CH101 Sremaniak Fall 2021: Exam 2 Review Jeopardy Template

Atomic Structure and Properties

Ionic Bond

Covalent Bond

Molecular Structure

100

Effective nuclear charge increases in which direction across the periodic table?

Effective nuclear charge increases going from left to right in a period.

100

An ionic bond is the Coulombic attraction of two oppositely charged ions. Compounds between __________ and __________ are ionic.

Metals; nonmetals

100

When does a covalent bond occur?

A covalent bond results when atoms share one or more pairs of electrons. The electrons that are shared in a covalent bond are called bonding electrons or bonding pairs.

100

What is the number of electron regions around the sulfur atom in the following?

A double bond is single electron region. Therefore, a single bond, a double bond, and a lone pair form 3 electron regions.

200

Atomic radii increase in which direction across the periodic table?

Atomic radii increase going down a group and decrease going across a period.

200

Nonmetals form __________ by gaining the number of electrons required to fill their valence shell (outermost s and p sublevels). Metals form __________ by losing the outermost electrons in their valence shell.

Anions; cations

200

The Sn–Cl bond is which of the following?

Purely Covalent

Polar Covalent

Ionic

Polar covalent

Although tin is a metal, it lies well on the right side of the periodic table and is one of the metals that is an exception to the rule that metal-nonmetal bonds are ionic. The Sn–Cl bond is a polar covalent bond with only about 25% ionic character.

200

Which molecule has the larger bond angle?

NO₃^-

^OR

BrO₄^-

NO₃^-> BrO₄^-

NO₃^-= 120^o

BrO₄^-= 109^o

300

Use only a Periodic Table to determine the atom in with the greatest ionization energy.

Half-filled sublevels are usually unstable

300

Determine the oxidation state of Mn in MnO₄^-.

O is –2 by Rule 5, and the charge on the MnO₄^1– ion is –1, so x + 4(–2) = –1, or x = +7. The oxidation state of Mn is +7 in MnO₄^1–. This very high oxidation state is stabilized by the highly electronegative oxygen atoms.

300

What is the name of the following compound?

Dinitrogen tetroxide

The 'a' at the end of a prefix is usually not used when the name of the element begins with a vowel, so N2O4 is dinitrogen tetroxide.

300

What is the hybridization around O₃?

Sp³

O₃ has four electron regions, so it is sp³ hybridized. The four hybrids are used in two σ bonds (O–H and C–O) and two lone pairs that are not shown. Oxygen always obeys the octet rule, so lone pairs must frequently be added to give oxygen an octet.

400

Which atom has the higher electronegativity?

400

Write the formula for a compound forming between Copper and Sulfur.

Cu₂S

Copper is a transition element, and it commonly adopts the +2 oxidation state. Sulfur is a 6A nonmetal, so its oxidation state is –2. The formula is CuS. However, copper also adopts the +1 oxidation state, in which case, the formula would be Cu₂S.

400

How many lone pairs exist in a Sulfite ion?

SO₃^2-;1

The sulfur atom has 3 shared pairs around it, which is 6 electrons. Thus, it needs two more electrons (1 lone pair) to obtain an octet.

400

Lewis structure and bonding in tetrafluoroethylene (C₂F₄):

ER = 6(8) = 48 electrons required with no sharing

VE = 2(4) from C + 4(7) from F = 36 valence electrons

SP = 1/2(48 - 36) = 6 shared pairs

How many π bonds are there?

There is one π bond in the C=C double bond.

500

P has a Z_eff = 4.89, Pb, has a Z_eff = 12.39. Which element has the lowest energy outermost orbitals given their effective nuclear charge?

Pb < P

Use:

E = -( Z_eff²/ n²) to solve for the energy of the orbital

E_Pb= -4.26

E_P= -2.66

500

What is the formula between compounds X and Z?

X₂Z

X is +1 and Z is –2, so the compound is X₂Z

500

Based on the bonding regions, how many resonance structures can be drawn for SO?

There are 3 shared pairs (bonds) but there are only 2 bonding regions. One bonding region must contain two of the bonds while the other contains a single bond. Since the double bond can be placed in either bonding region, there are two resonance forms of SO₂.

500

Below is the MO diagram for He₂. What type of MO does the He₂ form?

Nonbonding MO

Each He atom has two electrons in its 1s orbital, so the two-atom system has four electrons. Two electrons would be placed in the σ orbital and two would be placed in the σ*. However, ΔE* > ΔE, so the energy of four electrons in He₂ is greater than in two separated He atoms. The bond order of the He-He bond would be 1/2(2 − 2) = 0, no bond. Consequently, He2 does not form.