Chemistry Test - Bonding

covalent (molecular) bonds

sharing of electrons -nonpolar covalent bonds -multiple covalent bonds -polar covalent bonds -coordinate (dative) covalent bonds -network solid

molecule

smallest discrete particle of an element or compound formed by covalently bonded atoms

how are bonds formed?

spontaneously (do not require energy, exothermic, energy is released (BARF) A+B -> AB + heat

using SNAP to determine molecule polarity

symmetrical shape = nonpolar, asymmetical shape = polar (SN AP)

metallic bonds

"sea of mobile electrons"

Noble gases

A majority of them have 8 electrons in the valence shell

polar bonds don't mean polar molecule because

in order to determine polarity of a MOLECULE the shape must be determined (SNAP)

bonds between a polyatomic ion and another ion is

ionic (ex CO₃²- and Ca²+)

why are ionic substances only good conductors when melted or dissolved in water?

just like metals are good conductors if they have mobile electrons, a substance/solution is a good conductor if there are moble ions -in a solid, the ions in an ionic substance are unable to move because the ions are rigid and crystalline -in a liquid or when dissolved in water, the ions in an ionic substance are mobile

network solid

macromolecule formed by covalent bonds between atoms in a continuous network

dipole moment

measure of the strength of the dipole within a molecule (i.e polarity)

Duet rule

Hydrogen can only go to a max of 2 electrons to become stable

examples of molecular elements

H₂, O₂, N₂

asymmetrical (polar) molecules

H₂O (bent V), NH₃ (trigonal pyramid), HCl

examples of molecular compounds

H₂O, CO₂, NH₃, CCl₄, and HCl

substances like ___ ___ __ and __ have relatively high boiling point due to strong hydrogen bonding

H₂O, HF, and NH₃

substances with strong hydrogen bonds

H₂O, NH₃, HF

what types of molecules display partial positive and partial negative charges in diff regions of the molecule?

molecules that have an uneven distribution of charge (either due to unequal EN or asymmetrical shape which leads to polar molecule)

which group 16 element combines with hydrogen to form a compound that has the strongest hydrogen bonding between its molecules? 1. oxygen (END: 1.2) 2. selenium (END: 0.4) 3. sulfur (END: 0.4) 4. tellurium (END: 0.1)

oxygen because it has the highest END

compounds that contain both covalent and ionic bonds will contain a

polyatomic ion

the (greater/less) the energy released during the formation of a bond, the (more/less) stable the resulting bond it

the greater the energy released during the formation of a bond, the more stable the resulting bond is

hydrogen bond strength rule

the higher the END between the element and hydrogen, the stronger the hydrogen bond

rule for London dispersion forces & electron & strength & frequency

the more electrons there are, the more frequent (and stronger) the London disperson forces

molecules composed of only 2 atoms (diatomic) such as H₂ or HCl polarity rule

the polarity of the bond = the polarity of the molecule

dipole-dipole forces

result from the temporary attraction of the positive region (or pole) of one molecule to the negative region (or pole) of another molecule

coordinate dative bonds

formed between two atoms that share a pair of electrons that are provided entirely by one of the atoms but are shared by both (ex: NH₄+ and H₃O+)

metallic bond

formed by the force of attraction of a single metal's mobile valence electrons for an atom's positively charged kernel (nucleus + kernel electrons)

END relating to polarity/ dipole moment rule

greater END = greater polarity/ dipole moment

greater END = greater polarity/ dipole moment =

greater strength of the IMFs in the molecule

the stronger the intermolecular forces in a substance, the __ the boiling point of the substage

higher (stronger IMFs - higher boiling points)

in a polar molecule (partialness relating to EN)

higher END = partial negative lower END = partial positive

"the sea of mobile valence electrons" **METALLIC BONDING**

highly mobile valence electrons --> good electrical + thermal conductivity for metals

has the largest effect on boiling point of a substance as it is the strongest IMFs

hydrogen bonding

molecules composed of more than 2 atoms such as CO₂, H₂O and NH₃ polarity rule

the polarity of the bond CAN DIFFER from the polarity of the molecule (remember SNAP)

why are IMFs considered weak?

