Most of the online solutions are arranged plug-ins, but some people point out that the new version of Office supports Latex formula input. I tried, it's true!
Just like before, click "Insert" and "Formula" directly, enter Latex formula directly in the formula box, and then leave it blank, and it will be converted into an ordinary mathematical formula.
Office Formula better supports simple latex formula syntax. However, the support for complex formulas is not very good, and some grammars seem to be unable to be recognized normally. For complex formulas, it seems more convenient to use the "formula" mode framework in Office and combine Latex formula.
For example:
Add spaces just to enter this symbol. Enter the content first, then tap the space twice to enter the formula.
Restrict: \ Restrict space
Integer: \int space
Point multiplication (such as inner product): \ bullet space
Cross product (such as outer product and curl): \ times space.
Vector arrow above the letter: \hvec space
Score: just plain/space.
Subscript: _ space
Superscript: space
Upper and lower bounds of integer symbols: \ int _ a b space, where a is the lower bound and b is the upper bound.
For example: \ int _ 3 4 space
Root number: \sqrt
For example: \sqrt (a+b) space
Another example is: \ sqrt (n&; A+b) spaces
Derivative: the derivative of f to x in df/dx space.
Partial derivative: \partial(f)/\partial(x) partial derivative of space f to x.
Double integral: the double integral of space on set a.
Triple integral: the triple integral of int _ c space on \ ii.
Line integral: the line integral of \ oint _ C space on C.
Surface integral: the surface integral of space on S.
Sum: \ sum _ (n = 1) n sum of spaces from 1 to n.
& lt= space is less than or equal to.
& gt= space is greater than or equal to.
& lt& lt space ratio
> > spatial ratio
\ Multiply by space multiplication
\div space segmentation
\ Point multiplication in point space
~ ~ Spaces are approximately equal to
\neq space is not equal to
Note: There are two spaces below.
X\hat space
X \ strip space
X \ tiling space
Customize the things above your head a \ above (c) Space c is above A.
Customize the content below a \ below (c) The space c is below a..
\ In the space that belongs to.
\ n Spaces are the other way around.
\ Subset space is contained in
\ superset space contains
\ Cup space combined operation
\cap space intersection operation
\bigcup spaces are capitalized and merged.
\bigcap space capitalization intersection
Matrix: \matrix space for example: \ matrix (1&; 2 @ 3 & amp4)
1 2
3 4
\bar{x} The display result becomes
\overline{x} The display result is