(i) Given a cubic crystal. Derive a general relationship between interplanar spacing dhkl and lattice constant...

A certain crystal has lattice parameters of 4.24, 10.00 and 3.66 Å on X, Y, Z...

A certain crystal has lattice parameters of 4.24, 10.00 and 3.66 Å on X, Y, Z axes respectively. Determine the Miller indices of a plane having intercepts of 2.12, 10 and 1.83 Å on the X, Y and Z axes. (b) Calculate the miller indices for the plane with X, Y, Z intercepts of 2, - 3 and 4 the along the crystallographic axes. (c) Germanium (Ge) has the diamond cubic crystal structure as shown in Figure 1. It has...

(a) Using the method in Example 8.3, find the distance between the family of lattice planes...

(a) Using the method in Example 8.3, find the distance between the family of lattice planes with Miller indices [210] for a simple cubic lattice. (b) You have a simple cubic crystal with lattice constant of 0.3nm oriented with the surface of the crystal is parallel with the (100) planes. Calculate the angle an x-ray beam of wavelength 0.154nm needs to make with the surface of the crystal to produce a diffraction maximum from the [210] planes.

Hetero atom (1) calculate radius of atom which forms simple cubic crystal structure. Lattice constant=4.0Å (2)...

Hetero atom (1) calculate radius of atom which forms simple cubic crystal structure. Lattice constant=4.0Å (2) calculate radius of atom which forms HCP crystal structure. Lattice constant a=3.0Å (3) calculate nuclear distance of body-centered tetragonal(Lattice constant a=b=5Å, c=6Å), and atomic packing factor.

A metal has an face-centered cubic (f. c. c.) Bravais lattice or A1 crystal structure. The...

A metal has an face-centered cubic (f. c. c.) Bravais lattice or A1 crystal structure. The lattice constant is 0.38 nm (0.38 x 10-9 m) and the atomic weight of the atoms is 85 gram/mole. (12 points) a) What is the density of this metal? b) What is the distance between neighboring atoms? c) The metal is cut so that the (111) is exposed on the surface. Draw the arrangement of atoms you would see if you looked at this...

CsCl has an ordered body centred cubic crystal structure with the Cs atom at position 0,0,0...

CsCl has an ordered body centred cubic crystal structure with the Cs atom at position 0,0,0 and the Cl atom at position ½, ½, ½ in the unit cell. State the general rules for the CsCl structure factor. List the Miller indices of the planes from which a diffracted beam is produced up to (320). Given that the atomic scattering factor for Cs is 1.5 times that of Cl, indicate which diffracted beams will be visible in an x-ray diffraction...

Consider a simple cubic with a 6.0 Å lattice constant. The measurements of X-ray scattering from...

Consider a simple cubic with a 6.0 Å lattice constant. The measurements of X-ray scattering from the powder sample are carried out with a 1.5 Å X-ray source. (a) Using the diffraction condition relating G (a reciprocal lattice vector), k (the wave vector of the incident X-ray), and k' (the wave vector of the scattered X-ray) derive a relationship between |G|, |k|, and the scattering angle θ. (b) Write a symbolic expression for |G|. (c) Use the results of parts...

Germanium has a lattice constant of 0.565 nm.    a) Draw the portion of the (110) plane...

Germanium has a lattice constant of 0.565 nm.    a) Draw the portion of the (110) plane that resides inside a cubic unit cell flat on the page. Label the lengths of the edges. Show the arrangement of atoms whose centers lie on the plane and label the distances between the centers of the nearest neighbor atoms on the plane. Determine the value of the atomic radius. b) Calculate the planar atomic density of atoms on the (110) plane in atoms/cm2....

Part I In the first part of this homework, you are going to derive a relationship...

Part I In the first part of this homework, you are going to derive a relationship between pressure, temperature and height in the atmosphere. The equation that you will derive is called the Hypsometric Equation (or sometimes the Thickness Equation) and it has practical uses as well as being helpful for understanding why the general air flow in the midlatitudes is from the west so once you have derived the equation, you will apply it to a real-life example. Begin...

I am having trouble understanding the relationship between slit width, slit spacing and wavelength with the...

I am having trouble understanding the relationship between slit width, slit spacing and wavelength with the pattern of waves on the screen. What does it mean for a slit width to be greater/less than the wavelength of light? What does it mean for the spacing between two slits being larger/less than the slit width? Here's an example of a problem I can't figure out: In a two-slit interference pattern, a minimum between the m = 3 and m = 4...

To understand the relationship between the equilibrium constant and rate constants. For a general chemical equation...

To understand the relationship between the equilibrium constant and rate constants. For a general chemical equation A+B⇌C+D the equilibrium constant can be expressed as a ratio of the concentrations: Kc=[C][D][A][B] If this is an elementary chemical reaction, then there is a single forward rate and a single reverse rate for this reaction, which can be written as follows: forward ratereverse rate==kf[A][B]kr[C][D] where kf and kr are the forward and reverse rate constants, respectively. When equilibrium is reached, the forward and...