Question

How do you use the linear approximation to `f(x, y)=(5x^2)/(y^2+12)` at (4 ,10) to estimate f(4.1, 9.8)?

Answer 1

Tangent plane approximation for `f(4.1,9.8) = 0.77551`

Explanation:

The tangent plane to `f(x,y)-z=0` in `p_0 = {x_0,y_0,f(x_0,y_0}` can be obtained by doing

`Pi_0 = << p-p_0,vec n_0>> = 0`

where `p = {x,y,z}in Pi_0` is a generic point and `vec n_0` is the normal vector to the surface `f(x,y)-z=0` at point `p_0`

but `vec n_0 = grad (f(x,y)-z)_0 = {f_x,f_y,-1}_0`

so

`vec n_0 = {(10 x_0)/(12 + y_0^2), -(10 x_0^2 y_0)/(12 + y_0^2)^2,-1}`

or

`vec n_0 = {5/14, -25/196,-1}`

given that `p_0 = {4,10,5/7}` the tangent plane is

`55/98 + (5 x)/14 - (25 y)/196 - z=0`

Calculating the approximation for `f(4.1,9.8)` gives

`z=55/98 + (5 xx4.1)/14 - (25xx 9.8)/196 =0.77551`

and

`f(4.1,9.8) = 0.777953`