Find the energy of a ground state (n=1) of a proton in a one dimensional box...

An electron in a one-dimensional box has ground-state energy 1.80 eV . What is the wavelength...

An electron in a one-dimensional box has ground-state energy 1.80 eV . What is the wavelength of the photon absorbed when the electron makes a transition to the second excited state?

When an electron trapped in a one-dimensional box transitions from its n = 2 state to...

When an electron trapped in a one-dimensional box transitions from its n = 2 state to its n = 1 state, a photon with a wavelength of 636.4 nm is emitted. What is the length of the box (in nm)? What If? If electrons in the box also occupied the n = 3 state, what other wavelengths of light (in nm) could possibly be emitted? Enter the shorter wavelength first. shorter wavelength  nmlonger wavelength  nm

An electron confined to a one-dimensional box has energy levels given by the equation En=n2h2/8mL2 where...

An electron confined to a one-dimensional box has energy levels given by the equation En=n2h2/8mL2 where n is a quantum number with possible values of 1,2,3,…,m is the mass of the particle, and L is the length of the box.    Calculate the energies of the n=1,n=2, and n=3 levels for an electron in a box with a length of 180 pm . Enter your answers separated by a comma. Calculate the wavelength of light required to make a transition...

The nuclear potential energy that binds protons and neutrons in a nucleus is often approximated by...

The nuclear potential energy that binds protons and neutrons in a nucleus is often approximated by a square well. Imagine a proton confined in an infinitely high square well of length 10.3 fm, a typical nuclear diameter. Assuming the proton makes a transition from the n = 3 state to the ground state, calculate the following. (a) the energy of the emitted photon (b) the wavelength of the emitted photon (c) Identify the region of the electromagnetic spectrum to which...

An electron is in the ground state of an infinite square well. The energy of the...

An electron is in the ground state of an infinite square well. The energy of the ground state is E1 = 1.39 eV. Use hc=1240 nm eV. (a) What wavelength of electromagnetic radiation would be needed to excite the electron to the n = 3 state?   nm (b) What is the width of the square well? nm

An electron is in the ground state of an infinite square well. The energy of the...

An electron is in the ground state of an infinite square well. The energy of the ground state is E1 = 1.13 eV. (a) What wavelength of electromagnetic radiation would be needed to excite the electron to the n = 7 state? nm (b) What is the width of the square well? nm

A particle of mass m moves in a one-dimensional box of length L, with boundaries at...

A particle of mass m moves in a one-dimensional box of length L, with boundaries at x = 0 nm and x = 5 nm. Thus, V (x) = 0 for 0 ≤ x ≤ 5 nm, and V (x) = ∞ elsewhere. a) Can light excite a particle from its ground state to the fourth excited state? Mathematically support your answer. b) If the optical transition in (a) is possible, what is the required wavelength of light that generates...

An electron is contained in a one-dimensional box of length 0.562 nm. (a) Draw an energy-level...

An electron is contained in a one-dimensional box of length 0.562 nm. (a) Draw an energy-level diagram for the electron for levels up to n = 4. (b) Photons are emitted by the electron making downward transitions that could eventually carry it from the n = 4 state to the n = 1 state. Find the wavelengths of all such photons: λ4 → 3, λ4 → 2, λ4 → 1, λ3 → 2, λ3 → 1, λ2 → 1 {149,...

II(20pts). Short Problems a) The lowest energy of a particle in an infinite one-dimensional potential well...

II(20pts). Short Problems a) The lowest energy of a particle in an infinite one-dimensional potential well is 4.0 eV. If the width of the well is doubled, what is its lowest energy? b) Find the distance of closest approach of a 16.0-Mev alpha particle incident on a gold foil. c) The transition from the first excited state to the ground state in potassium results in the emission of a photon with  = 310 nm. If the potassium vapor is...

4.). An excited electron falls from n=4 to n=2. a.) Calculate the energy change in Joules...

4.). An excited electron falls from n=4 to n=2. a.) Calculate the energy change in Joules associated with this transition b.) what Is the wavelength in nm of the emmitted electromagnetic radiation? what color Is it? c.) calculate the energy change in Kj mol -1.