Examveda

Stokes theorem connects

A. a line integral and a surface integral

B. a surface integral and a volume integral

C. a line integral and a volume integral

D. gradient of a function and its surface integral

Answer: Option A

This Question Belongs to Engineering Maths >> Calculus

Join The Discussion

Related Questions on Calculus

A. 1

B. -1

D. Limit does not exit

View Answer

A. 2 + 3x - x² - \[\frac{{{{\text{x}}^3}}}{2}\] + ...

B. 2 - 3x + x² - \[\frac{{{{\text{x}}^3}}}{2}\] + ...

C. 2 + 3x + x² + \[\frac{{{{\text{x}}^3}}}{2}\] + ...

D. 2 - 3x - x² + \[\frac{{{{\text{x}}^3}}}{2}\] + ...

View Answer

B. \[\infty \]

C. \[\frac{1}{2}\]

D. \[ - \infty \]

View Answer

A. \[1 + \frac{{{{\left( {{\text{x}} - \pi } \right)}^2}}}{{3!}} + ...\]

B. \[ - 1 - \frac{{{{\left( {{\text{x}} - \pi } \right)}^2}}}{{3!}} + ...\]

C. \[1 - \frac{{{{\left( {{\text{x}} - \pi } \right)}^2}}}{{3!}} + ...\]

D. \[ - 1 + \frac{{{{\left( {{\text{x}} - \pi } \right)}^2}}}{{3!}} + ...\]

View Answer