Please graph the solution to Schrodinger's Wave Equation for a particle in free space.

please answer with short verbal comment: can Schrodinger's equation have real wave functions psi(x,t) as solutions?

please answer with short verbal comment: can Schrodinger's equation have real wave functions psi(x,t) as solutions?

1) *Particles & waves in free space* a) Consider a particle with mass m travelling through...

1) *Particles & waves in free space* a) Consider a particle with mass m travelling through free space with velocity v. What is momentum of the particle? What is the kinetic energy of the particle? b) In quantum mechanics, any particle can be represented as a wave. What are the wavelength and frequency associated with the particle in part a? c) Now consider a beam of light propagating in a vacuum. The wavelength of the light is 500nm. What is...

Intro to Quantum Mechanics (Free particle) a). Write the relations between the wave vector and angular...

Intro to Quantum Mechanics (Free particle) a). Write the relations between the wave vector and angular frequency of a free particle and its momentum vector and energy. b) What is the general form in one dimension of the wave function for a free particle of mass m and momentum p? c) Can this wave function ever be entirely real? If so, show how this is possible. If not, explain why not. d) What can you say about the integral of...

Consider the 1D Schrodinger's equation independent of time for the energies E at the interval [0,U]...

Consider the 1D Schrodinger's equation independent of time for the energies E at the interval [0,U] (U>0) of a particle of mass m at a finite potential wall V(x)=U, 0, U, respectively x<0, 0<x<L and x>L. a) The energy espectrum E is continuous or discreet? Why? b) Write the general form of the function waves at the 3 regions. c) Write the equation whose solution gives the energy espectrum. It's not necessary to solve them. d) What happen with the...

A non-relativistic electron in free space has velocity of 105 m/s. If its wave is described...

A non-relativistic electron in free space has velocity of 105 m/s. If its wave is described by a packet, and at t=0s the packet amplitude a(k) = 1 with width Δk centered at ko. a. Calculate its wavelength. b. Write an equation that would allow us to calculate the wave equation from the known shape of a(k), and sketch the resulting wave Ψ(x,0).

At a certain instant in time, the electric field of an electromagnetic wave in free space...

At a certain instant in time, the electric field of an electromagnetic wave in free space points in the -z direction, and the magnetic field points in the +y direction. In what direction is this wave traveling? A) +x direction ___B) -x direction ___ C) +y direction ___D) -z direction ___E) +z direction ___ Please explain why you chose your answer

The state of a particle is completely described by its wave function Ψ(?,?) One-dimensional Schrodinger Equation--...

The state of a particle is completely described by its wave function Ψ(?,?) One-dimensional Schrodinger Equation-- answer the following questions: 2) Show that when U(x) = 0, and , is a solution to the one-?=2??/ℏΨ=?sin??dimensional Schrodinger equation. 3) Show that when U(x) = 0, and , is a solution to the one-?=2??/ℏΨ=?cos??dimensional Schrodinger equation. 4) Show that where A and B are constants is a solution to the Ψ=??+?Schrodinger equation when U(x) = 0, and when E = 0.

A plane electromagnetc sinusoidal wave of frequency 40 MHz tavels free space in the x-direction. at...

A plane electromagnetc sinusoidal wave of frequency 40 MHz tavels free space in the x-direction. at some point and at some instant, the electric field E has its maximum value of 700 N/C and is along the y-axis. (a.) draw an illustration of the electromagnetic wve in a coordinate system, and determine the wavelength and period of the wave. (b.) calculate the magnitude and direction of the magnetic field B when E= 700 N/C in the x-direction. (c) what is...

The E⃗ field in an EM wave in free space has a peak of 22.9 mV/m...

The E⃗ field in an EM wave in free space has a peak of 22.9 mV/m What is the average rate at which this wave carries energy across unit area per unit time?

Please write the equation for magnetic force on a particle. For each option please say whether...

Please write the equation for magnetic force on a particle. For each option please say whether the magnetic field could or could not exert a force on a particle and say why, referencing the magnetic force equation. a) The particle moves perpendicular to the field. b) The particle is at rest. c) The particle is charged. d) The particle moves parallel to the field. e) The magnitude of the magnetic field changes with time.