the strongest IMFs are less than 5% as strong as the bonds between atoms

ionic bonds

transfer of electrons

London dispersion forces

type of IMF present between atoms and nonpolar molecules; present in group 18; weakest type of IMF

polar covalent bonding

unequal sharing of electrons; unequal EN values

what causes London dispersion forces?

uneven distribution of electrons in an atom or nonpolar molecule at any given time

Compound

A chemical combination of two or more elements in a definite or fixed ratio

most important example of hydrogen bonding

-H₂O; responsible for the relatively high boiling point of water (100ºC) of

lewis electron-dot diagrams

-diagram will be drawn differently if ionic or covalent bond -ionic: consist of lewis electron dot diagrams for the ions formed by the loss and gain of electrons -covalent: consist of lewis electron dot diagrams for the atoms that form the bond -if there are more than two atoms, the atom in the center is the atom with multiple unpaired valence electrons -every bond (2 electrons) can be replaced with a long dash

important things to remember when drawing lewis electron dot diagram of ionic

-don't forget to cross if not charges aren't equal -when charges are equal, the first element electron's is 0 and the 2nd is 8 -when elements both have subscripts, use coefficients -pay attention to charges ( YOU DONT EVER CHANGE CHARGES) -pay attention to electron configuration

bond with smallest END

-least polar (most nonpolar) -highest covalent character

ionic bonding

-metal (+) loses e- to a nonmetal (-) -metal (+) combines with a polyatomic ion (-) -polyatomic ion (+) combines with a nonmetal (-) -polyatomic ion (+) combines with polyatomic ion (-) (BASICALLY IONIC & IONIC or IONIC & COVALENT)

properties of bonds

-metallic bonds are good conductors because they have mobile valence electrons -the only metallic liquid is mercury (Hg), mercury is an exception because it has no high melting point -water, a covalently bonded molecule, makes a SPLash (soft, poor conductors of heat & electricity, low melting & boiling points) METALLIC BONDING is the complete opposite (HGH, high melting and boiling points, good conductors of heat & electricity, hard)

bond with largest END

-most polar (least nonpolar) -highest ionic character

drawing diatomic elements lewis electron dot diagram

-non polar covalent -trick: how every many electrons are missing from the valence shell, is the number of bonds (THIS ONLY WORKS FOR DIATOMIC)

covalent bonding

-nonmetal shares electrons with another nonmetal -diatomic molecules (BrINClHOF) (BASICALLY A NONMETAL & NONMETAL)

electronegativity difference between the 2 atoms involved in a bond can shed light on the bond type

-nonpolar covalent: END typically between 0 and 0.3 -polar covalent: END Typically between 0.3 and 1.7 -ionic: END typically greater than or equal to 1.7

hydrogen bonding

-type of intermolecular bond between a hydrogen atom in one molecule and a nitrogen, oxygen or fluorine atom in another molecule (REMEMBER FON) -strongest type of IMF

3 types of IMFs

1. hydrogen bonding (NOT A BOND) *strongest* 2. dipole-dipole forces 3. London dispersion/ vander Waals

3 major types of bonds

1. ionic bonds: transfer of electrons 2. covalent (molecular) bonds: sharing of electrons 3. metallic bond: "sea of mobile electrons"

exceptions to END rules

1. metal hydrides(metal + hydrogen)--> ionic -metal and nonmetal= ionic -ex: NaH: 2.2-0.9= 1.3 (1.3 is in the polar covalent range but its ionic), LiH -END values may be lower than 1.7 (covalent range), but the bond is ionic 2. hydrogen monofluoride (HF) -> covalent -2 different nonmetals are covalent -END values of 1.8 (ionic range), but the bond is covalent 3. AlCl₃ -> ionic -END is 1.6 (covalent range) but the bond is ionic

types of covalent bonding

1. non polar: formed between atoms having equal or close EN values, equal sharing of electrons (EX: DIATOMIC MOLECULES) 2. polar: formed between atoms having unequal EN values, unequal sharing of electrons (EX: H₂O, HCl, NH₃) POLAR BEARS LIKE WATER 3. multiple: atoms that share more than one pair of electrons (double or triple bonds) (EX: O₂, N₂, CO₂) 4. coordinate (dative): formed between two atoms that share a pair of electrons that are provided entirely by one of the atoms but are shared by both (EX: NH₄+, H₃O+) 5. network solid: macromolecule formed by covalent bonds between atoms in a continuous network (EX: diamond, graphite, silicon, carbide (SiC), silicon dioxide (sand, SiO₂)

