Answer
$$\frac{{\left( {17\sqrt {17} - 1} \right)\pi }}{6}$$
Work Step by Step
$$\eqalign{
& f\left( {x,y} \right) = 13 + {x^2} - {y^2} \cr
& {\text{Find }}{f_x}\left( {x,y} \right){\text{ and }}{f_y}\left( {x,y} \right) \cr
& {f_x}\left( {x,y} \right) = \frac{\partial }{{\partial x}}\left[ {13 + {x^2} - {y^2}} \right] = 2x \cr
& {f_y}\left( {x,y} \right) = \frac{\partial }{{\partial y}}\left[ {13 + {x^2} - {y^2}} \right] = - 2y \cr
& {\text{The limits of the region }}R{\text{ are:}} \cr
& R = \left\{ {\left( {x,y} \right):{x^2} + {y^2} \leqslant 4} \right\} \cr
& {\text{Changing the region to polar coordinates}} \cr
& R = \left\{ {\left( {r,\theta } \right):0 \leqslant r \leqslant 2,{\text{ 0}} \leqslant \theta \leqslant 2\pi } \right\} \cr
& \cr
& {\text{The area of the surface }}S{\text{ is given by}} \cr
& {\text{Surface area}} = \iint\limits_R {\sqrt {1 + {{\left[ {{f_x}\left( {x,y} \right)} \right]}^2} + {{\left[ {{f_y}\left( {x,y} \right)} \right]}^2}} dA} \cr
& = \int_0^{2\pi } {\int_0^2 {\sqrt {1 + {{\left[ {2x} \right]}^2} + {{\left[ { - 2y} \right]}^2}} rdrd\theta } } \cr
& = \int_0^{2\pi } {\int_0^2 {\sqrt {1 + 4{x^2} + 4{y^2}} rdrd\theta } } \cr
& = \int_0^{2\pi } {\int_0^2 {\sqrt {1 + 4\left( {{x^2} + {y^2}} \right)} rdrd\theta } } \cr
& = \int_0^{2\pi } {\int_0^2 {\sqrt {1 + 4{r^2}} rdrd\theta } } \cr
& = \frac{1}{8}\int_0^{2\pi } {\int_0^2 {\sqrt {1 + 4{r^2}} \left( {8r} \right)drd\theta } } \cr
& {\text{Integrate with respect to }}r \cr
& = \frac{1}{8}\int_0^{2\pi } {\left[ {\frac{{2{{\left( {1 + 4{r^2}} \right)}^{3/2}}}}{3}} \right]} _0^2d\theta \cr
& = \frac{1}{{12}}\int_0^{2\pi } {\left[ {{{\left( {1 + 4{{\left( 2 \right)}^2}} \right)}^{3/2}} - {{\left( {1 + 4{{\left( 0 \right)}^2}} \right)}^{3/2}}} \right]} d\theta \cr
& = \frac{1}{{12}}\int_0^{2\pi } {\left[ {{{\left( {17} \right)}^{3/2}} - 1} \right]} d\theta \cr
& = \frac{{17\sqrt {17} - 1}}{{12}}\int_0^{2\pi } {d\theta } \cr
& {\text{Integrate}} \cr
& = \frac{{17\sqrt {17} - 1}}{{12}}\left( {2\pi } \right) \cr
& = \frac{{\left( {17\sqrt {17} - 1} \right)\pi }}{6} \cr} $$
