Given the function f(x, y) = e^(x)*sin(y) + e^(y)*sin(x) approximate f(0.1, -0.2) using P(0, 0).

X/Y 1 2 3 4 -1 0 0 0.1 0.2 0 0.1 0.1 0 0.1 1...

X/Y 1 2 3 4 -1 0 0 0.1 0.2 0 0.1 0.1 0 0.1 1 0.2 0 0.1 0.1 let the joint probability mass function of the discrete random variable X and Y give as above Find E(3x+1) and E(3x+4y) cov( X,Y)

Consider the function f(x) = sin(x). Suppose we want to approximate f 0 (0) by using...

Consider the function f(x) = sin(x). Suppose we want to approximate f 0 (0) by using a forward difference approximation and a stepsize of h. How small must h be in order to guarantee that the absolute error in our approximation is less than 0.01?

Given the function f(x, y) = xe2xy, estimate f(1.1,-0.1) using the linearization of f at the...

Given the function f(x, y) = xe2xy, estimate f(1.1,-0.1) using the linearization of f at the point (1,0).

Consider the function f(x,y)=y+sin(x/y) a) Find the equation of the tangent plane to the graph offat...

Consider the function f(x,y)=y+sin(x/y) a) Find the equation of the tangent plane to the graph offat the point(1,3) b) Find the linearization of the function f at the point(1;3)and use it to approximate f(0:9;3:1). c) Explain why f is differentiable at the point(1;3) d)Find the differential of f e) If (x,y) changes from (1,3) to (0.9,3.1), compare the values of ‘change in f’ and df

A joint density function is given by fX,Y (x, y) = ( kx, 0 < x...

A joint density function is given by fX,Y (x, y) = ( kx, 0 < x < 1, 0 < y < 1 0, otherwise. (a) Calculate k (b) Calculate marginal density function fX(x) (c) Calculate marginal density function fY (y) (d) Compute P(X < 0.5, Y < 0.1) (e) Compute P(X < Y ) (f) Compute P(X < Y |X < 0.5) (g) Are X and Y independent random variables? Show your reasoning (no credit for yes/no answer). (h)...

(a) Is the vector field F = <e^(−x) cos y, e^(−x) sin y> conservative? (b) If...

(a) Is the vector field F = <e^(−x) cos y, e^(−x) sin y> conservative? (b) If so, find the associated potential function φ. (c) Evaluate Integral C F*dr, where C is the straight line path from (0, 0) to (2π, 2π). (d) Write the expression for the line integral as a single integral without using the fundamental theorem of calculus.

Let f(x,y)=e^(−5x)sin(3y). (a) Using difference quotients with Δx=0.1 and Δy=0.1, we estimate fx(3,2)≈ fy(3,2)≈ (b) Using...

Let f(x,y)=e^(−5x)sin(3y). (a) Using difference quotients with Δx=0.1 and Δy=0.1, we estimate fx(3,2)≈ fy(3,2)≈ (b) Using difference quotients with Δx=0.01 and Δy=0.01, we find better estimates: fx(3,2)≈ fy(3,2)≈

Given the following joint density, f(x,y)={10xy^2 if 0<x<y<1 f(x,y)={ 0 otherwise 1. frequency function x given...

Given the following joint density, f(x,y)={10xy^2 if 0<x<y<1 f(x,y)={ 0 otherwise 1. frequency function x given y 2. E(x given y), Var(x given y) 3. Var(E(x given y), E(Var(x given y)

Let X and Y have a joint density function given by f(x; y) = 3x; 0...

Let X and Y have a joint density function given by f(x; y) = 3x; 0 <= y <= x <= 1 (a) Find P(X<2Y). (b) Find cov(X,Y). (c) Find P(X < 1/2 |Y = 1/3). (d) Find P(X = 1/2|Y = 1/3). (e) Find P(X > 1/2|Y > 1/3). (f) Find the conditional expectation E(X|Y = y).

a) let X follow the probability density function f(x):=e^(-x) if x>0, if Y is an independent...

a) let X follow the probability density function f(x):=e^(-x) if x>0, if Y is an independent random variable following an identical distribution f(x):=e^(-x) if x>0, calculate the moment generating function of 2X+3Y b) If X follows a bernoulli(0.5), and Y follows a Binomial(3,0.5), and if X and Y are independent, calculate the probability P(X+Y=3) and P(X=0|X+Y=3)