1 bond has 1 pair of electrons, so there are __ electrons

2

which of the following compounds has the strongest intermolecular forces? 1. HCl -> dipole moment of 1.08 2. HF -> dipole moment of 1.82 3. Hl -> dipole moment of 0.44 4. HBr -> dipole moment of 0.82

2. HF because it's greatest dipole moment of 1.82

Octet rule

Atoms bond together to achieve stability by having 8 valence electrons

How does an atom become stable?

By achieving an octet through gaining, losing or sharing electrons

Reaction 1: X + Y -> XY + 750 joules Reaction 2: E + F -> EF + 400 joules Reaction 3: CD + 0.8KJ -> C + D which product is more stable? and why?

CD is more stable because you can reverse it if a bond is not being formed CD + 0.8KJ -> C + D can be C+ D -> CD + 0.8KJ

symmetrical (nonpolar) molecules

CO₂ (triatomic, linear), CH₄ (tetrahedral), H₂ (diatomic)

more examples of ionic and covalent bonds

CaCO₃ (metal + polyatomic ion) NH₄Cl (polyatomic ion + nonmetal) NH₄NO₃ (polyatomic ion + polyatomic ion)

Bond

Force of attraction between two atoms which are formed as the result of a chemical reaction

which substances in the table below has the strongest intermolecular forces? ** pay attention to boiling points HF- 293 K HCl- 188 K HBr- 207 K Hl- 237K

HF

intermolecular forces (IMFs)

NOT BONDS; weak forces that act between molecules and hold them together

how are bonds broken?

NOT spontaneously (do require energy, endothermic, energy is absorbed) (BARF) AB + heat -> A + B

examples of ionic bonding

NaCl, CaSO₄, NH₄Cl, NH₄NO₃

which of the following compound contains both covalent and ionic bonds? NaCl NH₄+ MgSO₄ H₂O

NaCl: ionic NH₄+: covalent MgSO₄: ionic and covalent (because there are covalent bonding between atoms in polyatomic ions) H₂O: covalent

which of the following bonds is the most polar (largest END) in nature? (Table S) O₂, HCl, NH₃, HBr

O₂: 3.4 -3.4= 0 : a nonpolar covalent bond HCl: 3.2- 2.2= 1.0 : a polar covalent bond NH₃: 3.0-2.2= 0.8 : a polar covalent bond HBr: 3.0-2.2= 0.8: a polar covalent bond *note: when finding END, do not use subscript unless its diatomic

Valence electrons

Participate in bonding

Octet

Represents the maximum number of valence electrons that an atom can have (8)

examples of covalent bonding

SO₂, HCl, H₂O, Cl₂ (and all diatomic molecules: Br₂, I₂, N₂, Cl₂, H₂, O₂, F₂)

strongest type of London dispersion forces

Van der Waals forces

Reaction 1: X + Y -> XY + 750 joules Reaction 2: E + F -> EF + 400 joules which product is more stable? and why?

XY is more stable because 750 > 400, more energy was released

which of the following contains metallic bonding? MgCl₂ O₂ Zn NaNO₃

Zn (metallic bonds take place inside a single metal)

what kind of attraction exists between dipoles in London dispersion forces?

a temporary one

uneven distribution of electrons found in London dispersion forces creates

a weak instantaneous dipole

multiple covalent bonding

atoms that share more than one pair of electrons (double or triple)

there is a connection between IMFs present in a substance and the substance's

boiling point

bonds between atoms in a polyatomic ion is

covalent (ex: CO₃²-)

why are covalent substances always poor conductors?

covalent (made of 2 nonmetals and they share electrons )substances are not composed of ions

molecules generally have properties associated with

covalent bonding (SPLash)

IMFs only exist in __ bonded molecules

covalently

non polar covalent bonding

equal sharing of electrons; equal/ close EN values

molecular substances may exist as solids, liquids or gases depending on the strength of the ____

force of attraction between the molecules

coordinate (dative) bonding

formed between two atoms that share a pair of electrons that are provided entirely by one of the atoms but are shared by both