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Examen

MAE 2381 FINAL REVIEW EXAM QUESTIONS AND ANSWERS LATEST UPDATE

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What is the coordination number for a corner atom in the BCC crystal structure? - ANSWER8 What is the coordination number for the FCC crystal structure? - ANSWER12 The stacking sequence for the FCC crystal structure is (ABABAB/ABCABC)? - ANSWERABCABC How many atoms/unit cell are there for BCC crystal structure? - ANSWER2 How many atoms per unit cell are there in the HCP structure? - ANSWER6 The delocalized electrons in metals make them good conductors of - ANSWERElectricity or heat List all of the primary interatomic bond types that are directional - ANSWERCovalent Van der Waals bonding depends on the separation of positive and negative charges, referred to as a (blank). The bond strength for Van der Waals bonding is

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[MAE 2381]
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[MAE 2381]

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MAE 2381 FINAL REVIEW EXAM
QUESTIONS AND ANSWERS LATEST
UPDATE

What is the coordination number for a corner atom in the BCC crystal structure? -
ANSWER8

What is the coordination number for the FCC crystal structure? - ANSWER12

The stacking sequence for the FCC crystal structure is (ABABAB/ABCABC)? -
ANSWERABCABC

How many atoms/unit cell are there for BCC crystal structure? - ANSWER2

How many atoms per unit cell are there in the HCP structure? - ANSWER6

The delocalized electrons in metals make them good conductors of -
ANSWERElectricity or heat

List all of the primary interatomic bond types that are directional - ANSWERCovalent

Van der Waals bonding depends on the separation of positive and negative charges,
referred to as a (blank). The bond strength for Van der Waals bonding is
(stronger/weaker) than metallic bonding. - ANSWERDipoles
Weaker

How many lattice points/unit cell are there in the hexagonal lattice? - ANSWER3

Vacancies exist because they increase the (Gibbs free energy/entropy) of the
material - ANSWEREntropy

An (octahedral/tetrahedral) interstitial impurity at is surrounded by 6 host atoms. -
ANSWEROctahedral

Hume-Rothery Rules - ANSWERCrystal structure- should be the same
Electronegativity- needs to be similar
Valences- higher tendency to dissolve higher valency.

Vacancies exist because they decrease the (gibbs free energy/entropy) of the
material - ANSWERGibbs Free Energy

An (octahedral/tetrahedral) interstitial impurity atom is surrounded by 4 host atoms -
ANSWERTetrahedral

, Diffusion through the lattice occurs (faster/slower) than diffusion at the grain
boundaries - ANSWERSlower

What is happening at the atomic level when a load is applied, that results in purely
elastic deformation? - ANSWERStretching of atomic bonds
Changing interatomic spacing

Plastic deformation is a result of the motion of - ANSWERDislocations

As the temperature of a metal increases, the modulus (increases/decreases) -
ANSWERDecreases

Interstitial diffusion is (faster/slower) than vacancy diffusion - ANSWERFaster

Vacancy diffusion is (faster/slower) than interstitial diffusion - ANSWERSlower

Slip in a single crystal will occur when the (blank) shear stress is greater than the
(blank) shear stress - ANSWERResolved
Critical Resolved

In general, a higher schmid factor will cause yield at a (higher/lower) applied stress -
ANSWERLower

A polycrystalline material is stronger than a single crystal of the same material
because grain boundaries - ANSWERinterfere with slip/dislocation motion

Recovery is usually sufficient to restore the electrical and thermal properties that
have been disrupted by cold work. (true/false) - ANSWERTrue

What is one reason that we would want to perform re-crystallization in a material? -
ANSWERRecover pre-cold worked conditions.
Increase ductility

If the amount of cold work is too (low/high) there will not be enough of a driving force
for recrystallization to occur - ANSWERLow

Why does grain growth occur at elevated temperatures? - ANSWERGrain growth
reduces number of grain boundaries which reduces internal energy/gibbs free
energy

Identify and explain 2 strengthening mechanisms for metals - ANSWERGrain size
reduction- smaller grains results in more grain boundaries that can interfere with slip.
Solid solution strengthening- impurity atoms interact with dislocations (lattice strain)
making slip harder.
Strain hardening- CN increases dislocation density, which makes it harder to move
dislocations.

For creep, why does creep strain decelerate in the first stage of creep? -
ANSWERStrain hardening slows down creep rate

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Subido en
14 de agosto de 2025
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Escrito en
2025/2026
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