Kategorier: Alle - electron - ionic - compound

af D.J. BIRKS 1 år siden

182

C+O2=CO2

Atoms interact to achieve stability by either sharing or transferring electrons, leading to the formation of compounds. Sodium transfers its electron to chlorine to create a stable ionic compound, with the overall charge remaining neutral.

C+O2=CO2

visual representations of bonds

Polar molecules will have a slightly negative pole (with higher density of electrons) and a slightly positive pole

Higher electronegativity = stronger pull on electrons = slightly negative end

"δ" delta symbol signifies a partial charge

sodium transfers its electron to chlorine to fill its valence shell

covalent bonding

molecular compound

compound formed by two non-metals (2 anions)
The overall charge of a molecular compound is not always neutral
write the names of each element in the same order as the chemical formula, change the ending of the second element to "ide.", add prefixes (di, tri, mono, etc...) to match the subscripts for each element, never add MONO to the first name .

Sulfur hexafluoride = SFl₆

H2O (water)

hydrogen atoms sharing electrons

unstable

atoms share electrons to form a stable outer shell of 8

when electrons are
shared between two or more atoms

how to measure?

electronegativity

difference in electronegativity (∆EN) can be used to determine

ionic compound- ∆EN > 1.7, transferred completely

Na - Cl

bond polarity

molecular polarity

If the central atom has any lone pairs (nonbonding), the molecule is POLAR. Linear and square planar are exceptions.

A molecule can have polar bonds, but be non-polar overall depending on the shape

Partial charges can be assigned to atoms or regions of the molecule

Evaluating all of the bond polarities and overall shape of the molecule

how do we find the structure?

VSEPR (Valence Shell Electron Pair Repulsion theory)

Molecules have different physical and chemical properties based on their bond and molecular polarity.

intramolecular forces

Molecular (polar and non-polar)

Ionic

molecular bonds within one compound

intermolecular forces

types

Hydrogen Bonding

Dipole-Dipole

London Dispersion

weaker than molecular bonds

attraction between neighbouring molecules

Electron pairs in a valence shell want to stay as FAR APART from each other as possible, and this affects the shape of the entire molecule

allows us to predict the geometry (structure) and molecule polarity of individual molecules based on the number of electron pairs that surround the central atom

polar molecule- 0 < ∆EN ≤ 1.7, shared unequally

O - H

non-polar molecule- ∆EN = 0, electrons shared equally

Cl - Cl, N - CL

trend

types of trends

the periodic table of elements reveals unique patterns in the properties of chemical elements.

electronegativity generally increases as you move from left to right across a period and decreases as you move down a group

how do you find the electronegativity of an element?

measure of an atom’s ability to attract a shared pair of electrons within a molecular bond

transferred between two or more atoms

ionic

elements being held together by a bond in a fixed ratio

Name-->Chemical Formula

Chemical Formula--> Name

polyatomic group

when there are more than 2 elements, the compound is polyatomic, have to use the back of the periodic table to identify names, criss cross using brackets

Name the metal normally, and then use the name from the polyatomic chart on the back of the periodic table.

Crisscross the charge of the metal (found on the periodic table) with the charge on the polyatomic (found on the back of the periodic table). Use brackets when the number of the polyatomic > 1.

multivalent metals

transition metals

capable of having different charges and forming compounds in different proportions are called multivalent metals

rule: roman numerals represent the charge on the multivalent metal ion. Ex Cu⁺² ---> copper (II), can backwards criss cross to find the charge, include roman numerals in word equation and continue to change the ending of the non-metal to "ide"

formula ---> name

Al2O3

aluminum oxide

Name → Formula: CRISS CROSS METHOD

write down both elements and their corresponding charges, then switch their charges

Al3+2-

The non-metal goes second, and you change the ending to “ide”

The full name of the metal goes first

the overall charge of an ionic compound is neutral

the

bond

an attraction that holds two or more atoms together

is formed by a transfer of electrons

a compound formed between a metal and a non-metal

instability of an atom's nucleus may result from an excess of either neutrons or protons

different numbers of neutrons in their nuclei
isotope

-Atoms of an element that have the same atomic number but different atomic masses -Isotopes have the same number of protons, but different numbers of neutrons -Most elements in nature are a mixture of two or more isotopes, which is why the atomic mass is represented as a weighted average

Bronsted-Lowry Theory

when an acid and base are mixed together, the acid will transfer a proton to the base

a base's strength is measured by its ability to receive protons
an acid's strength is measured by its ability to donate protons
HCl+NH3=ClNH4

C+O2=CO2

Solubility

Main topic

Chemical Calculations

Periodic Table

Pure Substance
elements

formed by

Atoms

Parts

nucleus

neutrons

neutral particles found in the nucleus of an atom

protons

positively charged particles found in the nucleus of an atom

crust

electrons

negatively charged particles found in the shell of an atom (outside of the nucleus)

valence electrons

stable

atoms are at their most stable when their outermost energy level is either empty of electrons or filled with electrons.

Models

Bohr Rutherford Diagram

Lewis Diagram

Properties

mass number

isotopes

atomic mass

are classified on

periodic table

by

Periodic Properties

Macroscopic

types of compounds formed

brightness

metallic or non-metallic character

density

boiling point

melting point

Submicroscopic

capacity to capture or lose electrons

electric conductivity

ions

loses an electron

anion

gains an electron

cation

An ion is a charged atom or molecule. It is charged because the number of electrons do not equal the number of protons in the atom or molecule.

atomic volume

Families

according to

atomic number

compound

Reactions

Chemical Equations
A word equation should state the reactants (starting materials), products (ending materials), and direction of the reaction in a form that could be used to write a chemical equation.

