General Chemistry 1 Final

periodic law

the law that states that the repeating chemical and physical properties of elements change periodically with the atomic numbers of the elements

ground state

the lowest allowable energy state of an atom

Hybridization

the mixing of several atomic orbitals to form the same total number of equivalent hybrid orbitals

Complex lewis structure issues

- Count valence electrons - Skeletal structure (bonds- all single) - fill outer atoms until step 1 total has been used - any remaining, add pairs to central atom ( if central atom needs more, relocate share from an outer atom).

Consider the following neutral electron configurations in which n has a constant value. Which configuration would belong to the element with the most negative electron affinity, Eea?

4s^2 4p^5

In the ground-state electron configuration of Fe3+, how many unpaired electrons are present?

5

How many orbitals are there in the third shell (n=3)?

9

square planar geometry

the molecular geometry of a molecule with octahedral electron geometry and two lone pairs

seesaw geometry

the molecular geometry of a molecule with trigonal bipyramidal electron geometry and one lone pair in an axial position

tetrahedral geometry

the molecular geometry of five atoms with 109.5 degree bond angles

triple bond

A chemical bond formed when atoms share three pairs of electrons Short ( tightest spring) closest to center (Higher infrared frequency)

double bond

A chemical bond formed when atoms share two pairs of electrons, medium ( tighter spring) closer to center

covalent bond

A chemical bond that involves sharing a pair of electrons between atoms in a molecule

polar covalent bond

A covalent bond in which electrons are not shared equally

Electronegativity

A measure of the ability of an atom in a chemical compound to attract electrons

trigonal planar geometry

the molecular geometry of four atoms with 120 degree bond angles in a plane

octahedral geometry

the molecular geometry of seven atoms with 90 degree bond angles

chemical gradient

the concentration of sodium its higher outside the cell than within, while the opposite is true for potassium.

electron affinity

the energy change that occurs when an electron is acquired by a neutral atom

lattice energy

the energy released when one mole of an ionic crystalline compound is formed from gaseous ions

bond energy

the energy required to break a chemical bond and form neutral isolated atoms

first ionization energy

the energy required to remove the first electron from an atom

electron geometry

the geometrical arrangement of the electron groups

valence bond theory

the idea that covalent bonds are formed when orbitals of different atoms overlap

diamagnetic columns on periodic table

the last columns in each respective group section. end of each block

electron configuration

the arrangement of electrons in the orbitals of an atom

How many electrons should be shown in the Lewis symbol for hydrogen?

1

O

1s^2 2s^2 2p^4 - filled

Give the complete ground-state electron configuration for silicon (Si).

1s^2 2s^2 2p^6 3s^2 3p^2

Give the actual ground-state electron configuration for copper (Cu) using the complete form.

1s^2 2s^2 2p^6 3s^2 3p^6 3d^10 4s^1

20 Ca

1s^2 2s^2 2p^6 3s^2 3p^6 4s^2

paramagnetic

Atom or substance containing unpaired electrons and is consequently attracted by a magnet.

Bond length is the distance between the centers of two bonded atoms. On the potential energy curve, the bond length is the internuclear distance between the two atoms when the potential energy of the system reaches its lowest value. Given that the atomic radii of H and F are 25.0 pm and 72.0 pm , respectively, predict the bond length of the HF molecule.

Bond length = 97.0 pm

H2

Both hydrogens bring in one electron, each H fills up a 1s^2 duet.

In the molecule BrI, which atom is the negative pole?

Br

NaF - 910 Lattice E CaO - 3414 lattice E CaO has a higher lattice energy, why?

CaO has a bigger charge ( +2) so it has bigger numbers

ionic bonding

Chemical bonding that results from the electrical attraction between cations and anions

What is the reaction that corresponds to the electron affinity of chlorine, Cl?

Cl(g)+e−→Cl−(g)

Place the following elements in order of decreasing atomic size: bismuth, bromine, neon, cesium, barium, and arsenic.

Cs, Ba, Bi, As, Br, Ne

The corner of the periodic table containing O,F,S, and Cl

F has the highest electron affinity, S has the lowest because it is furthest away from fluorine

F 9+p 9e- ---> F- 9+p 10e-

F- 9+p 10e- : repel each other, present in bigger numbers, spread out more and bigger in size

7 N

Is^2 2s^2 2p^3 - filled

K: 19p 19e- or K+: 19p 18e-? which is better

K+: 19p 18e- is better. because the ion is. pulled in harder towards the center which means a smaller radius. closer to nucleus the strong the ion.

Is orbital

Lowest energy orbital

Polarity

Molecules having uneven distribution of charges

What is the reaction that corresponds to the first ionization energy of sodium, Na?

Na(g)→Na+(g)+e−

Compound NaF vs. CaO

NaF contains N which is +1 CaO contains Ca which is +2 ( more attractive to negative things)

Dimitri Mendeleev

Russian scientist that created the perodic table according to atomic mass ( modern day periodic table)

second ionization energy

The energy needed to knock off the second valence electron.

orbital shape

The shape of an electron density distribution determined by an orbital.

