Determine the region in the xy-plane in which f(x,y)=cos(x2+y2) is continuous.

Consider the differential equation y' = y2 − 9 . Let f(x, y) = y2 −...

Consider the differential equation y' = y2 − 9 . Let f(x, y) = y2 − 9 . Find the partial derivative of f. df dy = Determine a region of the xy-plane for which the given differential equation would have a unique solution whose graph passes through a point (x0, y0) in the region. A unique solution exits in the entire x y-plane. A unique solution exists in the region −3 < y < 3. A unique solution exits...

Suppose that f(x,y) = x2−xy+y2−3x+3y with −3≤x,y≤3 1. The critical point of f(x,y) is at (a,b)....

Suppose that f(x,y) = x2−xy+y2−3x+3y with −3≤x,y≤3 1. The critical point of f(x,y) is at (a,b). Then a= and b= 2.Absolute minimum of f(x,y) is and absolute maximum is

The tangent plane at (1,1,1) on the surface x2+y2+z2+xy+xz=5 is given by x+   y+ z=   (all values...

The tangent plane at (1,1,1) on the surface x2+y2+z2+xy+xz=5 is given by x+   y+ z=   (all values should be positive whole numbers with no common factors)

Find the critical point of the function f(x,y)=x2+y2+xy+12x c=________ Use the Second Derivative Test to determine...

Find the critical point of the function f(x,y)=x2+y2+xy+12x c=________ Use the Second Derivative Test to determine whether the point is A. a local maximum B. a local minimum C. a saddle point D. test fails

Q8. Let G be the cylindrical solid bounded by x2 + y2 = 9, the xy-plane,...

Q8. Let G be the cylindrical solid bounded by x2 + y2 = 9, the xy-plane, and the plane ∫∫ z = 2, and let S be its surface. Use the Divergence Theorem to evaluate I = S F · ndS where F(x,y,z) = x3i + y3j + z3k and n is the outer outward unit normal to S.

Evaluate ∮C(x^3+xy)dx+(cos(y)+x2)dy∮C(x^3+xy)dx+(cos(y)+x^2)dy where C is the positively oriented boundary of the region bounded by  C:0≤x^2+y^2≤16, x≥0,y≥0C:0≤x^2+y^2≤16,x≥0,y≥0

Evaluate ∮C(x^3+xy)dx+(cos(y)+x2)dy∮C(x^3+xy)dx+(cos(y)+x^2)dy where C is the positively oriented boundary of the region bounded by  C:0≤x^2+y^2≤16, x≥0,y≥0C:0≤x^2+y^2≤16,x≥0,y≥0

Determine a region of the xy-plane for which the given differential equation would have a unique...

Determine a region of the xy-plane for which the given differential equation would have a unique solution whose graph passes through a point (x_0, y_0) in the region. (1+y^3)y' = x^2

find the integral of f(x,y,z)=x over the region x^2+y^2=1 and x^2+y^2=9 above the xy plane and...

find the integral of f(x,y,z)=x over the region x^2+y^2=1 and x^2+y^2=9 above the xy plane and below z=x+2

F(x,y) = (x2+y3+xy, x3-y2) a) Find the linearization of F at the point (-1,-1) b) Explain...

F(x,y) = (x2+y3+xy, x3-y2) a) Find the linearization of F at the point (-1,-1) b) Explain that F has an inverse function G defined in an area of (1, −2) such that that G (1, −2) = (−1, −1), and write down the linearization to G in (1, −2)

Consider lim (x, y)→(0, 0) x2 + y2 xy (see figure). (a) Determine (if possible) the...

Consider lim (x, y)→(0, 0) x2 + y2 xy (see figure). (a) Determine (if possible) the limit along any line of the form y = ax. (Assume a ≠ 0. If an answer does not exist, enter DNE.) (b) Does the limit exist? Explain. Yes, the limit exists. The limit is the same regardless of which path is taken.No, the limit does not exist. Different paths result in different limits.