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Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics PDF Download

Q.1. The needle on a broken car speedometer is free to swing, and bounces perfectly off the pins at either end, so that if you give it a flick it is equally likely to come to rest at any angle between 0 and π
(a) What is the probability density, f (θ) ?
(b) Compute (θ),(θ2) and σ =Δθ , for this distribution

f (θ) =A ,0 <θ < π

Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics


Q.2. (a) If  φ( θ,φ)  = A  find the value of A such that φ1( θ,φ) is normalized.
(b)  Prove that Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics is orthogonal to φ
1

The wave function φ1( θ,φ) = A is defined in spherical symmetry variable is solid angle
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics


Q.3. Consider the function Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics where λ and ω are constant. Find the value of A such that ψ(x, t ) is normalized.

Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics

Q.4. if Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
(a) Find normalization constant A, B, C for ketApplication of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
(b) Prove that Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics are orthogonal
(c) Check whether Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics are linearly independent or not.
(d) Write Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
(e) Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics then find value of C such that |ψ⟩ is normalized
(f) If operator A is defined as A |χn = na|χn⟩ where n = 1, 2, 3... then find value of A |ψ⟩
(g) If operator A is defined as A |χnna|χn⟩ where n = 1, 2, 3... then find value of ⟨ χ2|A |ψ⟩
(h) If operator A is defined as A |χnna|χn⟩ where n = 1, 2, 3... then find value of ⟨ ψ|A |ψ⟩

Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
then
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
(a)
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
(b)
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics 
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
(c)
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
c1 = 0 c2 +c3= 0 and c2 -c3= 0 ⇒ c1 = 0,c2 = 0,c3 = 0
So |ϕ1⟩, |ϕ2⟩ and |ϕ3⟩ are linearly independent
(d)
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics in basis of  

Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
(e)
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
(f)
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
(g)
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
(h)
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics


Q.5. Consider the Gaussian probability distribution Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics where -∞ < x < ∞ where A, a and λ are positive real constants.
(a) Determine A such that f(x) is probability density
(b) Find x, x2  and σ =Δx
(c) Sketch the graph of f (x)

(a)
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
(c)
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics


Q.6. If Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics, then
(a)  Find the value of A such that | ϕn⟩ is normalized
(b) ⟨ϕmn⟩ = δm,n
(c) If H operator is defined as Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics then  prove that the matrix element 

Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics

(a)
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
(b)
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
= Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
For m =n
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
(c)
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics
Application of Quantum Mechanics in Cartesian Coordinate: Assignment | Modern Physics

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