Iron and sodium nitrate produce iron (II) nitrate and sodium Fe(s) + NaNO3 (aq) → Fe(NO3)2 (aq) + Na(s)

Coefficients

The coefficient tells us how many molecules of a given formula are present and is shown preceding the elements

Subscripts

2NH3

indication to the number of atoms of the preceding element

include

Products

the substance(s) to the left of the arrow that is present at the beginning of a chemical reaction

Reactants

the substance(s) to the right of the arrow, this is what is produced from the reactants' reaction with each other and is present at the end of the chemical equation.

Fe(s) + S(s) → FeS(s)

states

HCH3CO2(aq)+NaHCO3(s)→CH3CO2Na(aq)+H2O(l)+CO2(g)

liquid (l)

gas (g)

solid (s)

aqueous (aq)

Types of Reactions
Neutralization

Acid + Base = Salt + Water

acids and bases are determined by their pH levels

Bases

a substance that produces HYDROXIDE IONS (OH⁻) in a solution/take a proton from another compound

most bases contain ions/are ionic compounds that contain a metal and a hydroxide polyatomic group

NaOH = sodium hydroxide, Al(OH)3 = aluminum hydroxide

"__________hydroxide"

corrosive, denature protein and digest fats, react with acids to make neutral solutions.

conduct electricity, slippery touch, water soluble, bitter taste.

Acids

substances that produce HYDROGEN IONS (H⁺) in a solution/they give a proton to another compound

types of acids

oxyacids

contains hydrogen and a polyatomic group that contains oxygen

H3PO4 = phosphoric acid, H2SO4 = sulfuric acid

"__________ic acid (no hydro)"

binary acids

contains 2 elements only: hydrogen and another non-metal

HCl = hydrochloric acid, HBr = hydrobromic acid

naming rule

"hydro_________ic acid"

chemical properties

corrosive, react with metals to produce hydrogen gas (H2), react with bases to produce a neutral solution

physical properties

conduct electricity, taste sour, water soluble.

pH scale

ranges from

very strong base

very strong acid

7.1-14.0

base

7.0

neutral

can be determined by

indicators

universal indicator

full color range

>11

indigo-violet

strong base

ammonia solution (11)

8-11

blue

weak base

baking soda (9)

7

green

pure water (7)

3-6

orange-yellow

weak acid

black coffee (5)

< 3

red

strong acid

vinegar (2)

red cabbage water

litmus paper

0.0-6.9

acid

to measure how

basic

acidic

a substance is

Precipitation

when an aqueous compound reacts to form an insoluble salt called a precipitate. Whether or not a reaction will form a precipitate is dictated by solubility rules ionic compounds.

Combustion (CxHy + O2 = CO2 + H2O + heat energy)

complete combustion

when a fuel reacts quickly with oxygen (O2) and produces carbon dioxide (CO2) and water (H2O)- when there is a good supply of air.

incomplete combustion

when the supply of air or oxygen is poor. H2O is still produced, but carbon monoxide and carbon are produced instead of carbon dioxide.

Single Displacement (A+BC=AC+B)

when one element displaces another in a compound

reaction will occur when the more active metal displaces the metal that is less active

no reaction: Zn+Mg(MnO4)2

no reaction occurs because zinc's reactivity level is lower than that of magnesium's, so it cannot displace it.

reaction: Mg(s)+Cu(NO3)2(aq)→Mg(NO3)2(aq)+Cu(s)

reaction occurs because magnesium is more active than copper, thus displacing it.

activity chart allows us to predict if there were to be a reaction

2AgNO3(aq)+Cu(s)→Cu(NO3)2(aq)+2Ag(s)

a balanced chemical equation

An ERP chart

to accurately reflect the law of conservation, that matter is neither created or destroyed

the number of atoms for each element in the reaction and the total charge is the same for both the reactants and products.

Decomposition (AB=A+B)

when 1 reactant breaks down (decomposes) to form multiple products

CaCO3→CaO+CO2

Synthesis (A+B=AB)

when 2 or more reactants combine to form one new product

2Na + Cl2 → 2NaCl

Double Displacement (AB+CD=AD+CB)

when two elements in different compounds switch places, forming two new compounds

AgNO3 + NaCl → AgCl + NaNO

a precipitate must form in order for a reaction to occur

reaction indicator

require activation energy for a reaction to occur
Oxidation-Reduction

rancidity

when butter is kept in the open atmosphere than its smell and taste change

effect

corrosion

rusting

occur with
change in state

Subtopic

change in temperature

quick lime with water: CaO + H₂0 = Ca(OH)₂ + Heat

production of light

when oxygen combines with calcium, adenosine triphosphate (ATP) and the chemical luciferin in the presence of luciferase, a bioluminescent enzyme, light is produced.

change in odor/taste

rotting food

change in color

when iron reacts with oxygen and develops an orange-red color from rusting

evolution of gas

when zinc reacts with hydrochloric acid, hydrogen gas is evolved with formation of zinc chloride

example
magnesium ribbon when burnt in oxygen is converted into magnesium oxide