 🚀
🎫 Create a simple NFT to learn basics of 🏗 scaffold-eth. You'll use 👷♀️ HardHat to compile and deploy smart contracts. Then, you'll use a template React app full of important Ethereum components and hooks. Finally, you'll deploy an NFT to a public network to share with friends! 🚀
https://github.com/scaffold-eth/scaffold-eth-challenges/tree/challenge-0-simple-nft
🦸 A superpower of Ethereum is allowing you, the builder, to create a simple set of rules that an adversarial group of players can use to work together. In this challenge, you create a decentralized application where users can coordinate a group funding effort. If the users cooperate, the money is collected in a second smart contract. If they defect, the worst that can happen is everyone gets their money back. The users only have to trust the code.
https://github.com/scaffold-eth/scaffold-eth-challenges/tree/challenge-1-decentralized-staking
🤖 Smart contracts are kind of like "always on" vending machines that anyone can access. Let's make a decentralized, digital currency. Then, let's build an unstoppable vending machine that will buy and sell the currency. We'll learn about the "approve" pattern for ERC20s and how contract to contract interactions work.
https://github.com/scaffold-eth/scaffold-eth-challenges/tree/challenge-2-token-vendor
🎰 Randomness is tricky on a public deterministic blockchain. In this challenge you will explore creating random numbers using block hash and how that may be exploitable. Attack the dice game with your own contract by predicting the randomness ahead of time to always roll a winner!
https://github.com/scaffold-eth/scaffold-eth-challenges/tree/challenge-3-dice-game
The BuidlGuidl is a curated group of Ethereum builders creating products, prototypes, and tutorials to enrich the web3 ecosystem. A place to show off your builds and meet other builders. Start crafting your Web3 portfolio by submitting your DEX, Multisig or SVG NFT build.
💵 Build an exchange that swaps ETH to tokens and tokens to ETH. 💰 This is possible because the smart contract holds reserves of both assets and has a price function based on the ratio of the reserves. Liquidity providers are issued a token that represents their share of the reserves and fees...
DEX Telegram Channel: https://t.me/+_NeUIJ664Tc1MzIx
https://github.com/scaffold-eth/scaffold-eth-challenges/tree/challenge-4-dex
🛣️ The Ethereum blockchain has great decentralization & security properties but these properties come at a price: transaction throughput is low, and transactions can be expensive. This makes many traditional web applications infeasible on a blockchain... or does it? State channels look to solve these problems by allowing participants to securely transact off-chain while keeping interaction with Ethereum Mainnet at a minimum.
State Channels Telegram Channel: https://t.me/+k0eUYngV2H0zYWUx
https://github.com/scaffold-eth/scaffold-eth-challenges/tree/challenge-9-state-channels
👩👩👧👧 Using a smart contract as a wallet we can secure assets by requiring multiple accounts to "vote" on transactions. The contract will keep track of transactions in an array of structs and owners will confirm or reject each one. Any transaction with enough confirmations can "execute".
Multisig Telegram Channel: https://t.me/+mkNNF_yHsK8yMTcx
https://github.com/scaffold-eth/scaffold-eth-challenges/tree/challenge-5-multi-sig
The Diamond standard (EIP-2535) makes it easy to modularize, upgrade, and manage your smart contracts.
We will start with a basic crowdfunding contract that allows users to contribute and the owner to claim the funds any time they want.
😱 Seems like contributors will never be able to get their money back, your role is to fix this and set up some conditions and add some functionalities to your crowdfunding contract.
https://github.com/scaffold-eth/scaffold-eth-challenges/tree/diamond-challenge
🧙 Tinker around with cutting edge smart contracts that render SVGs in Solidity. 🧫 We quickly discovered that the render function needs to be public... 🤔 This allows NFTs that own other NFTs to render their stash. Just wait until you see an Optimistic Loogie and a Fancy Loogie swimming around in the same Loogie Tank!
SVG NFT Telegram Channel: https://t.me/+J9PRea84c1U0Mzkx
https://github.com/scaffold-eth/scaffold-eth-challenges/tree/challenge-6-svg-nft
Join the telegram support chat 💬 to ask questions and find others building with 🏗 scaffold-eth!
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