![]() Consider the information accessible from a simple input “sin(x)”. Another key question in this development process is how to represent all of the information that is accessible from a single input to Wolfram|Alpha. Such functions provide easy access points to high-level content that is particularly useful in the education world. This highlights one of the key elements of the development of resource functions for use in Wolfram|Alpha Notebook Edition: creating highly functional code that does specific tasks that might not fit within the overall Wolfram Language. Seeing the Wolfram Language interpretation of this input introduces users to the syntax of this ManipulatePlot function so they might be able to build up something more complicated themselves, and also introduces them to Wolfram Language syntax proper. As we build out this functionality, you can expect to see Wolfram|Alpha Notebook Edition becoming even smarter in helping you to build up your computations. This allows for context-dependent tailoring of results containing references to previous outputs based on the semantic types of those results. ![]() This functionality, which has been under continuous development since the release of this product, has recently been extended to leverage the powerful semantic capabilities that power the Suggestions Bar. if you input “y = sin(x^3)” followed by “make a plot,” Wolfram|Alpha Notebook Edition will infer that you want to make a plot of the previous equation. In Wolfram|Alpha Notebook Edition, previous outputs can be referenced in a variety of ways, ranging from familiar Wolfram Language constructs such as %n or Out to natural language expressions such as “simplify the last result,” “plot the above” or “square it.” In certain cases, an explicit reference needn’t even appear: e.g. ![]() Using this, computations can be built up using an intuitive “step-by-step” approach and the need for cutting/pasting or retyping is reduced. ![]() One of the most useful features of any notebook-based computational environment is the ability to reuse the result of a prior calculation as the input to a new one. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |