Let D be the quadrilateral with vertices at (0, 0), (1, 1), (1, −1), and (2,...

Show that the quadrilateral, with vertices at A(2, 0, 5), B(0, -3, 1), C(4, 1, -2)...

Show that the quadrilateral, with vertices at A(2, 0, 5), B(0, -3, 1), C(4, 1, -2) and D(6, 4, 2), is a parallelogram. Calculate the area. Determine the measures of the interior angles. Is the parallelogram a rectangle? Verify your response.

Find∫∫R(2x+4y)dA where RR is the parallelogram with vertices (0,0), (-4,2), (5,4), and (1,6). Use the transformation...

Find∫∫R(2x+4y)dA where RR is the parallelogram with vertices (0,0), (-4,2), (5,4), and (1,6). Use the transformation x=−4u+5v , y=2u+4v

The vertices of a quadrilateral are listed below. A = (2, −3, 1) B = (6,...

The vertices of a quadrilateral are listed below. A = (2, −3, 1) B = (6, 5, −1) C = (7, 2, 2) D = (3, −6, 4) (a) Show that the quadrilateral is a parallelogram. (b) Find the area of the parallelogram.

The vertices of a quadrilateral are at the coordinates (1, 3), (2, 5), (5, 1), and...

The vertices of a quadrilateral are at the coordinates (1, 3), (2, 5), (5, 1), and (6, 3). Which of the following properties describe the quadrilateral? Select all that apply. a. all sides are congruent b.the diagonals are congruent c.both pair of opposite sides are parallel d.both pairs of opposite sides are congruent e.exactly one pair of sides are parallel

Locate ∫∫R(2x+5y)dA where R is the parallelogram with vertices (0,0), (5,2), (4,-4), & (9,-2). Use the...

Locate ∫∫R(2x+5y)dA where R is the parallelogram with vertices (0,0), (5,2), (4,-4), & (9,-2). Use the transformation x=5u+4v, y=2u−4v

1. Let R be the rectangle in the xy-plane bounded by the lines x = 1,...

1. Let R be the rectangle in the xy-plane bounded by the lines x = 1, x = 4, y = −1, and y = 2. Evaluate Z Z R sin(πx + πy) dA. 2. Let T be the triangle with vertices (0, 0), (0, 2), and (1, 0). Evaluate the integral Z Z T xy^2 dA ZZ means double integral. All x's are variables. Thank you!.

a) Let T be the plane 3x-y-2z=9. Find the shortest distance d from the point P0...

a) Let T be the plane 3x-y-2z=9. Find the shortest distance d from the point P0 = (5, 2, 1) to T, and the point Q in T that is closest to P0. Use the square root symbol where needed. d= Q= ( , , ) b) Find all values of X so that the triangle with vertices A = (X, 4, 2), B = (3, 2, 0) and C = (2, 0 , -2) has area (5/2).

Let random variable X ∼ U(0, 1). Let Y = a + bX, where a and...

Let random variable X ∼ U(0, 1). Let Y = a + bX, where a and b are constants. (a) Find the distribution of Y . (b) Find the mean and variance of Y . (c) Find a and b so that Y ∼ U(−1, 1). (d) Explain how to find a function (transformation), r(), so that W = r(X) has an exponential distribution with pdf f(w) = e^ −w, w > 0.

double integral f(x,y)dA. f(x,y) = cos(x) +sin(y). D is the triangle with vertices (-1,-2), (1,0) and...

double integral f(x,y)dA. f(x,y) = cos(x) +sin(y). D is the triangle with vertices (-1,-2), (1,0) and (-1,2). You might notice cos(x) is an even function, sin(y) is an odd function.

Let P = (X1, X2) be a randomly selected point in the unit square [0, 1]...

Let P = (X1, X2) be a randomly selected point in the unit square [0, 1] 2. Let X = min(X1, X2), Y = max(X1, X2)
 (a) Find the c.d.f Fx and the density function fx, of the random variable X. (b) Find the probability P (Y − X ≤ 1/2).