![]() Here’s a definition of IBL, in case you’re not familiar with the terminology:ĭesigning and using activities where students learn new concepts by actively doing and reflecting on what they have done. Inquiry Based Learning: One appropriate use for any CAS (computer algebra system) is to use it as a way for students to explore problem types that they have not learned about yet. Find the pairs and then explain how the matched integrals are fundamentally the same.Ģ. You won’t see why until you do the integration, showing all the steps. There are two pairs of problems below that are exactly the same. ![]() Here’s an example from my recent problem set: While Wolfram Alpha can evaluate the integrals for them, the questions I’ve asked require (I hope) a deeper level of understanding about what happens when the techniques are used. CCC (Concept Compare Contrast) Problems: I’m writing problems that focus on understanding the mathematical process and the compare/contrast nature of math problems. So now I’m in the position of having to reconcile the use of technology that easily evaluates the integrals with making sure that students actually understand the techniques of integration. In Calc II, our topics list includes a lot of “techniques-oriented” topics (integration by partial fractions, integration by parts, etc.) and because of the need to keep this course transferable to 4-year schools, I can’t really get around this. Now that all my Calculus II students know about Wolfram Alpha ( I showed them), I have to make sure that the assignments I ask them to turn in can’t just be “walphaed” with no thought. Learn more about Wolfram Blockchain Labs at. ![]() The integration with IPFS and Filecoin will only continue to expand what is possible for data storage and analytics use cases. Wolfram Blockchain Labs already hosts nodes from ARK, Bitcoin, bloxberg, Cardano, Ethereum, Tezos, and others in their high-performance cluster, providing direct connections for smooth Wolfram Language integration on the desktop (Mathematica) and cloud (Wolfram Cloud). Wolfram is also using the IPFS integration to build functionality and use cases that can be incorporated into decentralized applications used by researchers. In collaboration with the Max Planck Digital Library, the WBL team has built an application to help scientists hash data on the open bloxberg while storing metadata and data with IPFS for sharing. WBL has already created one of the first use cases with IPFS. Development- Building advanced applications using computational capabilities.Data Analysis- Taking data from Filecoin and IPFS, and conducting analyses on documents with the Wolfram Language.Business- Working with WBL’s consulting organization to explore advanced prototypes.Academia- Storing data for open and understandable use, and sophisticated sharing of research.The Protocol Labs and WBL collaboration will support new storage, data, and analytics use cases in areas like: Through the integration, developers will be able to access new tool sets from Wolfram Technologies, including the Wolfram programming language, Cloud, and Notebooks. WBL is integrating their distributed ledger technology platform with IPFS and Filecoin to add new decentralized functionality and expanded storage to their existing blockchain features. In a new collaboration with Protocol Labs, Wolfram Blockchain Labs (WBL) will offer developers the opportunity to leverage storage, peer-to-peer networking, and other protocols to complement their existing applications. Wolfram Blockchain Labs Expanding Storage Functionality with IPFS & Filecoin for Dapp DevelopmentĮxpanding available tooling options for developers to create new decentralized applications is critical for the growth of the IPFS and Filecoin ecosystems.
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