Let a set S1 be the circle x2 + y2 = 1 and let set S2...

The general equation for a circle is a(x2+y2)+bx+cy+d=0. a(x2+y2)+bx+cy+d=0. There is exactly one circle passing through...

The general equation for a circle is a(x2+y2)+bx+cy+d=0. a(x2+y2)+bx+cy+d=0. There is exactly one circle passing through the points (1,1),(−1,−2),(1,1),(−1,−2), and (0,0).(0,0). Find an equation for this circle.

Let ⋆ be an operation on a nonempty set S. If S1, S2 ⊂ S are...

Let ⋆ be an operation on a nonempty set S. If S1, S2 ⊂ S are closed with respect to ⋆, is S1 ∪ S2 closed with respect to ⋆? Justify your answer.

Let S1 and S2 be any two equivalence relations on some set A, where A ≠...

Let S1 and S2 be any two equivalence relations on some set A, where A ≠ ∅. Recall that S1 and S2 are each a subset of A×A. Prove or disprove (all three): The relation S defined by S=S1∪S2 is (a) reflexive (b) symmetric (c) transitive

Let S1 and S2 be any two equivalence relations on some set A, where A ≠...

Let S1 and S2 be any two equivalence relations on some set A, where A ≠ ∅. Recall that S1 and S2 are each a subset of A×A. Prove or disprove (all three): The relation S defined by S=S1∪S2 is (a) reflexive (b) symmetric (c) transitive

Evaluate the line integral of (x2+y2)dx + (5xy)dy over the border of circle x2+y2=4 using Green's...

Evaluate the line integral of (x2+y2)dx + (5xy)dy over the border of circle x2+y2=4 using Green's Theorem.

(3) Let D denote the disk in the xy-plane bounded by the circle with equation y2...

(3) Let D denote the disk in the xy-plane bounded by the circle with equation y2 = x(6−x). Let S be the part of the paraboloid z = x2 +y2 + 1 that lies above the disk D. (a) Set up (do not evaluate) iterated integrals in rectangular coordinates for the following. (i) The surface area of S. (ii) The volume below S and above D. (b) Write both of the integrals of part (a) as iterated integrals in cylindrical...

Let D be the region enclosed by the cone z =x2 + y2 between the planes...

Let D be the region enclosed by the cone z =x2 + y2 between the planes z = 1 and z = 2. (a) Sketch the region D. (b) Set up a triple integral in spherical coordinates to find the volume of D. (c) Evaluate the integral from part (b)

Question 10: Let S1, S2, . . . , S50 be a sequence consisting of 50...

Question 10: Let S1, S2, . . . , S50 be a sequence consisting of 50 subsets of the set {1, 2, . . . , 55}. Assume that each of these 50 subsets consists of at least seven elements. Use the Pigeonhole Principle to prove that there exist two distinct indices i and j, such that the largest element in Si is equal to the largest element in Sj .

Let S = {s1, s2, s3, s4, s5, s6} be the sample space associated with the...

Let S = {s1, s2, s3, s4, s5, s6} be the sample space associated with the experiment having the following probability distribution. (Enter your answers as fractions.) Outcome s1 s2 s3 s4 s5 s6 Probability 3 12 1 12 4 12 1 12 2 12 1 12 (a) Find the probability of A = {s1, s3}. (b) Find the probability of B = {s2, s4, s5, s6}. (c) Find the probability of C = S.

Consider two spheres, S1 with radius R, S2 with radius r, R > r. The distance...

Consider two spheres, S1 with radius R, S2 with radius r, R > r. The distance between their centers is d > r + R. We will place an omnidirectional point source of light on the line joining the centers of S1 and S2 to illuminate both spheres. To make the illuminated surface largest, where should we place the point source? The light always travels in straight line.