3.13. In Section 3.3, the open nature of the CaF2 structure Afon was given credit for the abilityof UO2 to absorb He gas atoms and thereby resist swelling. Confirm that an He atom (diameter = 0.2 nm) can fit in the center of the UO2 unit cell (see Figure 3.10 for the CaF22structure). yobw bas hoy 2. 3.13. In Section 3.3, the open nature of the CaF 2 structure wasgiven credit for the ability of UO 2 to absorb He gas atoms and thereby resist swelling.Confirm that an He atom (diameter = 0.2 nm) can fit in the center of the UO 2 unit cell (seeFigure 3.10 for the CaF 2 structure).

Approach to solving the question:To determine whether a helium (He) atom with a diameter of around…

Answered: 3.13. In Section 3.3, the open nature…

Physical Chemistry

2nd Edition

ISBN:9781133958437

Author:Ball, David W. (david Warren), BAER, Tomas

Publisher:Ball, David W. (david Warren), BAER, Tomas

Chapter22: Surfaces

Section: Chapter Questions

Problem 22.38E

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3) Draw two different projections of a monoclinic unit cell with a = 3 Å, b = 4 Å, c = 5 Å, B = 119⁰. (Don't forget to indicate the basis vectors.) One atom is located at (0.2, 0.3, 0.4), another one at (0.2, 0.7, 0.4). Determine the interatomic distances < 2.5 Å.
Indicate the planes (a) (100), (b) (134), and (c) (102) within a unit cell
Q1/A B) Describe the Bohr model of hydrogen atom. What are the shortcomings of the Bohr model? Prove that the atomic packing factor (APF) for the BCC crystal structure is 0.68.
3- Draw the following planes and directions in a cubic unit cell: (001), (011), (113), [110] [201], [101].
2.4 2.5 The unit cell for Platinum (Pt) has atoms which are located at each of the corners and at the centre of all the unit cell faces. The density and atomic weight of Pt are 21.45 g/cm³ and 195.08 g/mol, respectively. Given that the Avogadro's Number is 6.023 x 1023 atoms/mol, (a) sketch the atomic arrangement on the (010) plane of the unit cell. (b) determine the lattice constant, a of Pt atom. (c) calculate the atomic radius of Pt atom. A sample of BCC iron (Fe) was placed in an X-ray diffractometer using incoming X-rays with a wavelength, λ = 0.1541 nm. Diffraction from the {110} planes was obtained at 20 = 44.704°. Assuming that the order of reflection is 1, calculate: (a) the interplanar spacing of the planes (b) the value for the lattice constant, a for BCC Fe
2- Sketch the following planes and directions within a cubic unit cell: а. [101] b. (011)
Sketch the following planes and directions within a cubic unit cell
2- Sketch the following planes and directions within a cubic unit cell: a. [101] b. (011)
4.50 Sketch the atomic packing of (a) the (100) plane for the BCC crystal structure, and (b) the (201) plane for the FCC crystal structure (similar to Figures 4.206 and 4.216).
X Construct a (2 0 1) plane within the following unit cell. Z
Plz do Asap.....!
2. What are the Miller indices for the directions in the cubic unit cell shown below? B

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