#What does microsoft math input panel do manual#
Typesetting mathematics from such manuscripts in the days of hot metal was a time-consuming manual task. Typed manuscript by Albert Einstein and Marcel Grossmann, published in 1914 in the Zeitschrift für Mathematik und Physik. For those interested in learning more about LaTeX-XML workflows, we recommend a study on River Valley’s workflow. However, note that this paper is not about TeX and LaTeX our audience is specifically those who must handle equations in Word documents. TeX and LaTeX are excellent solutions for STM content, and this paper touches lightly on the history and benefits of those tools. While this paper focuses specifically on JATS, the concepts discussed apply to any Word-to-XML workflow regardless of whether the XML model is JATS, DITA, DocBook, or TEI.īefore we dive in, we acknowledge those who say that there are no good solutions for publishing math content using Microsoft Word.
#What does microsoft math input panel do how to#
The focus of this paper is to explain the various ways that authors may insert equations into Word documents and how to build workflows that smoothly and accurately transform all of these formats into the appropriate XML markup. Each of these supported formats comes with its own benefits-and baggage-and can be created from a Microsoft Word document.Īuthors have various ways of adding equations to their Word documents, including several Word-native equation editors and third-party applications, such as Design Science’s MathType. JATS supports display and inline equations that “can be expressed as ASCII characters, as a graphic, or using TeX, LaTeX, or MathML mathematics expressions”. In other words, the benefits of an XML publishing workflow should extend to equations. Published math should be discoverable, accessible, and sustainable treating equations simply as graphics does not suffice. In short, published mathematics need to be both human readable and machine-readable. We expect equations to look great and be useful (e.g., searchable, readable to the visually impaired, and perhaps even manipulable or solvable) on any electronic delivery system. The Internet allows us to share text and images seamlessly across platforms and systems, but similar demands for mathematical equations can fall short.
As a result, anyone involved in producing, publishing, or reading mathematical equations electronically knows that writing and publishing math is not a simple process. Mathematics is a fundamental building block of modern technology, research, and industry, and yet the technological means of publishing mathematics can still be surprisingly challenging. It also touches on workflow alternatives for handling equations in various rendering environments and how those downstream requirements may affect the means of equation extraction from Word documents. This paper clarifies the different forms of equations that can be encountered in Word documents and discusses the issues and idiosyncrasies of converting these various forms to MathML, LaTeX, and/or images in the JATS XML model. Building workflows that smoothly and accurately transform all of these formats into the appropriate XML markup for use in multiple rendering environments has many challenges. Authors have multiple means at their disposal to insert equations in Word documents, including several of Word's native equation editors and third-party applications, such as Design Science’s MathType. Some of those papers include simple and/or complex math.
The majority of today’s scholarly papers are authored in Microsoft Word.