Short cut for electron configuration

Use the previous noble gas ( before chosen element) then fill in the rest of the orbitals at the end ex - Te 1s^2 2s^2 2p^6 3s^2 3p^6 4s^2 3d^10 4p^6 5s^2 4d^10 5p^4 or [Kr] 5s^2 4d^10 5p^4 (short cut)

who does VSEPR stand for?

Valence Shell Electron Pair Repulsion

Give the ground-state electron configuration for copper (Cu) using noble-gas shorthand.

[Ar]3d^10 4s^1

Give the ground-state electron configuration for silicon (Si) using noble-gas shorthand.

[Ne]3s^2 3p^2

nonpolar covalent bond

a covalent bond in which the electrons are shared equally by the two atoms

single bond

a covalent bond in which two atoms share one pair of electrons, longer (loose spring) further from center (lower infrared frequency)

bonding orbitals

a molecular orbital that can be occupied by two electrons of a covalent bond

Anti-bonding orbital

a molecular orbital that is higher in energy than any of the atomic orbitals from which it was formed

periodic property

a property of an element that is predictable based on an element's position in the periodic table

molecular orbital theory

a theory that accounts for the allowed states for electrons in molecules

First column of periodic table

alkali metals, exothermic, ions with a similar charge ( +1), Chemical reactivities are similar

diamagnetic

all electrons are paired. no attraction in external magnetic field

octet rule

atoms react by gaining or losing electrons so as to acquire the stable electron structure of a noble gas, usually eight valence electrons

Ionic

attract each other through opposite charge metal( positive ions, give e-) --> nonmetal ( negative ion, takes e-) low ---> high electronegativity

Pairs _______ when adding until more than five

cancel

Carbon monoxide (CO) is used as a purifying gas in Mond's process to produce nickel from its ores. What type of bonding occurs between the atoms of a CO molecule?

covalent

Dipole

created by equal but opposite charges that are separated by a short distance, one side is bigger or heavier

Rare gases (noble gases)

don worry about an extra electron, don't worry about bonding

F -> F+e- ion

downhill reaction, releases energy to surrounding, delta H is very negative (losing an electron)

Enter the electron configuration for the ion most likely formed by phosphorus.

electron configuration P ion: 1s^2 2s^2 2p^6 3s^2 3p^6

paramagnetic columns

every other column except. the ones at the end of each block

- charge

gains electrons

quirky exceptions to electron configuration

half-full Or al full sub levels = lower energy + add stability ex - 24 Co - [Ar] 4s^2 3d^9 steals electron for 4s orbital to make 3d orbital full ........ [Ar] 4s^1 3d^10

velence electrons

he number of electrons relation to the columns that the element is in. ex. - O has 6 valence electrons and is in the 6th column N has 5 valence electron and is in the 5th column

size of atoms

how far out electrons spread

duet rule

hydrogen forms stable molecules where it shares two electrons

What type of bonding occurs in magnesium oxide, MgO?

ionic

3 kinds of bonding

ionic, covalent, metallic

+ charge

loses electrons

What type of bonding occurs in a sample of pure cobalt, Co? In other words, how is one cobalt atom held to another cobalt atom?

metallic

bottom left hand corner of the periodic table

most metallic, low ionization energy, big radius, For easy +1 ions (loses an electron)

noble gasses

most stable. really hard to disrupt super stable electrons (Kj/Mol)

Sharing

not always equal, uneven sharing is normal

preferred geometry of a molecule

one in which the electron groups have the maximum separation ( and therefore the maximum energy) possible

lone pairs

pairs of valence electrons that are not involved in covalent bond formation

ionization energy is related to ____________ ions electron affinity is related to _____________ ions

positive, negative

Top right hand corner of the periodic table

small radius. less metallic

Positive = _____________ ions Negative=______________ions

smaller, larger

VSEPR theory

states that repulsion between the sets of valence-level electrons surrounding an atom causes these sets to be oriented as far apart as possible

thew more matched pairs, the _______ the elements is

stronger

Trigonal Bipyramidal geometry

the molecular geometry of six atoms with 120 degree bond angles between the three equatorial electron groups and 90 degree bond angles between the two axial electron groups and the trigonal plane

linear geometry

the molecular geometry of three atoms with a 180 degree bond angle due to the repulsion of two electron groups

bond order

the number of shared electron pairs between two atoms

Positive ion

the radius on a positive ion is smaller in comparison to the radius of a neutral ion

as you go down the periodic table diagonally to the left....

there is a more lousy electron affinity

Nervse Signal transmissions

tiny pumps in the membranes of your cells are working hard to transport ions-especially Sodium (Na+) and Potassium (K+) through those membranes

Mendeleev left hole in the periodic table

to predict more elements to fill the space

Which atoms draw electrons toward themselves most strongly?

upper right hand corner

Starting with Fluorine.....

very negative electrons

no loners when paired

weaker