derive linear density for an fcc cubic structure along the 111 direction. please show how you...

derive linear density along 100, 110 and 111 directions for an fcc ans bcc crystal structure...

derive linear density along 100, 110 and 111 directions for an fcc ans bcc crystal structure in terms of r.

Show if lead is an FCC or a BCC crystal structure. Lead (Pb) has an atomic...

Show if lead is an FCC or a BCC crystal structure. Lead (Pb) has an atomic radius of 0.175 nm and a density of 11.35 g/cm3 . Use this information to determine whether it has an FCC or a BCC crystal structure. Please also provide the correct units.

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.

Show all work and diagrams necessary. Please make sure you show how you derive any equations...

Show all work and diagrams necessary. Please make sure you show how you derive any equations you used!!! An initially resting 422 g car is dragged along a horizontal frictionless table by a massless cord. The cord is attached to a vertically hanging unknown mass by a frictionless massless pulley. Given that the car starts from rest, and moves 41 cm in 3.0 s, determine the unknown mass. Please give your solution in grams.

Show all work and diagrams necessary. Please make sure you show how you derive any equations...

Show all work and diagrams necessary. Please make sure you show how you derive any equations you used!!! Which of the following statements best describes "free fall motion." Free fall motion describes any horizontal motion. Free fall motion is two dimensional motion. Free fall motion is a subset of projectile motion. Free fall motion is a subset of circular motion. A body can experience a static friction force in its direction of motion. True False If a normal force is...

Show all work and diagrams necessary. Please make sure you show how you derive any equations...

Show all work and diagrams necessary. Please make sure you show how you derive any equations you used!!! The patented Acme CrateCannon is set up to launch our favorite crate full of fruit horizontally, off of a cliff. The crate starts from rest inside the cannon and experiences a launch force for 1.0 m, until it leaves the end of the cannon. The end of the cannon is positioned directly above the edge of the cliff. Once the crate leaves...

1. Simple Cubic: (Let r = 1.00 A) Show all work. Can you please explain this...

1. Simple Cubic: (Let r = 1.00 A) Show all work. Can you please explain this in detail on how to do this? a) calculation of the length of a face diagonal (F): b) Calculation of the % void space:

please show all work thank you a) Derive the expression for the moment generating function for...

please show all work thank you a) Derive the expression for the moment generating function for the standard normal random variable Z. b) Suppose Z has a standard normal distribution. Use the method of distribution functions or the method of transformations to find the density function of Y = σZ + µ and identify the distribution. c). Using the moment generating function for Z obtained in problem a, find the moment generating function for Y = σZ + µ.

Iridium has a cubic unit celll - body centre cube How many iridium atoms occur in...

Iridium has a cubic unit celll - body centre cube How many iridium atoms occur in each unit cell? and Given the unit cell has a density of 22.56g cm^-3 calculate the atomic radius of the element? Please show all workings thank you.

An infinitely long line of charge has linear charge density 4.00×10^−12 C/m. A proton (mass 1.67×10^−27kg,...

An infinitely long line of charge has linear charge density 4.00×10^−12 C/m. A proton (mass 1.67×10^−27kg, charge +1.60×10^−19 C) is 18.0 cm from the line and moving directly toward the line at 3.80×10^3 m/s. How close does the proton get to the line of charge? Please show all steps CLEARLY so I can follow and understand how to derive the equation and solve for the answer with my given values. Thank you so much in advance!!!