Show that if both A and B are constants of the motion, they either commute or...

(a) Prove [A, bB+cC] = b[A, B]+c[A, C], where b and c are constants. (b) Prove...

(a) Prove [A, bB+cC] = b[A, B]+c[A, C], where b and c are constants. (b) Prove [AB, C] = A[B, C] +[A, C]B. (c) Use the last relation to work out the commutator [x^2 , p], given that [x, p] = i¯h. (d) Work out the result of [x 2 , p]f(x) directly, by computing the effect of the operators on f(x), and confirm that this agrees with your answer to (c). [12]

Let s follow geometric Brownian motion with expected return µ and volatility σ. Show the process...

Let s follow geometric Brownian motion with expected return µ and volatility σ. Show the process followed by G(s, t) = s(a + bt), where a and b are constants, also follows geometric Brownian motion. Identify the drift and volatility terms. Please show all work

Prove that motions preserve angles. In other words, show that if f is a motion and...

Prove that motions preserve angles. In other words, show that if f is a motion and m and n are straight lines that form an angle of measure α, then f( m) and f( n) are also straight lines that form an angle of measure α.

If a company selects either of Project 1 or Project 2 (or both), then either Project...

If a company selects either of Project 1 or Project 2 (or both), then either Project 3 or Project 4 (or both) must also be selected. Which of the following constraints enforce this condition? a. X1 + X2 ≤ 2(X3 + X4) b. X1 + X2 ≤ X3 + X4 c. X1 − X3 = X2 − X4 d. X1 + X2 + X3 + X4 ≤ 2

a) Use Newton's three laws of motion to show that conservation of momentum. b) Use the...

a) Use Newton's three laws of motion to show that conservation of momentum. b) Use the conservation of momentum to find the velocity of a rocket as it blasts off from the surface of the Earth to a low Earth orbit. The initial velocity is vi = 0. Assume constant gravity.

(a) Use modular arithmetic to show that if an integer a is not divisible by 3,...

(a) Use modular arithmetic to show that if an integer a is not divisible by 3, then a 2 ≡ 1 (mod 3). (b) Use this result to prove that in any Pythagorean triple (x, y, z), either x or y (or both) must be divisible by 3

In a two good, two-country economy with constant marginal opportunity cost, show (mathematically or graphically) that...

In a two good, two-country economy with constant marginal opportunity cost, show (mathematically or graphically) that if neither country can benefit from trade, then it must be the case that (i) neither country has an absolute advantage in either good or (ii) one country has an absolute advantage in both goods. (show both cases)

(a) Write down explicitly the first and second harmonic-oscillator wave functions, including normalization constants (b) Show...

(a) Write down explicitly the first and second harmonic-oscillator wave functions, including normalization constants (b) Show that the second harmonic-oscillator wave function is normalized (c) Show that the two functions in part (a) are orthogonal

Please show the proof that: Either [a]=[b] or [a] *union* [b] = empty set this will...

Please show the proof that: Either [a]=[b] or [a] *union* [b] = empty set this will be proof by contrapositibe but please show work: theorem: suppose R is an equivalence of a non-empty set A. let a,b be within A then [a] does not equal [b] implies that [a] *intersection* [b] = empty set

Master Theorem: Let T(n) = aT(n/b) + f(n) for some constants a ≥ 1, b >...

Master Theorem: Let T(n) = aT(n/b) + f(n) for some constants a ≥ 1, b > 1. (1). If f(n) = O(n logb a− ) for some constant > 0, then T(n) = Θ(n logb a ). (2). If f(n) = Θ(n logb a ), then T(n) = Θ(n logb a log n). (3). If f(n) = Ω(n logb a+ ) for some constant > 0, and af(n/b) ≤ cf(n) for some constant c < 1, for all large n,...