CEM 141 MSU CEM 141 Exam Questions and Answers 2026 Latest Update

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Michigan State University CEM 141 MSU
CEM 141 Exam Questions and Answers 2026
Latest Update
3 Do isolated atoms/molecules exist in a state (solid, liquid, gas)? Ans: No

Do isolated atoms or molecules have melting/boiling points? Ans: No

States of matter, boiling/melting points are ? Ans: emergent properties

Emergent properties ... Ans: belong to a collection, but not individual
components.

If a solid reacts with gas, what state of matter will the product be? Ans: We
cannot tell

Similarities between LDFs & covalent bonds? Ans: caused by electrostatic
attraction of the electrons of one atoms to the nucleus of another

Differences between LDFs & covalent bonds? Ans: magnitude of the
attraction & how the electrons are arranged.

why do bonds form between atoms? Ans: because valence electrons are
attracted to the nuclei of other atoms

Covalent bonds Ans: Each nucleus is attracting both electrons (tug of war)

Bond length is most stable distance between the atoms (lowest potential
energy)

When bonds are formed... Ans: energy is released to the surroundings

What are the bonding models? Ans: Molecular orbital theory

Valence bond theory

Molecular Orbital Theory Ans: n atomic orbitals combine to give n molecular
orbitals



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atomic orbitals form constructively Ans: bonding molecular orbitals form,
lower energy than the atomic orbitals, more stable

atomic orbitals form destructively Ans: anti-bonding molecular orbitals
form, higher energy than the atomic orbitals, less stable

Both anti-bonding & bonding molecular orbitals... Ans: are in the same place
in space - just at different energies

A bond will form if... Ans: There are two electrons in a bonding molecular
orbital.

A bond will not form if.. Ans: There are two electrons in both anti-bonding
and bonding molecular orbital, cancelling out each other.

How to find bonds in MO Ans: # of bonds = (#e- in bonding MO - #e- in anti-
bonding MO) / 2

Properties of metals Ans: Shiny, conduct electricity/heat, malleable &
ductile, most grey, some colored (gold, copper), colorless (silver)

As the # of MOs increases... Ans: the energy gap between them decreases

In metals MOs Ans: form bands of almost continuous energy, allowing
electrons to move freely between MOs and over the whole system

metals are shiny because Ans: Electrons absorb and reemit photons of many
wavelengths.

Metals are malleable & ductile because Ans: atoms can move with respect to
one another, valence electrons act as glue

metals can conduct electricity because Ans: they have free electrons that
can move and carry the charge

In metals Ans: the bonding MOs (valence) overlaps with the anti-bonding
MOs (conduction)

In semi-conductors (metalloids) Ans: There is a small gap between the
bands

In insulators (diamond) Ans: there is a large energy gap between the bands.



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