\displaystyle{\left({\csc{{\left(-{60}\right)}}}=-\frac{{1}}{{\sin{{60}}}}=-\frac{{2}}{\sqrt{{3}}}\right.} Explanation: \displaystyle{\csc{{\left(-{60}\right)}}}={\csc{{\left(-{\left(\frac{\pi}{{3}}\right)}\right)}}}={\csc{{\left({2}\pi-{\left(\frac{\pi}{{3}}\right)}\right.}}} ...

It depends on what you do want to use. Explanation: I assume that you actually mean to ask about \displaystyle{\cot{{\left(-{90}^{\circ}\right)}}} (There is no nice way to express the exact ...

Dean R. May 15, 2018 Arccsc and the other inverse trig functions aren't periodic. We have to worry about principal values because they're not even really functions, being the inverses of ...

\displaystyle-\sqrt{{2}} Explanation: Recall that \displaystyle{\csc{\theta}}=\frac{{1}}{{\sin{\theta}}} and \displaystyle{\sin{{\left(-\theta\right)}}}=-{\sin{{\left(\theta\right)}}} ...

3.42 Explanation: There are two ways you can go about this. The first is using a calculator with the cosecant button. If your calculator has this, you can easily calculate that. The other way is ...

Unidefined. Explanation: Since \displaystyle{\csc{{\left({x}\right)}}}=\frac{{1}}{{\sin{{\left({x}\right)}}}} , you have \displaystyle{\csc{{\left({180}\right)}}}=\frac{{1}}{{\sin{{\left({180}\right)}}}} ...