Chem:Sem. 1 Exam Rev. (Mod. 4-7)

Electrons

Periodic Table

Trends

Ionic Compounds

Covalent Bonds

Metals

We're Bonding!

100

The minimum amount of energy that can be gained or lost by an atom.

quantum

100

How the modern periodic table is arranged

By atomic number

100

Atomic radius/ atomic size

What is half the distance between two adjacent nuclei

100

What occurs in an ionic bond

Transfer of Electrons

100

What happens in a covalent bond

Electrons are shared

100

metallic bonds model

Sea of Electrons

100

Polar covalent bond

A type of bond that forms when electrons are not shared equally

200

photon

A quantum of light (A particle of electromagnetic radiation with no mass that carries a quantum of energy)

200

The way a period is organized on a periodic table

Across or horizontal

200

Electronegativity

The ability of atoms to attract an electron.

What is the trend?

Increases going across; decreases going down

Fluorine is high point

200

Formula unit

Simplest ratio of a chemical formula for an ionic compound

200

The name for a product of a covalent bond

Molecule

200

delocalized electrons

The electrons involved in metallic bonding that are free to move easily from one atom to the next throughout the metal and are not attached to a particular atom

200

H + 7

Memory trick for remembering the 7 diatomic gasses that are joined by covalent bonds. The list includes: H₂,N₂,0₂, F₂, Cl_2,Br₂, I₂

300

Bohr Model description

Limits the electrons to a certain path or value or quanta. Bohr model describes electrons in certain paths or circular orbitals.

300

The location of metals, metalloids and nonmetals on the periodic table

On the left, along the stair step, and on the right respectively

300

Ionization energy

The amount of energy it takes to remove an electron

Trend:

increases going across: deceased going down

300

valence electrons

The electrons in an atoms outermost orbital that determine its characteristics. These are the electrons that participate in the chemical reaction.

300

Number of electrons involved in a single, double, triple bond.

2, 4, 6

Examples: Cl₂, 0₂, N₂

300

alloy

A mixture of elements that has metallic properties; most commonly forms when the elements are either similar in size (substitutional alloy) or the atoms of one element are much smaller than atoms of the other (interstitial alloy) Makes a material that has quality superior to the elements that make it up.

300

The amount of energy required to break a specific covalent bond

bond dissociation energy

400

Quantum mechanical model description

Limits electrons to a certain quanta. The quantum mechanical model describes the probability of an electron being found within a particular volume of 3D space around the nucleus or in an orbital. This is the modern atomic model. (disproves Bohr model)

400

The names of groups one and two on the periodic table

alkali metals and alkaline earth metals

400

How anions and cations are formed

Anions gain electrons; cation lose electrons. They do this to satisfy the octet rule. Follow up question: How does ion formation change atom size?

400

Number of valence electrons in each group

group 1 has 1
group 2 has 2
group 13 has 3
group 14 has 4
group 15 has 5
group 16 has 6
group 17 has 7
group 18 has 8

400

Characteristics of molecules

Solid, liquid, or gas at room temperature; lower melting point than ionic compounds, poor conductors of heat and electricity.

400

Examples of alloys

14 karat gold, brass, stainless steel, cast iron, and others

400

Relationship of bond dissociation energy to the strength of covalent bond

The shorter the bond,the stronger the bond. The more electrons involved in a bond, the stronger the bond. The stronger the bond the more dissociation energy needed to break it.

500

why hot things glow

Electrons are excited by the heat. They make a quantum leap to a higher energy level. When they cool off and return to the lower energy level, they give off a photon of light that is characteristic of their element.

500

The group numbers of transition metals, halogens, and noble gasses

Group numbers 3-12, 17, 18

500

Explanation of the trend of atomic size decreasing across the periodic table

Protons and Electrons are added in each element as you go across the periodic table creating more positive and negative attractive charges which pull the electrons in closer to the nucleus.

500

Characteristics of ionic compounds

Crystalline, crystal lattice, high melting point and boiling point, brittle, hard, conduct heat and electricity only when melted or in dissolved

500

VSEPR model

Valence Shell Electron Pair Repulsion model, which is based on an arrangement that minimizes the repulsion of shared and unshared (lone) pairs of electrons around the central atom.

500

characteristics of metals and reason for the characteristic of metals

Good conductors as solids, malleable, ductile.

These characteristics are due to the delocalized electrons in the metallic bond

500

Description and explanation of the three intermolecular (between molecules)forces

Induced dipole occurs between non-polar molecules due to movement of the electrons; it is a temporary bond. Dipole-dipole forces occur between oppositely charged regions of polar molecules. Hydrogen bonds are a strong intermolecular attraction between molecules that contain an hydrogen atom bonded to a small highly electronegative atom like oxygen, nitrogen, or fluorine.