1. Prove that every quadratic polynomial has two complex solutions 2.Use properties of addition and multiplication...

Prove S is a ring given s={1,2,3,4} The addition Chart looked like this + 1 2...

Prove S is a ring given s={1,2,3,4} The addition Chart looked like this + 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 1 2 3 4 The multiplication chart looked like this but i dont remember the middle numbers X 1 2 3 4 1 4 2 4 3 4 4 4 4 4 4 This is a question i had on a test but cant remember what...

Use a graphing utility to determine the number of real solutions of the quadratic equation. 1/3x^2...

Use a graphing utility to determine the number of real solutions of the quadratic equation. 1/3x^2 − 5x + 27 = 0

Consider the set Q(√3) ={a+b√3| a,b∈Q}. We have the associative properties of usual addition and usual...

Consider the set Q(√3) ={a+b√3| a,b∈Q}. We have the associative properties of usual addition and usual multiplication from the field of real number R. a)Show that Q (√3) is closed under addition, contains the additive identity (0,zero) of R, each element contains the additive inverses, and say if addition is commutative. What does this tell you about (Q(√3,+)? b) Prove that Q(√3) is a commutative ring with unity 1 c) Prove that Q(√3) is a field by showing every nonzero...

Show 2 different solutions to the task. Prove that for every integer n (...-3, -2, -1,...

Show 2 different solutions to the task. Prove that for every integer n (...-3, -2, -1, 0, 1, 2, 3, 4...), the expression n2 + n will always be even.

. In this question, i ? C is the imaginary unit, that is, the complex number...

. In this question, i ? C is the imaginary unit, that is, the complex number satisfying i^2 = ?1. (a) Verify that 2 ? 3i is a root of the polynomial f(z) = z^4 ? 7z^3 + 27z^2 ? 47z + 26 Find all the other roots of this polynomial. (b) State Euler’s formula for e^i? where ? is a real number. (c) Use Euler’s formula to prove the identity cos(2?) = cos^2 ? ? sin^2 ? (d) Find...

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.

****Please show me 2 cases for the proof, one is using n=1, another one is n=2,...

****Please show me 2 cases for the proof, one is using n=1, another one is n=2, otherwise, you answer will be thumbs down****Hint: triangle inequality. Don't copy the online answer because the question is a little bit different use induction prove that for any n real numbers, |x1+...+xn| <= |x1|+...+|xn|. Case1: show me to use n=1 to prove it, because all the online solutions are using n=2 Case2: show me to use n=2 to prove it as well.

1. Assume 2 particles L = .5m1(x1^2+y1^2+z1^2)+.5m2(x2^2+y2^2+z2^2)-V(x1-x2) a. Define momentum and show that it's conserved b....

1. Assume 2 particles L = .5m1(x1^2+y1^2+z1^2)+.5m2(x2^2+y2^2+z2^2)-V(x1-x2) a. Define momentum and show that it's conserved b. Show that Newton's Third Law holds 2. Find the equation to represent the difference in ages of the two twins in the twin paradox. 3.V,U in x direction. Galilean addition Vt=V+U. Using Lorentz Transforms prove Vvel=(V+U)/(1+(UV/C2)

Exercise1.2.1: Prove that if t > 0 (t∈R), then there exists an n∈N such that 1/n^2...

Exercise1.2.1: Prove that if t > 0 (t∈R), then there exists an n∈N such that 1/n^2 < t. Exercise1.2.2: Prove that if t ≥ 0(t∈R), then there exists an n∈N such that n−1≤ t < n. Exercise1.2.8: Show that for any two real numbers x and y such that x < y, there exists an irrational number s such that x < s < y. Hint: Apply the density of Q to x/(√2) and y/(√2).

Problem 8. Suppose that H has index 2 in G. Prove that H is normal in...

Problem 8. Suppose that H has index 2 in G. Prove that H is normal in G. (Hint: Usually to prove that a subgroup is normal, the conjugation criterion (Theorem 17.4) is easier to use than the definition, but this problem is a rare exception. Since H has index 2 in G, there are only two left cosets, one of which is H itself – use this to describe the other coset. Then do the same for right 1 cosets....