- 3.3.1: What is the difference between atomic structure and crystal structure?
- 3.3.2: If the atomic radius of lead is 0.175 nm, calculate the volume of i...
- 3.3.3: Show for the body-centered cubic crystal structurethat the unit cel...
- 3.3.4: For the HCP crystal structure, show that the idealc/a ratio is 1.633.
- 3.3.5: Show that the atomic packing factor for BCC is 0.68.
- 3.3.6: Show that the atomic packing factor for HCP is 0.74.
- 3.3.7: Molybdenum (Mo) has a BCC crystal structure, an atomic radius of 0....
- 3.3.8: Strontium (Sr) has an FCC crystal structure, an atomic radius of 0....
- 3.3.9: Calculate the radius of a palladium (Pd) atom, given that Pd has an...
- 3.3.10: Calculate the radius of a tantalum (Ta) atom, given that Ta has a B...
- 3.3.11: A hypothetical metal has the simple cubic crystal structure shown i...
- 3.3.12: Titanium (Ti) has an HCP crystal structure and a density of 4.51 g/...
- 3.3.13: Magnesium (Mg) has an HCP crystal structure and a density of 1.74 g...
- 3.3.14: Using atomic weight, crystal structure, and atomic radius data tabu...
- 3.3.15: Niobium (Nb) has an atomic radius of 0.1430 nm and a density of 8.5...
- 3.3.16: The atomic weight, density, and atomic radius for three hypothetica...
- 3.3.17: The unit cell for uranium (U) has orthorhombic symmetry, with a, b,...
- 3.3.18: Indium (In) has a tetragonal unit cell for which the a and c lattic...
- 3.3.19: Beryllium (Be) has an HCP unit cell for which the ratio of the latt...
- 3.3.20: Magnesium (Mg) has an HCP crystal structure, a c/a ratio of 1.624, ...
- 3.3.21: Cobalt (Co) has an HCP crystal structure, an atomic radius of 0.125...
- 3.3.22: Iron (Fe) undergoes an allotropic transformation at 912C: upon heat...
- 3.3.23: The accompanying figure shows a unit cell for a hypothetical metal....
- 3.3.24: Sketch a unit cell for the face-centered orthorhombic crystal struc...
- 3.3.25: List the point coordinates for all atoms that are associated with t...
- 3.3.26: List the point coordinates of both the sodium (Na) and chlorine (Cl...
- 3.3.27: List the point coordinates of both the zinc (Zn) and sulfur (S) ato...
- 3.3.28: Sketch a tetragonal unit cell, and within that cell indicate locati...
- 3.3.29: Sketch an orthorhombic unit cell, and within that cell indicate loc...
- 3.3.30: Using the Molecule Definition Utility found in the Metallic Crystal...
- 3.3.31: Draw an orthorhombic unit cell, and within that cell, a [2 1 1] dir...
- 3.3.32: Sketch a monoclinic unit cell, and within that cell, a [1 0 1] dire...
- 3.3.33: What are the indices for the directions indicated by the two vector...
- 3.3.34: Within a cubic unit cell, sketch the following directions: (a) [101...
- 3.3.35: Determine the indices for the directions shown in the following cub...
- 3.3.36: Determine the indices for the directions shown in the following cub...
- 3.3.37: (a) What are the direction indices for a vector that passes from po...
- 3.3.38: (a) What are the direction indices for a vector that passes from po...
- 3.3.39: For tetragonal crystals, cite the indices of directions that are eq...
- 3.3.40: Convert the [110] and [001] directions into the four-index MillerBr...
- 3.3.41: Determine the indices for the directions shown in the following hex...
- 3.3.42: Sketch the [0110] and [2 2 4 3] directions in a hexagonal unit cell.
- 3.3.43: Using Equations 3.11a3.11d, derive expressions for each of the thre...
- 3.3.44: a) Draw an orthorhombic unit cell, and within that cell, a (021) pl...
- 3.3.45: What are the indices for the two planes drawn in the following sketch?
- 3.3.46: Sketch within a cubic unit cell the following planes: (a) (101) (e)...
- 3.3.47: Determine the Miller indices for the planes shown in the following ...
- 3.3.48: Determine the Miller indices for the planes shown in the following ...
- 3.3.49: Determine the Miller indices for the planes shown in the following ...
- 3.3.50: Cite the indices of the direction that results from the intersectio...
- 3.3.51: Sketch the atomic packing of the following: (a) The (100) plane for...
- 3.3.52: Consider the reduced-sphere unit cell shown in 3.23, having an orig...
- 3.3.53: The accompanying figure shows three different crystallographic plan...
- 3.3.54: The accompanying figure shows three different crystallographic plan...
- 3.3.55: Convert the (111) and (012) planes into the fourindex MillerBravais...
- 3.3.56: Determine the indices for the planes shown in the following hexagon...
- 3.3.57: Sketch the (0111) and (21 10) planes in a hexagonal unit cell.
- 3.3.58: (a) Derive linear density expressions for FCC [100] and [111] direc...
- 3.3.59: (a) Derive linear density expressions for BCC [110] and [111] direc...
- 3.3.60: (a) Derive planar density expressions for FCC (100) and (111) plane...
- 3.3.61: (a) Derive planar density expressions for BCC (100) and (110) plane...
- 3.3.62: (a) Derive the planar density expression for the HCP (0001) plane i...
- 3.3.63: Explain why the properties of polycrystalline materials are most of...
- 3.3.64: The interplanar spacing dhkl for planes in a unit cell having ortho...
- 3.3.65: Using the data for aluminum in Table 3.1, compute the interplanar s...
- 3.3.66: Using the data for a-iron in Table 3.1, compute the interplanar spa...
- 3.3.67: Determine the expected diffraction angle for the first-order reflec...
- 3.3.68: Determine the expected diffraction angle for the first-order reflec...
- 3.3.69: The metal rhodium (Rh) has an FCC crystal structure. If the angle o...
- 3.3.70: The metal niobium (Nb) has a BCC crystal structure. If the angle of...
- 3.3.71: For which set of crystallographic planes will a firstorder diffract...
- 3.3.72: For which set of crystallographic planes will a first-order diffrac...
- 3.3.73: Figure 3.26 shows the first five peaks of the x-ray diffraction pat...
- 3.3.74: The following table lists diffraction angles for the first four pea...
- 3.3.75: The following table lists diffraction angles for the first three pe...
- 3.3.76: The following table lists diffraction angles for the first three pe...
- 3.3.77: Would you expect a material in which the atomicbonding is predomina...
- 3.3.1SS: For an x-ray diffraction pattern (having all peaks plane-indexed) o...
- 3.3.1FE: A hypothetical metal has the BCC crystal structure, a density of 7....
- 3.3.2FE: In the following unit cell, which vector represents the [121] direc...
- 3.3.3FE: What are the Miller indices for the plane shown in the following cu...

# Solutions for Chapter 3: The Structure of Crystalline Solids

## Full solutions for Materials Science and Engineering: An Introduction | 9th Edition

ISBN: 9781118324578

Solutions for Chapter 3: The Structure of Crystalline Solids

Get Full SolutionsMaterials Science and Engineering: An Introduction was written by and is associated to the ISBN: 9781118324578. Chapter 3: The Structure of Crystalline Solids includes 81 full step-by-step solutions. Since 81 problems in chapter 3: The Structure of Crystalline Solids have been answered, more than 50896 students have viewed full step-by-step solutions from this chapter. This expansive textbook survival guide covers the following chapters and their solutions. This textbook survival guide was created for the textbook: Materials Science and Engineering: An Introduction, edition: 9.