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...

A circular region bounded by the uh=nit circle X2 +y2= 1 is rotated about the liner...

A circular region bounded by the uh=nit circle X2 +y2= 1 is rotated about the liner x=4. Find the volume of the solid (doughnut) generate.

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.