1) Determine the ionic packing factor for the imaginary ceramic XY, which has the structure shown...
Calculate the ionic packing factor and theoretical density of NiO
ceramic. Ionic radius of Ni2+ = 0.078 nm and that of O2- = 0.132
nm. Atomic mass of Ni= 58.69 amu and that of O = 16 amu
Q3) Calculate the lonic Packing Factor and Theoretical Density of NiO ceramic. lonic radius of N0.078 nm and that of O2 0.132 nm. Atomic mass of Ni 58.69 amu and that of O 16.00 amu. (10 pts) Cl
2. Calculate the atomic packing factor of the zinc blend (ZnS) crystal structure. The ZnS unit cell is shown below. (14 marks) The ionic radii of Zn?" and S. are 0.060 and 0.174 nm, respectively, On Os
4.) Given that the ionic radii of cesium and bromine are 0.165 and 0.196 nm respectively, and their atomic weights are 132.91 g/mol and 79.90 g/mol, respectively, a.) find the theoretical lattice parameter for CsBr b.) describe a Schottky defect in this structure, c.) find the ionic packing factor. Although this is not a bcc structure, your result is similar to that found for the atomic packing factor for a bce structure. Why is this So? d.) describe Schottky defects...
3.- The Perovskite structure (CaTiOs) can be described as an FCC packing of Ca2* and O2 ions on which Ti4+ occupies of the octahedral sites, located in the cube center. Data, ionic radii, r(Ca2+)-0.106 nm; r(0%)-0.132 nm; r(Ti4+)-0.036 nm; atomic mass, M(Ca)-40.08; M(O)-16.00; M(Ti)-47.90. Calculate: a) The volume of the unit cell b) The packing factor c) The linear density (ions/nm) in the direction [111] d) The planar density (ions/nm2) in the planes (111) and (200) e) The volumetric density...
1. Compute the percent ionic character of the interatomic bonds for each of the following compounds: TiO2, ZnTe, Csci, InSb, and MgCl2. Calculate the number of vacancies per cubic meter in iron at 850°C. The energy for vacancy formation is 1.08 eV/atom. The density and atomic weight for Fe are 7.65 g/cm3 and 55.85 g/mol, respectively 3. Molybdenum forms a substitutional solid solution with tungsten. Compute the weight percent of molybdenum that must be added to tungsten to yield an...
Q. 3. Potassium fluoride adopts the rock salt (NaCl type) structure, with a density of 2.48 g/cm3. Using the data for the Part 4 model you constructed, calculate the expected distance between the center of the potassium ion and the center of an adjacent fluoride ion in pm. Q. 4. The diameter of a Cs+ ion is 334 pm; the diameter of a Br- ion is 392 pm. For CsBr, which crystallizes in the CsCl type structure from Part 5,...
PLEASE ANSWER ALL OF THE QUESTIONS
Question 1 1 pts Each of three objects has a net charge. Objects A and B repel each other. Objects B and C attract each other. Which one of the following table entries is a possible combination of the signs of the net charges on these three objects? A B с (1) + + - + (2) + + (3) (4) - (5) + - 0 1) 3) 0 (3) and (5) O (1)...
help please?
this was the only other information given
REPORT SHEET Determination of the Solubility-Product Constant for a Sparingly Soluble Salt EXPERIMENT 8 A. Preparation of a Calibration Curve Initial (Cro121 0.0024 M Absorbance 5 mL Volume of 0.0024 M K Cro Total volume 1. I mL 100 mL 2. 100ML 3. 10 mL 100ml 4. 15 mL 100 ML Molar extinction coefficient for [CrO2) [Cro,2) 2.4x100M 12x1044 2.4810M 3.6810M 0.04) 2037.37 0.85 1.13 2. 3. Average molar extinction coefficient...
Based on the document below,
1. Describe the hypothesis Chaudhuri et al ids attempting to
evaluate; in other words, what is the goal of this paper? Why is he
writing it?
2. Does the data presented in the paper support the hypothesis
stated in the introduction? Explain.
3.According to Chaudhuri, what is the potential role of thew
alkaline phosphatase in the cleanup of industrial waste.
CHAUDHURI et al: KINETIC BEHAVIOUR OF CALF INTESTINAL ALP WITH PNPP 8.5, 9, 9.5, 10,...