Let g(x) = 8x5 − 102x4 + 357x3 + 189x2 − 1508x + 360 Given that...

Let p be an odd prime. Let f(x) ∈ Q(x) be an irreducible polynomial of degree...

Let p be an odd prime. Let f(x) ∈ Q(x) be an irreducible polynomial of degree p whose Galois group is the dihedral group D_2p of a regular p-gon. Prove that f (x) has either all real roots or precisely one real root.

A jar contains three +1, three -1 and four 0. Let Q(x) := a0 + a1...

A jar contains three +1, three -1 and four 0. Let Q(x) := a0 + a1 x + a2 x*x with a0, a1 and a2 drawn from the jar with replacement. a). What is the probability that Q has only one root? b). What is the probability that Q has two real roots? c). Given that Q has two real roots, what’s the probability that both of them are positive?

Let f(x) be a cubic polynomial of the form x^3 +ax^2 +bx+c with real coefficients. 1....

Let f(x) be a cubic polynomial of the form x^3 +ax^2 +bx+c with real coefficients. 1. Deduce that either f(x) factors in R[x] as the product of three degree-one polynomials, or f(x) factors in R[x] as the product of a degree-one polynomial and an irreducible degree-two polynomial. 2.Deduce that either f(x) has three real roots (counting multiplicities) or f(x) has one real root and two non-real (complex) roots that are complex conjugates of each other.

Let f(x) and g(x) be polynomials and suppose that we have f(a) = g(a) for all...

Let f(x) and g(x) be polynomials and suppose that we have f(a) = g(a) for all real numbers a. In this case prove that f(x) and g(x) have exactly the same coefficients. [Hint: Consider the polynomial h(x) = f(x) − g(x). If h(x) has at least one nonzero coefficient then the equation h(x) = 0 has finitely many solutions.]

Consider the polynomial P(x)=−4x5+5x4−4x+5P(x)=−4x5+5x4−4x+5. (a) Verify that 12√(1+i)12(1+i) is a root of P(x)?(?). b) Given that...

Consider the polynomial P(x)=−4x5+5x4−4x+5P(x)=−4x5+5x4−4x+5. (a) Verify that 12√(1+i)12(1+i) is a root of P(x)?(?). b) Given that 12√(1+i)12(1+i) is also a root of P(−x)P(−x), without calculation list 44 distinct roots of P(x)P(x). Explain your answer. (c) Prove that P(x)P(x) has no real roots in (−∞,0](−∞,0] or in [3,∞)[3,∞).

Let ?(?)=2?3−9x^2+3?+4. List all possible rational roots of ?g, according to the Rational Zeros Theorem. You...

Let ?(?)=2?3−9x^2+3?+4. List all possible rational roots of ?g, according to the Rational Zeros Theorem. You must list positive and negative roots separately (there is no ±± in WeBWorK). Separate your list with commas. Factor ? completely: ?(?)=____ The x-intercepts of the graph of ?=?(?) are: Note: Use commas to separate your answers. ?=___ The y-intercept of the graph of ?=?(?) is: ?=____ Select the correct graph of ?=?(?):  ? Graph A Graph B Graph C Graph D Graph E Graph...

Let the conditions of the 360 theorem hold such that ray x, ray y and ray...

Let the conditions of the 360 theorem hold such that ray x, ray y and ray z all have the same end point, none of them are collinear, and that no rays lie in the interior of the other two. The crucial step in the proof of the 360 theorem was that among the opposite rays of x, y and z at least one of these opposite rays goes through the interior formed by the other two rays. Prove that...

Let f: R -> R and g: R -> R be differentiable, with g(x) ≠ 0...

Let f: R -> R and g: R -> R be differentiable, with g(x) ≠ 0 for all x. Assume that g(x) f'(x) = f(x) g'(x) for all x. Show that there is a real number c such that f(x) = cg(x) for all x. (Hint: Look at f/g.) Let g: [0, ∞) -> R, with g(x) = x2 for all x ≥ 0. Let L be the line tangent to the graph of g that passes through the point...

Use the Rational Root Theorem to find all roots of f(x) = 4x 3 − 3x...

Use the Rational Root Theorem to find all roots of f(x) = 4x 3 − 3x + 1.

Let x^4 + px^2 + qx + r = 0 be a given quartic with roots...

Let x^4 + px^2 + qx + r = 0 be a given quartic with roots α1,...,α4. Show that α1 + α2 + α3 + α4 = 0 and that α1 · α2 · α3 · α4 = r. Observe that this implies that if we know any three of the roots, we can deduce what the remaining root is. Define the following three quantities defined in terms of the roots αi: s1 = (α1 −α2 + α3 −α4)/2, s2...