An electron in a 10.1-nm one-dimensional box is excited from the ground state into a higher-energy...
An electron in the hydrogen atom make a transition from the ground state to an excited level by absorbing energy from a photon. The wavelength of the photon is 95.0 nm. What is the final level that the electron can reach?
electron excited from lower orbit to higher orbit and returns back to ground state from excited state with a life time of 1 nanosecond by emitting a photon of wavelength 600 nm. calculate uncertainty in the energy of the excited state also calculate percentage uncertainty if
Part A Find the excitation energy from the ground level to the third excited level for an electron confined to a box that has a width of 0.127 nm ΔΕ : SubmitP X Incorrect; Try Again; 5 attempts remaining Part B The electron makes a transition from the n-1 to n-4 level by absorbing a photon. Calculate the wavelength of this photon SubmitPr Previous Answers Request Answer
7. We have an electron trapped in a one dimensional box, and is excited to the 2nd (n = 2) state. What will be the length of the box if our electron has the same energy as a violet photon (404 nm)?
An electron confined to a one-dimensional box has a ground-state energy of 35.0 eV. If the box were somehow made twice as long, how would the photon's energy change for the same transition (first excited state to ground state)? o O increase the energy to three times as much as before o reduce the energy to one third as much as before o reduce the energy to one fourth as much as before o ) reduce the energy to one...
An electron is confined in the ground state in a one-dimensional box of width 10-10 m. Its energy is known to be 38 eV. (a) Calculate the energy of the electron in its first and second excited states (b) Sketch the wave functions for the ground state, the first and the second excited states (c) Estimate the average force (in Newtons) exerted on the walls of the box when the electron is in the ground state. (d) Sketch the new...
The electron from a hydrogen atom drops from an excited state into the ground state. When an electron drops into a lower-energy orbital, energy is released in the form of electromagnetic radiation. How much energy does the electron have initially in the n=4 excited state?
An electron in the Hydrogen atom is in the excited state with energy E2. a) According to the Bohr model, what is the radius of the atom in this state, in Angstroms? b) What is the wavelength le of the electron, in Angstroms? c) What is the momentum of the electron, in kg-m/s ? d) This atom decays from the excited state with energy E2 to the ground state with energy E1 . What is the energy of the emitted photon?...
4. An electron is in a one-dimensional box in the n-1 state. Its energy is equal to that of a 600 nm photon. a. What is the energy of the photon? b. What is the length of the box if the electron has the same energy of the photon? c. What is the lowest energy possible for a proton in this box?
2. (a) When a particle of mass 1.0 x 10-26 g in a one-dimensional box goes from the n=3 level to n=1 level, it emits a radiation with frequency 5.0 x 1014 Hz. Calculate the length of the box. (b) Suppose that an electron freely moves around inside of a three-dimensional rectangular box with dimensions of 0.4 nm (width), 0.4 nm (length), and 0.5 nm (height). Calculate the frequency of the radiation that the electron would absorb during its transition...