Expand in a two-element universe (the elements are named 'a' and 'b') (a) ~(x) ((Fx v...

Expand in a two-element universe. (a) ~(x) ((Fx v Gy) v Ka) (b) (x) ~ (Kx...

Expand in a two-element universe. (a) ~(x) ((Fx v Gy) v Ka) (b) (x) ~ (Kx v Ka) (c) (Ex) (Cy v (Fx --> ~Ga))

Consider two hypothetical elements, X and Z. Element X has an electron affinity of 300 kj/mol...

Consider two hypothetical elements, X and Z. Element X has an electron affinity of 300 kj/mol and element Z has an electrona ffinity of 75 kj/mol. If you have an X- ion and a Z- ion from which ion would it require more energy to remove an electron? Explain. I think it's X but can someone give me a well formulated explanantion or explanations. Thank you!

Let A,BA,B, and CC be sets such that |A|=11|A|=11, |B|=7|B|=7 and |C|=10|C|=10. For each element (x,y)∈A×A(x,y)∈A×A,...

Let A,BA,B, and CC be sets such that |A|=11|A|=11, |B|=7|B|=7 and |C|=10|C|=10. For each element (x,y)∈A×A(x,y)∈A×A, we associate with it a one-to-one function f(x,y):B→Cf(x,y):B→C. Prove that there will be two distinct elements of A×AA×A whose associated functions have the same range.

The joint probability density function of two random variables (X and Y) is given by fX,Y...

The joint probability density function of two random variables (X and Y) is given by fX,Y (x, y) = ( C √y (y ^(α+1)) exp {( − y(2β+x ^2 ) )/2 } , x ∈ (−∞,∞), y ∈ [0,∞), 0 otherwise. (a) Find C. (b) Find the marginal density of Y . What type of distribution does Y follow? (c) Find the conditional density of X | Y . What type of distribution is this?

9. Let S and T be two subspaces of some vector space V. (b) Define S...

9. Let S and T be two subspaces of some vector space V. (b) Define S + T to be the subset of V whose elements have the form (an element of S) + (an element of T). Prove that S + T is a subspace of V. (c) Suppose {v1, . . . , vi} is a basis for the intersection S ∩ T. Extend this with {s1, . . . , sj} to a basis for S, and...

Two Cournot competitors, named firm A & B, each have total cost of 2x^2, where x...

Two Cournot competitors, named firm A & B, each have total cost of 2x^2, where x is a firm’s output choice. Say total demand is X = 400 – P, where P is price. If firm B produces 60 units of output, what is firm A’s optimal output amount? What is the Nash equilibrium pair (xA, xB)? (a.) (45.5, 45.5) (b.) (57.1, 57.1) (c.) (64.5, 64.5) (d.) (69.9, 69.9) Graph it with labels, thanks!

QUESTION 36 Consider two theoretical transposable elements in yeast, A and B. Each contains an intron...

QUESTION 36 Consider two theoretical transposable elements in yeast, A and B. Each contains an intron and each transposed to a new location in the yeast genome. Suppose you then examine the transposons for the presence of the intron. In the new locations, you find that A has no intron but B does. From these facts, what can you conclude about the mechanisms of transposition for the two transposable elements? A. A probably doesn't create a duplication of the host...

1. Given an n-element array A, Algorithm X executes an O(n)-time computation for each even number...

1. Given an n-element array A, Algorithm X executes an O(n)-time computation for each even number in A and an O(log n)-time computation for each odd number in A. What is the best-case running time of Algorithm X? What is the worst-case running time of Algorithm X? 2. Given an array, A, of n integers, give an O(n)-time algorithm that finds the longest subarray of A such that all the numbers in that subarray are in sorted order. Your algorithm...

Bob has a utility function over money v(x) = √ x. There are two possible states...

Bob has a utility function over money v(x) = √ x. There are two possible states of the world 1 and 2. State 1 can occur with probability π1 and state 2 can occur with probability π2 where π2 = 1 − π1. Bob’s wealth levels in the states 1 and 2 will be x1 and x2 respectively. Therefore Bob’s expected utility over the state-contingent consumption bundle is, U((x1, x2); (π1, π2)) = π1 √ x1 + π2 √ x2...