Let (X,Y) be chosen uniformly from inside the circle of radius one centered at the origin....

Let C be the circle with radius 1 and with center (−2,1), and let f(x,y) be...

Let C be the circle with radius 1 and with center (−2,1), and let f(x,y) be the square of the distance from the point (x,y) to the origin. Evaluate the integral ∫f(x,y)ds

Let the random vector (X, Y ) be drawn uniformly from the disk D = {(x,...

Let the random vector (X, Y ) be drawn uniformly from the disk D = {(x, y) : x2 +y2 ≤ 1}. (a) (2 pts) What is the joint density function of (X, Y )? (b) (4 pts) What is the marginal density function of Y ? (c) (4 pts) What is the conditional density of X given Y = 1/2?

Problem 2. Let C be the circle of radius 100, centered at the origin and positively...

Problem 2. Let C be the circle of radius 100, centered at the origin and positively oriented. The goal of this problem is to compute Z C 1 z 2 − 3z + 2 dz. (i) Decompose 1 z 2−3z+2 into its partial fractions. (ii) Compute R C1 1 z−1 dz and R C2 1 z−2 dz, where C1 is the circle of radius 1/4, centered at 1 and positively oriented, and C2 is the circle of radius 1/4, centered...

1.    A point is chosen at random in the interior of a circle of radius R....

1.    A point is chosen at random in the interior of a circle of radius R. The probability that the point falls inside a given region situated in the interior of the circle is proportional to the area of this region. Find the probability that: a)    The point occurs at a distance less than r (r>R) from the center b)    The smaller angle between a given direction and the line joining the point to the center does not exceed α.

The curve C1 is the circle in R 2 of radius 2 centered at the origin,...

The curve C1 is the circle in R 2 of radius 2 centered at the origin, directed counterclockwise; the curve C2 is the hexagon in R 2 with vertices (4, −4), (4, 4), (0, 6), (−4, 4), (−4, −4), (0, −6), directed counterclockwise; and F(x, y) = (y/(x^2 + y^2))i − (x/(x^2+y^2))j. (a) Evaluate R C1 F · dr. (b) Evaluate R C2 F · dr.

A particle in R^2 travels along a circle centered at (x, y) with radius r >...

A particle in R^2 travels along a circle centered at (x, y) with radius r > 0. Parametrize this circular path r(t) as a function of the parameter variable t. Please prove that at all t values, the tangent vector r'(t) is orthogonal to the vector r(t) - vector(x, y)

Consider the triangle with vertices (0,0),(3,0),(0,3) and let P be a point chosen uniformly at random...

Consider the triangle with vertices (0,0),(3,0),(0,3) and let P be a point chosen uniformly at random inside the triangle. Let X be the distance from P to (0,0). (i) Is X a random variable? Explain why or why not. (ii) Compute P(X≥0), P(X≥1), P(X≥2), and P(X≤3).

5. Pick a uniformly chosen random point inside the triangle with vertices (0, 0), (3, 0)...

5. Pick a uniformly chosen random point inside the triangle with vertices (0, 0), (3, 0) and (0, 3). (a) What is the probability that the distance of this point to the y-axis is less than 1? (b) (b) What is the probability that the distance of this point to the origin is more than 1?

A particle of mass m moves about a circle of radius R from the origin center,...

A particle of mass m moves about a circle of radius R from the origin center, under the action of an attractive force from the coordinate point P (–R, 0) and inversely proportional to the square of the distance. Determine the work carried out by said force when the point is transferred from A (R, 0) to B (0, R).

Suppose a conducting sphere, radius r2, has a spherical cavity of radius r1 centered at the...

Suppose a conducting sphere, radius r2, has a spherical cavity of radius r1 centered at the sphere's center. At the center of the sphere is a point charge -4Q. Assuming the conducting sphere has a net charge +Q determine the electric field,magnitude and direction, in the following situations: a) From r = 0 to r = r1. b) From r = r1 to r = r2. c) Outside of r = r2 d) find the surface charge density (charge per...