# Get help with multivariable calculus equations

Recent questions in Multivariable calculus
Mylo O'Moore 2020-10-20 Answered

### Use Green's Theorem to evaluate the line integral. Orient the curve counerclockwise. $$\displaystyle\oint_{{C}}{F}{8}{d}{r}$$, where $$\displaystyle{F}{\left({x},{y}\right)}={\left\langle{x}^{{2}},{x}^{{2}}\right\rangle}$$ and C consists of the arcs $$\displaystyle{y}={x}^{{2}}{\quad\text{and}\quad}{y}={8}{x}{f}{\quad\text{or}\quad}{0}\le{x}\le{8}$$

Isa Trevino 2020-10-18 Answered

### What tis the complete domain D and range R of the following multivariable functions: $$\displaystyle{w}{\left({x},{y}\right)}=\frac{{1}}{{{x}{\left({y}-{1}\right)}}}$$

Falak Kinney 2020-10-18 Answered

### Use Green's Theorems to evaluate $$\displaystyle\oint_{{C}}{x}{y}{\left.{d}{x}\right.}+{x}^{{2}}{y}^{{3}}{\left.{d}{y}\right.}$$, where C is the triangle with vertices(0,0),(1,0)and (1,2).

As you start exploring calculus and analysis, you will encounter multivariable calculus equations that are self-explanatory as well because all of them will contain at least two questions related to each variable being involved. See our multivariable calculus examples to receive more help and information regarding how these are used. The answers to solving these multivariable calculus questions should be based on finding the deterministic behavior. These are used in engineering and those fields where the parametric equations solver will provide you an optimal control of time dynamic systems. As an interesting subject, applying at least one equation in practice will keep you inspired!
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