![SOLVED:Use the linear approximation of f(x, y)=e^x^2+y at (0,0) to estimate f(0.01,-0.02) . Compare with the value obtained using a calculator. SOLVED:Use the linear approximation of f(x, y)=e^x^2+y at (0,0) to estimate f(0.01,-0.02) . Compare with the value obtained using a calculator.](https://cdn.numerade.com/previews/a539c50b-fe13-4bc6-b55d-a222b47d5c73_large.jpg)
SOLVED:Use the linear approximation of f(x, y)=e^x^2+y at (0,0) to estimate f(0.01,-0.02) . Compare with the value obtained using a calculator.
![Find the Linear Approximation to the Multivariable Function Using the Tangent Plane and Estimate - YouTube Find the Linear Approximation to the Multivariable Function Using the Tangent Plane and Estimate - YouTube](https://i.ytimg.com/vi/xqS3aPw9K_k/maxresdefault.jpg)
Find the Linear Approximation to the Multivariable Function Using the Tangent Plane and Estimate - YouTube
![Use linear approximation to estimate the value. Compare with the value given by a calculator. (Use decimal notation. Give answer to four decimal places.) \sqrt{(3.93)(6.06)(5.09)} \approx ? Calculate the the percentage error Use linear approximation to estimate the value. Compare with the value given by a calculator. (Use decimal notation. Give answer to four decimal places.) \sqrt{(3.93)(6.06)(5.09)} \approx ? Calculate the the percentage error](https://homework.study.com/cimages/multimages/16/appro4376835722842277686.jpg)