![]() Sorry, your statement above (as well as some others in different topics regarding ChatGPT and generative AI) are not technically accurate. If could activate the Discourse math plugin many of us here would appreciate it. Notice that the MathJax is rendered as math and not MathJax. Note: When the output from ChatGPT is pasted into a Discourse post with the Math plugin active this is how it is rendered. So just as programmers use source code or JSON data in parts of the textual stream you can also use LaTeX in parts of the textual stream for both prompts and requesting in completions. The Higgs field is a scalar field, which means that it has a single degree of freedom, and it interacts with other particles in the Standard Model through the exchange of gauge bosons. The dynamics of the Higgs field are determined by the principle of least action, which leads to the equations of motion for the field. The equation describes the behavior of the Higgs field in the presence of other particles and fields in the Standard Model. It is given by -\lambda (\phi^\dagger \phi)^2, where \lambda is a positive constant parameter known as the Higgs quartic coupling. The third term represents the self-interaction of the Higgs field. It is given by -\mu^2 \phi^\dagger \phi, where \mu is a constant parameter known as the Higgs mass parameter. The second term represents the potential energy of the Higgs field. The covariant derivative is used to ensure that the Lagrangian is invariant under local gauge transformations. ![]() It is given by (D\mu \phi)^\dagger (D^\mu \phi), where \phi is the Higgs field and D_\mu is the covariant derivative. The first term represents the kinetic energy of the Higgs field. The Lagrangian density consists of three terms: The Higgs field is a scalar field that is responsible for the generation of mass for elementary particles such as the W and Z bosons and the fermions. The equation represents the Lagrangian density of the Higgs field in the context of the Standard Model of particle physics. The Higgs equation in LaTeX is: \begin = (D\mu \phi)^\dagger (D^\mu \phi) - \mu^2 \phi^\dagger \phi - \lambda (\phi^\dagger \phi)^2 The Higgs equation can be expressed using LaTeX and MathML as follows: Have you tired asking ChatGPT to generate LaTeX, MathML or such?ĭo not limit yourself to just text when using ChatGPT The remainder of this reply is the original reply to the first post. LaTex math mode specific delimiters as followingĭisplay math mode: insert linebreak after opening `$$`, `\`Īs noted by use the Chrome extension TeX All the Things ( ref) Many find this noted by to be the best answer which is to modify the prompt to include such Could you please use the specific LaTeX math mode delimiters for your response? Thanks goes to those who responded here, it was a team effort. Name exists, I used it otherwise I made up my own name.Note: These are based on the replies below. In most cases, whenever a lowercase alphanumeric LaTeX symbol The file name is the name listed followed by Version, click on the chart above.) Each image is an n x 19 The PNG version of each symbol in the symbol chart. To Individual Symbol PNGs Here are links to ![]() The PNG version, use the individual links below.) There is also a 10 x 19 blank GIF not on the chart. To retrieve the GIF version of a symbol, click on the chart, The date at the bottom of the chart indicates the version of theĬhart. Just use themĪny way you want, with or without acknowledgement.Ĭhart All the symbols are collected on thisĬhart. For your convenience, the images are released to publicĭomain, so there are no copyright issues to fuss with. GIF (Graphics Interchange Format) and PNG (Portable Network Graphics) The bit maps attempt to resemble standard fonts Transparent images of mathematical letters and symbols, suitable forĭisplay on a web page. This is a collection of 1179 bit-mapped, 12-point,
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |