A beam of electrons with energy 150 eV is incident on a sample of polycrystalline Cu....

a beam of electrons with kinetic energy 106 eV is incident on a 100 eV deep...

a beam of electrons with kinetic energy 106 eV is incident on a 100 eV deep potential well of width L. Is there any value of L that will lead to a 50% reflection ?

A beam of 1,000,000 electrons, each with kinetic energy E = 1.0 eV, is incident on...

A beam of 1,000,000 electrons, each with kinetic energy E = 1.0 eV, is incident on a potential barrier with the height V0 = 7.0 eV. (a) How many electrons in the beam will be transmitted through the barrier if the barrier width a = 0.25 nm? (b) Answer the same question if the width is doubled, that is, a = 0.5 nm. (c) Briefly explain the effect of the barrier width in quantum tunneling, based on your results in...

Diffraction by Copper Metallic Copper (Cu) has a fcc lattice. (a) Show that the constructive interference...

Diffraction by Copper Metallic Copper (Cu) has a fcc lattice. (a) Show that the constructive interference of structure factor for a f.c.c. lattice is 4f, where f is the atomic form factor for copper. [8] (b) Calculate the structure-factor for the Bragg reflections (100), (110), (111), (200) assuming an atomic form factor of fCu independent of the scattering wavevector k. [5] (c) Calculate the three smallest diffraction angles for X-rays with energy of 8048 eV and a lattice constant of...

A monoenergetic beam of electrons is incident on a single slit of width 8.0 Angstroms ....

A monoenergetic beam of electrons is incident on a single slit of width 8.0 Angstroms . A diffraction pattern is formed on a screen 30 cm from the slit. If the distance between successive minima of the diffraction pattern is 3.2 cm, what is the energy of the incident electron? answer is 13 ev, how do you get it? I keep getting 209 eV

a) Electrons with an energy of 0.842 eV are incident on a double slit in which...

a) Electrons with an energy of 0.842 eV are incident on a double slit in which the two slits are separated by 40.0 nm. What is the speed of these electrons? _______ m/s b) Electrons with an energy of 0.842 eV are incident on a double slit in which the two slits are separated by 40.0 nm. What is the de Broglie wavelength (in nanometers!) of these electrons? _______ nm c) Electrons with an energy of 0.842 eV are incident...

For the arrangement of Figure (a) and Figure (b), electrons in the incident beam in region...

For the arrangement of Figure (a) and Figure (b), electrons in the incident beam in region 1 have energy E = 836 eV and the potential step has a height of U1 = 627 eV. What is the angular wavenumber in (a) region 1 and (b) region 2? (c) What is the reflection coefficient? (d) If the incident beam sends 5.60 × 105 electrons against the potential step, approximately how many will be reflected? (a)

A beam of electrons, each with energy E=0.1V0 , is incident on a potential step with...

A beam of electrons, each with energy E=0.1V0 , is incident on a potential step with V0 = 2 eV. This is of the order of magnitude of the work function for electrons at the surface of metals. Calculate and graph (at least 5 points) the relative probability |Ψ2|^2 of particles penetrating the step up to a distance x = 10-9 m, or roughly five atomic diameters. (Hint: assume A=1.)

A beam of electrons with kinetic energy 25 eV encounter a potential barrier of height 20...

A beam of electrons with kinetic energy 25 eV encounter a potential barrier of height 20 eV. Some electrons reflect from the barrier, and some are transmitted. Find the wave number k of the transmitted electrons. You can take U = 0 for x < 0, and U = 15 eV for x > 0

A beam of monochromatic (same-energy) electrons of wavelength λ = 10-12[m] encounters slits of width d...

A beam of monochromatic (same-energy) electrons of wavelength λ = 10-12[m] encounters slits of width d = 1.9×10-10[m]. This corresponds to the scattering we get in an electron microscope when the electrons pass between rows of atoms. A. Find the scattering angle θ at which the first order diffraction maximum is created, e.g. by assuming for most small-angle diffraction processes that θ ≅ λ/d ≅ g/L. ​​​​​​​B. Find the separation g between the unscattered beam and this first order maximum,...

1. A powder diffraction pattern is recorded on a sample of an unknown elemental substance known...

1. A powder diffraction pattern is recorded on a sample of an unknown elemental substance known to have cubic symmetry. Cu K-alpha x-rays (wavelength of 0.154 nm) are used and the θ values of the first 7 peaks are 14.22°, 23.64°, 28.05°, 34.55°, 38.17°, 43.99° and 47.45°. (a) What are the lengths of the reciprocal lattice vectors (or change in x-ray wave-vector) corresponding to these Bragg angles? (b) For a cubic structure, these lengths should be equal to (2*Pi/a)(h 2...