g(s,t)=f(x(s,t),y(s,t)) where f(x,y)=x^2-xy^3, x(3,4)=2, y(3,4)=-2, xs(3,4)=4 xt(3,4)=-1, ys(3,4)=10, and yt(3,4)=-100. Calculate gs(3,4)

Computing growth rates (I): Suppose xt = (1.04)t and yt = (1.02)t. Calculate the growth rate...

Computing growth rates (I): Suppose xt = (1.04)t and yt = (1.02)t. Calculate the growth rate of zt in each of the following cases: z = xy z = x/y z = y/x z = x1/2y1/2 z = (x/y)2 z = x−1/3y2/3

Consider an infinite-horizon groundwater management problem where xt is the stock of groundwater at time t,...

Consider an infinite-horizon groundwater management problem where xt is the stock of groundwater at time t, yt is the quantity of groundwater extracted at time t, g(yt) gives the amount of total recharge to the aquifer, B(yt) is the benefit of extracting yt, and C(xt, yt) 2 is the cost of extracting yt from a stock of size xt. Suppose that there are property rights to groundwater, but a large number of users. Groundwater used in agriculture is unregulated. Suppose...

Let the random variable X and Y have the joint pmf f(x, y) = xy^2/c where...

Let the random variable X and Y have the joint pmf f(x, y) = xy^2/c where x = 1, 2, 3; y = 1, 2, x + y ≤ 4 , that is, (x, y) are {(1, 1),(1, 2),(2, 1),(2, 2),(3, 1)} . (a) Find c > 0 . (b) Find μX (c) Find μY (d) Find σ^2 X (e) Find σ^2 Y (f) Find Cov (X, Y ) (g) Find ρ , Corr (X, Y ) (h) Are X...

t = 1 Yt = 7, t= 2 Yt= 12, t= 3 Yt=9, t = 4...

t = 1 Yt = 7, t= 2 Yt= 12, t= 3 Yt=9, t = 4 Yt = 14, t = 5 Yt = 15 Develop the linear trend equation for this time series to 1 decimal point. Tt = ? + t = ? Based on above what is the forecast for t= 6 to 1 decimal point ?

Evaluate F · dr, where F(x, y) = <(xy), (3y^2)> and C is the portion of...

Evaluate F · dr, where F(x, y) = <(xy), (3y^2)> and C is the portion of the circle x^2 + y^2 = 4 from (0, 2) to (0, −2) oriented counterclockwise in the xy-plane.

Given f(x,y)= x^2+y^2+2, subject to the constraint g(x,y)=x^2+xy+y^2-4=0, write the system of equations which must be...

Given f(x,y)= x^2+y^2+2, subject to the constraint g(x,y)=x^2+xy+y^2-4=0, write the system of equations which must be solved to optimize f using Lagrange Multipliers.

1. Calculate the total differential for the given function. G(x,y) = e^5x ·ln(xy + 1) 2....

1. Calculate the total differential for the given function. G(x,y) = e^5x ·ln(xy + 1) 2. Apply the Second Derivative Test to the given function and determine as many local maximum, local minimum, and saddle points as the test will allow. F(x,y) = y^4 −7y^2 + 16 + x^2 + 2xy

Let f(x,y) = xe^sin(x^2y+xy^2) /(x^2 + x^2y^2 + y^4)^3 . Compute ∂f ∂x (√2,0) pointwise.

Let f(x,y) = xe^sin(x^2y+xy^2) /(x^2 + x^2y^2 + y^4)^3 . Compute ∂f ∂x (√2,0) pointwise.

Xt = 2 + Wt - 0.5Wt-1, t= 1,2, 3 .... where Wt ~ i.i.d N(0,9)...

Xt = 2 + Wt - 0.5Wt-1, t= 1,2, 3 .... where Wt ~ i.i.d N(0,9) Compute E(Xt) and var(Xt) Find correlation of Xt and Wt-1

For the function f(x, y)=ln(1+xy) a.Find the value of the directional derivative of f at the...

For the function f(x, y)=ln(1+xy) a.Find the value of the directional derivative of f at the point (-1, -2) in the direction <3,4>. b.Find the unit vector that gives the direction of steepest increase of f at the point (2,3).