Need it Fast! In some experiment suggest that metallic has an HCP crystal structure with volume...
1. For zine (Zn) with a perfect HCP crystal structure having a c/a ratio of 1.633 and a density of 7.13 g/cm, (18 marks) a) Show that the volume of the Zn unit cell is given by 6v3R2c. (10 marks) b) Compute the atomic radius for Zn in nm. (8 marks)
1. For zinc (Zn) with a perfect HCP crystal structure having a c/a ratio of 1.633 and a density of 7.13 g/cm'. (18 marks) a) Show that the volume of the Zn unit cell is given by 6V3R'C. (10 marks) b) Compute the atomic radius for Zn in nm. (8 marks)
Magnesium has the HCP crystal structure. Given the data from the previous problem and the fact that we can take the lattice constant in the c-direction to be 0.497, what is the planar packing factor for the (10 -1 0) (... forgive the formating as I cannot do an overbar here) plane?
A hypothetical metal (W) has a body centered cubic crystal structure. Using a metallic radius of 139 pm for the W atom, calculate the density of W in grams per cubic centimeter. (1pm=10-12m) (Atomic weight of W is 183.84 g/mol)
A hypothetical metal (W) has a body centered cubic crystal structure. Using a metallic radius of 139 pm for the W atom, calculate the density of W in grams per cubic centimeter. (1pm=10 m) (Atomic weight of W is 183.84 g/mol) h
2. Consider a single crystal of some hypothetical metal that has the BCC crystal structure and is oriented such that a tensile stress is applied along a [121] direction. If slip occurs on a (101) plane and in a [111] direction, compute the stress at which the crystal yields if its critical resolved shear stress is 2.4MPa.
fast( answer witout steps) 3. Given that aluminum has an FCC crystal structure, if the atomic radius of aluminum is 0.143nm, calculate the volume of its unit cell in cubic meters. (10 points) 期终考试命题稿 4. A specimen of aluminum having a rectangular cross section 10 mm x 12.7 mm is pulled in tension with 35,500 N force, producing only elastic deformation, the elastic modulus for AI is given as 69 GPa (or 69x 10°N/m²). Calculate the resulting strain. (10 points)
The atom radius of copper is r = 0.1278 nm. Its crystal structure has face-centered cubic cells. a) What is the crystal-lattice constant? b) What is the concentration of copper atoms? c) What is the atomic volume (the volume of 1 mol of copper)? answer each part with explanation and shown work
6) A hypothetical metal has the simple cubic crystal structure. If its atomic weight is 70.6 g/mol and the atomic radius is 0.128 nm, compute its theoretical density. (N=6.022 * 1023 atoms/mol) (Theoretical density-mass of atoms in unit cell/total volume of unit cell) 7) Write down the names of each crystal structure given below.
Q1- MgO crystal has FCC structure with lattice dimension of 0.42 nm and the ionic radii of 0.065 nm for Mg and 0.146 nm for 0. Calculate the packing efficiency. Q2- Find the intersects with x,y,z if the Millar indices are (1 1 1) for the cubic cell. Then sketch the plan Q3- What is the lattice dimension for Barquim (Bq) which has simple cubic structure if the molar volume 22.22 cm3 Q4- The spacing of one set of crystal...