OpenStudy (anonymous):
what is leibnitz notation?
OpenStudy (anonymous):
\[\frac{x^2+1}{x}\]
OpenStudy (anonymous):
\[\frac{x^2+1}{x}\]
OpenStudy (anonymous):
\[\sqrt[3]{8}=2\]
OpenStudy (anonymous):
\[\sum_{k=1}^n
OpenStudy (anonymous):
\[\sum_{k=1}^n \frac{1}{k^n}\]
OpenStudy (anonymous):
sqrt(x)
OpenStudy (anonymous):
[sqrt{x}]
OpenStudy (anonymous):
\[\sqrt{x}\]
OpenStudy (anonymous):
\[ blah \]
myininaya (myininaya):
\[\frac{dy}{dx}=\frac{dy}{du}\frac{du}{dx}\]
OpenStudy (anonymous):
\[\sqrt{\text{myininaya}}=\frac{\text{amistre}}{\text{satellites}}\]
myininaya (myininaya):
lol \[myininaya>satellite\]
OpenStudy (anonymous):
showing off latex
OpenStudy (anonymous):
come to chat and help!
OpenStudy (anonymous):
ahhhh, nice :)
OpenStudy (anonymous):
practicing
OpenStudy (anonymous):
krish asked so we did a couple examples here
OpenStudy (anonymous):
latex class
myininaya (myininaya):
i will maybe be back in hour i have to run later
OpenStudy (anonymous):
later
OpenStudy (anonymous):
\sqrt{5}
OpenStudy (anonymous):
Leibneiz notation refers more to calculusa as myininara posted above (dy/dx) as opposed to Newton's f prime (f prime). MIT professor David Jerison considers Newton's notation (not his findings, his notation) sub-par and he said it set England back 500 years in calculus as the world moved forward with Leibneiz's notation. (Newton actually used a dot on the x or y.)
OpenStudy (anonymous):
\sqrt{5}\
OpenStudy (anonymous):
\[sqrt{x}\]
OpenStudy (anonymous):
oh its wrong
OpenStudy (anonymous):
uzma i am answering you in chat so check there if you want suggestions.
OpenStudy (anonymous):
i obviously cannot answer here because the latex will just show up as latex
OpenStudy (anonymous):
\[\sqrt[3]{x}\]
OpenStudy (anonymous):
let me try
OpenStudy (anonymous):
\[\sqrt{3}{x}\]
OpenStudy (anonymous):
if it doesn't work you will see it in preview. what you see in preview is what will show up here
OpenStudy (anonymous):
got it!
OpenStudy (anonymous):
yeah, i did it
OpenStudy (anonymous):
if you see \[frac{x}2}\
OpenStudy (anonymous):
needs practice, m already slow in typing
OpenStudy (anonymous):
in preview you will know something is wrong. preview will give what will post
OpenStudy (anonymous):
\[\frac{a}{b}\]
OpenStudy (anonymous):
nice
OpenStudy (anonymous):
try \[\frac{1+\frac{a}{b}}{1-\frac{a}{b}}\]
OpenStudy (anonymous):
\[\int{x}{dx}\]
OpenStudy (anonymous):
there you go
OpenStudy (anonymous):
oh amistre is here :P
OpenStudy (anonymous):
harder is \[\int_1^{e^2}xdx\]
OpenStudy (anonymous):
hmmm, seems to be
OpenStudy (anonymous):
let me try the first one
OpenStudy (anonymous):
i will write it in chat you need a trick
OpenStudy (anonymous):
ok
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