Calculate the amplitude change of the wavefunction of a particle in a wall over the the...

For a particle in a one-dimensional box with the length of 30 Å, its wavefunction is...

For a particle in a one-dimensional box with the length of 30 Å, its wavefunction is ψ1+ψ3. What is the location (except x=0 and x =30 Å) where the probability to find this particle is 0?

Calculate the probability that a particle will be found between 0.49a and 0.5a in a box...

Calculate the probability that a particle will be found between 0.49a and 0.5a in a box of length a when it has: a) n=1 b) n=2 Take the wavefunction to be constant in this small range.

5. The wavefunction of a particle is ?(?) = ??−??/2 for x>0 and ?(?) = ????/2...

5. The wavefunction of a particle is ?(?) = ??−??/2 for x>0 and ?(?) = ????/2 for x<0. Find the corresponding potential energy, constant A, and energy eigenvalue. 6. The hydrogen molecule H2 can be treated as a vibrating system (simple harmonic oscillator), with an effective force constant ? = 3.5 × 10^3 eV/nm2. Compute the zero-point (ground state) energy of one of the protons in H2. How does it compare with the molecular binding energy of 4.5 eV? Compute...

Calculate the probability that a particle will be found in a tiny slice of space between...

Calculate the probability that a particle will be found in a tiny slice of space between 0.59L and 0.61L in a box of length L (defined in the interval (0,L) ) when it is in quantum state n = 3. For simplicity of integration, take the wavefunction to have a constant value equal to its midpoint value in the range given.

Describe briefly what is meant by Free particle Potential Step Potential Well a) particle in a...

Describe briefly what is meant by Free particle Potential Step Potential Well a) particle in a box (infinite wall) b) particle in a finite wall 4.Potential Barrier (Particle tunneling through potential barrier) Give a physical example of each case. Also describe their energy levels.

A particle is in the ground state of an infinite square well. The potential wall at...

A particle is in the ground state of an infinite square well. The potential wall at x = L suddenly (i.e., instantaneously) moves to x = 3L. such that the well is now three times its original size. (a) Let t = 0 be at the instant of the sudden change in the potential well. What is ψ(x, 0)? (b) If you measure the energy of the particle in the new well, what are the possible energies? (c) Estimate the...

Particles of mass m are incident from the positive x axis (moving to the left) onto...

Particles of mass m are incident from the positive x axis (moving to the left) onto a potential energy step at x=0. At the step the potential energy drops from the positive value U_0 for all x>0 to the value 0 for all x<0. The energy of the particles is greater than U_0. A) Sketch the potential energy U(x) for this system. B) How would the wavelength of a particle change in the x<0 region compared to the x>0 region?...

A 11 g particle undergoes SHM with an amplitude of 9.0 mm, a maximum acceleration of...

A 11 g particle undergoes SHM with an amplitude of 9.0 mm, a maximum acceleration of magnitude 6.8 x 103 m/s2, and an unknown phase constant φ. What are (a) the period of the motion, (b) the maximum speed of the particle, and (c) the total mechanical energy of the oscillator? What is the magnitude of the force on the particle when the particle is at (d) its maximum displacement and (e) half its maximum displacement?

A 79 g particle undergoes SHM with an amplitude of 6.9 mm, a maximum acceleration of...

A 79 g particle undergoes SHM with an amplitude of 6.9 mm, a maximum acceleration of magnitude 8.3 x 103 m/s2, and an unknown phase constant φ. What are (a) the period of the motion, (b) the maximum speed of the particle, and (c) the total mechanical energy of the oscillator? What is the magnitude of the force on the particle when the particle is at (d) its maximum displacement and (e) half its maximum displacement?

I want you to compare particle in a box with the Bohr atom. For the particle...

I want you to compare particle in a box with the Bohr atom. For the particle in the box you can assume the size is .5x10^-10 m and the particle that is trapped is an electron. For the Bohr atom consider a hydrogen atom. a.) What is the energy of photon emitted when the electron drops from 3->2 and 2->1 in the particle in a box? b.) What is the energy of photon emitted when the electron drops from 3->2...