Kategorier: Alle - bonds - ions

av Brian Nguyen [Student] 3 år siden

196

The Inter-Relationships of chemistry

Chemistry encompasses various concepts essential for understanding the behavior and properties of matter. Orbitals describe regions where electrons are likely to be found, with different types such as p, d, and f orbitals.

The Inter-Relationships of chemistry

Structures and properties

magnatism

Ferromagnatism
Diamagnetism: Repel
Paramagnatism: weak attraction

solids

covalent network solids
Form a lattice of continuous covalent / polar-covalent bonds
Metallic
Metal properties can be explained by considering them as positive ions
ionic
Solids formed by ionic bonds between metal cations and non-metallic anions

Polar Molecular Compounds

Compounds with bond dipoles and molecular dipoles Gives higher boiling points

Non-Polar Molecular Compounds

Compounds without bond dipoles only have London Forces between molecules (low melting points)

London forces

London forces form due to the attraction between instantaneous dipoles

Bonds

Intra-molecular
Bonds between molecules
Inter-molecular
Bonds within a molecule (covalent or polar covalent)

VSPER Theory

Electrostatic Potential
A map of electrostatic potential measures the force acting on proton due to the molecule’s distribution of electrons/protons
Molecular Orbitals
VSEPR Theory was based on experimental evidence (electro densities).
AXE Notation
AXE Notation simplifies the identification of VSEPR shapes
Valence Shell Electron Pair Repulsion
A theory used to predict the 3-dimensional geometry of molecules

Ionization energy

Atomic radius

Greater nuclear charge pulls electrons closer to the nucleus

Coulomb’s Law

electrostatic attraction between two charged particles

Cations And Anions

Positively and negatively charged ions either attracting protons orelectrons

Lewis Theory

A Lewis acid is a chemical species that contains an empty orbital which is capable of accepting an electron pair from a Lewis base

Orbitals

Hydrogen obritals
f orbitals
d Orbitals
p Orbitals
probability distribution for where an electron may be found

The Uncertainty Principle

Exact positions of electrons cant never be determined

De Broglie Waves

proposed that electrons exist as matter waves around the nucleus, with only complete integer values of the electron wavelength permitted.

Quantum theory of light

All electromagnetic radiation is made up of electric and magnetic fields

Particle Theory

atoms or elementary particles themselves are not real, they form a world of potentialities or possibilities

Atomic Theory

Rutherford´s nuclear atom: all positive charge and most of the mass is concentrated in the nucleus of the atom. The electrons are found in the empty space around the nucleus.
Thomson´s model of atom proposed the plum pudding model: a sphere of positive electrical charge in which electrons are embedded
Daltons atomic theory: reintroduced the atomic theory based on the available evidence

The Inter-Relationships of chemistry

Equilibrium

Titration Calculations
Acid-Base Neutralization
Titration Curves and Buffers
KB Calculations
KA Calculations
opH and pOH Scales
Logarithmic Function
Weak Acids
Weak acids do not completely ionize
Acids and bases
Lewis Acid-Base Theory

Lewis Base

an electron pair donor. Anions or other species with lone pairs are Lewis bases

Lewis Acid

an electron pair acceptor. Cations or species with incomplete octet are Lewis acids.

Brønsted-Lowry Theory

BL Bases

proton acceptor in a reaction

BL Acids

Subtopic

protons donors in a reaction

Arrhenius Theory

Arrhenius Bases

substances that dissociate to form hydroxide ions

Arrhenius Acids

substances that dissociate to form hydrogen ions

Formation of a Precipitate
Rice ( reaction, Initial, change, equilibrium)
Reaction Quotient
equilibrium constant equation is solved under potentially non-equilibrium conditions, this “trial” calculation is called reaction quotient.
Solubility Product
KSP
Saturated Solutions
Crystallizing
Dissolving
Solubility Equilibrium
The Equilibrium Law Expression
Rice Tables
Concentration-Time Graphs
K Value
Dependant on tempature
Le Chatelier’s Principle
a dynamic equilibrium is disturbed by changing the conditions, the position of equilibrium shifts to counteract the change to reestablish an equilibrium
Enthalpy changes favour the exothermic direction of a reaction since these involve products with lower potential energy
Disorder
the greater the disorder the higher the entropy
Dynamic equilibrium
dynamic equilibrium is disturbed by changing the conditions
Entropy
Systems tend to move spontaneously toward a state of maximum randomness or disorder
Equilibrium Systems
eactions actually take place in both the forward and reverse directions at the same time
Spontaneous Reactions
A spontaneous reaction is a reaction that favors the formation of products at the conditions under which the reaction is occurring
At equilibrium, reactions actually take place in both the forward and reverse directions at the same time

Thermodynamics

Factors affecting rate of reaction
Pressure
Surface area
Catalysts: A catalyst is a substance that changes the rate a reaction without being consumed

Enzymatic Catalyst

Proteins

Inhibitors:

Heterogeneous catalyst

Ex. uv radiation

Adsorption

Homogeneous catalyst

Ex. Food oils

Temperature
Reaction Mechanisms
Molecularity

Molecularity is the number of particles (molecules or ions) involved in an elementary step

Multistep reactions

Many reactions occur as a series of simpler elementary steps.

