In a material with a cubic structure let density be 0.855 mg/m3, atomic mass=39.09 gr /...

The density of a uniform crystal structure can be estimated from the crystal type and information...

The density of a uniform crystal structure can be estimated from the crystal type and information about the lattice parameter and atomic radii. Estimate the density of a material (gram/cm3) for a material with these properties: Atomic Radius = 0.1281 nm Crystal Type = FCC atomic Mass = 47 grams/mol (Note: Avogadro's Number , 6.022x10^23 atoms/mol)

We can estimate the physical density of any material based on the unit cell, the known...

We can estimate the physical density of any material based on the unit cell, the known size of the atoms it encompasses, and their atomic mass. Since density=mass/volume, for the mass in the unit cell we simply need to determine the number of atoms per cell * their mass from the periodic table / Avogadro’s number. For the volume of the unit cell, we just need to determine the lattice parameter of the unit cell (a) following the same rules...

Consider a hypothetical metal that has a simple cubic structure, a density of 9.62 g/cm3, and...

Consider a hypothetical metal that has a simple cubic structure, a density of 9.62 g/cm3, and an atomic weight of 90.5 g/mol. If, at the melting temperature, one out of every 104 atom sites is a vacancy, determine the number of vacancies in one cubic meter of this material. Assume that the energy for the vacancy formation is 96,000 J/mol. Answer should be in units of vacancies/m^3

Iron (Fe) crystallizes in a body-centered cubic structure with a lattice constant of 0.287 nm: Use...

Iron (Fe) crystallizes in a body-centered cubic structure with a lattice constant of 0.287 nm: Use drawing to show how the iron atoms are packed in the unit cell. How many iron atoms are contained in each unit cell?         Use drawings to show how the iron atoms are arranged on the (100) and (110) planes.                    Determine the density of iron (g/cm3) by dividing the total mass of iron atoms in the unit cell by the volume of the unit cell....

Iron (Fe) crystallizes in a body-centered cubic structure with a lattice constant of 0.287 nm: a....

Iron (Fe) crystallizes in a body-centered cubic structure with a lattice constant of 0.287 nm: a. Use drawing to show how the iron atoms are packed in the unit cell. How many iron atoms are contained in each unit cell?         b. Use drawings to show how the iron atoms are arranged on the (100) and (110) planes.        c. Determine diameter of iron atom    d. Determine the density of iron (g/cm3) by dividing the total mass of iron atoms in...

Iron (Fe) crystallizes in a body-centered cubic structure with a lattice constant of 0.287 nm: a....

Iron (Fe) crystallizes in a body-centered cubic structure with a lattice constant of 0.287 nm: a. Use drawing to show how the iron atoms are packed in the unit cell. How many iron atoms are contained in each unit cell?         b. Use drawings to show how the iron atoms are arranged on the (100) and (110) planes.        c. Determine diameter of iron atom    d. Determine the density of iron (g/cm3) by dividing the total mass of iron atoms in...

1) For a metal that has the face-centered cubic (FCC) crystal structure, calculate the atomic radius...

1) For a metal that has the face-centered cubic (FCC) crystal structure, calculate the atomic radius if the metal has a density of (8.000x10^0) g/cm3 and an atomic weight of (5.80x10^1) g/mol.  Express your answer in nm. 2) Consider a copper-aluminum solid solution containing (7.82x10^1) at% Al. How many atoms per cubic centimeter (atoms/cm^3) of copper are there in this solution? Take the density of copper to be 8.94 g/cm3 and the density of aluminum to be 2.71 g/cm3.

Aluminium adopts the face centred cubic lattice and its atomic mass is 27 amu. The planes...

Aluminium adopts the face centred cubic lattice and its atomic mass is 27 amu. The planes of aluminium diffract Cu K alpha radiation (lamba = 0.15418 nm) at a Bragg angle of 19.25 degrees. Calculate the density in g. cm^3. (Hint: What is the integer number of atoms represented inside the volume of the unit cell?)

Calculate the theoretical density of an unidentified atom that has an HCP crystal structure if the...

Calculate the theoretical density of an unidentified atom that has an HCP crystal structure if the lattice constants are a = 300 pm and c = 450 pm. Atomic weight of the atom is 45.2 g/mol. Avogadro's number = 6.023 x 1023 atoms/mole.

Determine the density (in g/cm3) of a hypothetical AX compound with a zinc-blende structure (CN=4) and...

Determine the density (in g/cm3) of a hypothetical AX compound with a zinc-blende structure (CN=4) and a lattice parameter of 0.582 nm. The atomic weights of the ions are given below. (answer format X.XX) cation: A = 56.5 g/mol anion: A = 25.1 g/mol