Calculate the temperature where the number of vacancies per cubic meter in iron will be 9.40...

Calculate the equilibrium number of vacancies per cubic meter in gold(Au) at 25(celcius). For gold, the...

Calculate the equilibrium number of vacancies per cubic meter in gold(Au) at 25(celcius). For gold, the energy for vacancy formation is 0.98 eV/atom. Furthermore, the atomic mass and the theoretical density for gold are 196.9 g/mol and 19.32 g/cm^3(at 25 celcius), respectively.

The energy for vacancy formation in Al is 0.66 eV. Calculate the number of vacancies in...

The energy for vacancy formation in Al is 0.66 eV. Calculate the number of vacancies in a 1 cm3 of Al at 300°C and 600°C

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

Compute the concentration (number density, count per volume) of vacancies in copper at room temperature if...

Compute the concentration (number density, count per volume) of vacancies in copper at room temperature if the lattice parameter of FCC copper is 0.3615 nm at room temperature (25oC, 298 K), and the activation energy to form a single vacancy is 0.9 eV. Use 8.617x10-5 eV/(atom-K), exactly, as Boltzmann's Constant. Note: You could look up the density and atomic weight of copper to compute the intermediate value of atom concentration you need for this problem. But here I give you...

--Given Values-- Atomic Radius (nm) = 0.116 FCC Metal = Gold BCC Metal: = Sodium Temperature...

--Given Values-- Atomic Radius (nm) = 0.116 FCC Metal = Gold BCC Metal: = Sodium Temperature ( C ) = 1017 Metal A = Tin Equilibrium Number of Vacancies (m-3) = 6.02E+23 Temperature for Metal A = 369 Metal B = Gallium 1) If the atomic radius of a metal is the value shown above and it has the face-centered cubic crystal structure, calculate the volume of its unit cell in nm3? Write your answers in Engineering Notation.          ...

Calculate the energy (in eV/atom) for vacancy formation in some metal, M, given that the equilibrium...

Calculate the energy (in eV/atom) for vacancy formation in some metal, M, given that the equilibrium number of vacancies at 476oC is 3.61E+23 m-3. The density and atomic weight for this metal are 20.1 g/cm3 and 92.40 g/mol, respectively.

(a) Calculate the activation energy, QV, for vacancy formation in silver, given that the equilibrium number...

(a) Calculate the activation energy, QV, for vacancy formation in silver, given that the equilibrium number of vacancies at 1073°K is 3.6 x 1023 m-3. The atomic weight and density (at 1073°K) of silver are, respectively, 107.9 g/mol and 9.5 g/cm3 . (b) Suppose that CaO is added as an impurity to Li2O. If the Ca2+ substitutes for Li+ , what kind of vacancies would you expect to form? How many of these vacancies are created for every Ca2+ added?

Calculate the number of atoms per unit cell in (a) Aluminum (FCC) (b) Alpha-iron (BCC)

Calculate the number of atoms per unit cell in (a) Aluminum (FCC) (b) Alpha-iron (BCC)

Calculate the number of broken bonds per square centimeter for Ge (which has a diamond cubic...

Calculate the number of broken bonds per square centimeter for Ge (which has a diamond cubic structure except all the atoms are are identical) for the (100) and (111) surfaces. Which surface do you think has the lower surface energy? Why? The lattice constant of Ge is 0.565 nm, and its density is 5.32 g/cm^3.

1. The maximum weight percentage of carbon atoms (which are very small atoms) that can be...

1. The maximum weight percentage of carbon atoms (which are very small atoms) that can be contained in spaces between the iron atoms in a crystal of face-centered cubic iron at 1333 deg F (723 degC) is 0.8%C. (a) To what approximate atomic percentage does this correspond? (b) On the average, how many unit cells of face-centered cubic iron would have to be examined before encountering a carbon atom? 2. (a) Briefly explain the concept of driving force. (b) What...