Elementary (Single) Step Reactions

reactions that only involve single events where bonds break and reform

Zero-order Reactants

The reactant concentration does not affect the rate

Collision theory
The reactants must collide with sufficient energy for a reaction to occur
Collision Geometry

Even if molecules with sufficient energy collide, a reaction may still not take place

Rate of Reaction
The study of the rate or “speed” of a chemical reaction
Enthalpy calulations
Summation method
Additivity method
Hess’ Law
Another way to determine ΔH is to utilize the concept that the overall enthalpy change of a system
Heat Capacity
Amount of heat required to change The temperature
Calorimetry Method
an experimental technique for measuring energy change in chemical reactions
Bond Energy Method
A chemical reaction can be viewed as a series of bonds breaking and reforming
Enthalpy
Enthalpy (heat content, H) is the total energy possessed by a system
Molar Enthalpy
Energy change associated with the reaction/transformation given ONE mole of a substance
Reaction Enthalpy
Energy change associated with a reaction/transformation given certain conditions
System and Surroundings
surroundings is everything else
system is the sample being observed

Organic chemistry

polymerization
A chemical reaction that bonds many monomers together to form a polymer
polymers
condensation

These are formed by reactions between an acid and alcohol

addition
arge molar mass formed by the reaction of smaller molecule called monomers
Functional groups 2
Amides

The amide has a structure similar to the ester however the oxygen atom

Amines

secondary

Secondary amines are named using a different system

Tertiary

longest chain with N attached

Amines are classified as primary, secondary or tertiary depending on the number of alkyl groups (R groups) bonded to the nitrogen.

Esters

Esters have an oxygen between two carbons (R-O-R)., however carbon-1 also has a carbonyl (C=O) They are volatile liquids and are found in fruit flavours

Ethers

Ethers have an oxygen between two carbons (R-O-R). They are volatile liquids used as solvents, anaesthetics.

Functional groups
Carboxylic acids

When a hydroxyl (C-OH) and carbonyl (C=O) are on the same carbon, a carboxylic acid is formed

Ketone

Middle of chain

Aldehydes

End of chain

Both aldehydes and ketones contain the carbonyl functional group

Alcohols

Molecules containing the R-OH group (hydroxyl) are called alcohols

Isomers
Geometric Isomers

when 2 compounds contain atoms bonded in the same order, but they have a different spatial arrangement

ISOMERS are compounds with the same formula but different structures
aromatics
Amino acids
Hydrocabons
AROMATIC

Ring shape

ALIPHATIC

Open chain

HYDROCARBONS are organic compounds containing only carbon and hydrogen
Bonding capacity
Number of electrons out of the orbit
Cyclic
Alkanes and alkenes can commonly form rings.
Alkenes
Unsaturated hydrocarbons because they contain less than the maximum amount of H bonded to C
Alkynes
Triple bonds
Unsaterated

because they contain less than the maximum amount of H bonded to C

Alkanes
Double bonds
Saturated hydrocarbons because they contain more than the maximum amount of H bonded to C
Organic compounds
members of a large class of gaseous, liquid, or solid molecular compounds whose molecules contain CARBON

Electrochemistry

Agents
reducing agent
Oxidation Agent
Electrolysis
Electrolysis is the passing of a direct electric current through an electrolyte producing chemical reactions at the electrodes and decomposition of the materials
Electroplating
Electroplating uses an electric current to deposit metals at a cathode from a solution of aqueous metallic ions
Electrolytic Cells
Electrolysis is the splitting of stable compounds using an electric current
Hydrogen Half Cell
There are hundreds of possible combinations of half-cells, each with unique voltages
Cell Potential
Every combination of half cells will produce a unique electrochemical cell potential
Half reactions
Electrodes
CATHODE

The CATHODE is always the site of REDUCTION

CATIONS were defined as substances that move toward the CATHODE in any cell

ANODE

The ANODE is always the site of oxidation

ANIONS were defined as substances that moved towards the ANODE

electrochemical cell
Electrochemical cells (also called galvanic cells or voltaic cells) are devices used to generate electricity
Balancing redox equations
Oxidation Number
Oxidation Reactions
The substance that gains electrons is said to be reduced
The substance that loses electrons is said to be oxidized
Oxidation reactions were originally associated with the reaction of metals with oxygen
Reduction Reactions
Reduction reactions were originally associated with a loss (reduction) of mass in metal ores upon heating or reacting with carbon
Redox Chemistry
Redox (reduction/oxidation) chemistry deals with chemical reactions in terms of electron transfer