1. work out the moles of the info provided 2. check the stoichiometry ratio to see if it needs x or / 3. then put in m=nxmr or different for gas or conc

Unknown metal

1. work out moles 2. check stoich 3. work out moles/ mass = mr 4. periodic table

Percentage yield

Actual yield/ theoretical yield x 100 1. work out the moles of both depending on the question may have to work backwards

Atom Economy

Sum of molar mass of desired / sum of molar mass of all products x 100 x + x = h + co2 h/ co2 + h for substainability

Strong acid

H+ ions completely dissoaciates

Weak acids

Partially dissociates

Base

Proton acceptor

Acid

Proton donor

Ionic equations

Solids- don’t split Liquids - don’t split Gases don’t split Aqueous split

Standard solution in buriet

Divide by mean titre

Standard solution in conical flask

Divide by 25 cm

Mean tire

Put 23.0

./. Uncertainty

Uncertainty/ volume measured x 100

6.02 x 1023

Mass/mr

Mr x moles

Mass/moles

The simpler ratio

Actual ratio

Water crystallisation

C-a= Anhydrous B-C=Water

The first 2 columns in a periodic table are known as the ...

... s block

The transition metal columns are known as the ...

... d block

The columns /groups 3-8 are known as the

... p block

The definition of an Atomic orbital is

Shells are made up of atomic orbitals. An atomic orbital is the region around the nucleus that can hold up two electrons with opposite spins.

S orbital

S= sphere each shell contains 1s orbital 1st shell contains only s ( 1s1 1s2)

P orbitals

Shape = dumb bell each shell from the 2nd contains 3p orbitals with 2 electrons in each so in tot 6 e ( 1s22s22p6)

Shell 3

Consist of p and s orbitals with a higher energy level

D orbitals

- 5 d orbitals so 10 electrons

Working out amount of electrons by sub shells present

S=2 p=6 d=10 f=14

When it gets to the 4th shell they is

... backfilling by the 3d block due to 3d having higher energy than 4s subshell

Electron pairing occurs when

Two electrons are in opposite spin as they are both negatively charged to counteract repulsion

Short hand configuration

The last electron from group 8 goes in square brackets [ne]1s2

Orbital =

2 electrons

N=4 shell

They are 4 sub shells s,p,f,d so 2+6+10+14 =32

Definition of ionic bonding

Electrostatic attraction between oppositely charged ions

Things to remember in dot and cross diagrams

- square brackets [] - can put a big 2 or n number infront of brackets - remember the charges on the outside of []

Structure of an ionic compound

Each ion attracts oppositely charged ions in all directions resulting in a giant ionic lattice.

Properties of ionic compound

-solid at rtp due to insufficient energy to overcome the strong electrostatic forces of attraction between oppositely charged ion . so high temp needed so HIGH MELTING AND BOILING POINT -soluble in polar solvents (charged) - Electric conductivity inn liquid state as ions are delocalised and free to move as charge carriers

Definition of covalent bonding

The strong electrostatic attraction between a shared pair of electrons and the nuclei of the bonded atom

A covalent bond is localised due to

The attraction solely between the shared pair of electrons and nuclei of the two bonded atoms

A rule in covalent bonding diagrams

A central atom doesn't have to have 8 electrons

What is this picture showing at O=O

DOUBLE COVALENT BOND

The nitrogen bonding is what type

TRIPLE COVALENT BONDING

Dative covalent bonds

When the shared pair of electrons comes from the one/same element

Electron pair repulsion theory states

Negative charge - repulsion The electrons surrounding the central atom determine the shape of the molecules. As they repel they are arranged as far apart as possible so the arrangement lowers repulsion

Tetrahedral

4bonding regions 109.5 degrees

Pyramidal

3 bonding regions 1 lone pair 107 degrees

Non linear

2 bonding regions 2 lone pairs 104.5 degrees

Linear

2 bonding region 180 degrees

Triagonal planar

3 bonding regions 120 degrees

Octahedral

6 bonding regions 90 degrees

Electronegativity definition

The attraction of a bonded atom for the pair of electron in a covalent bond

Factors affecting electroegatvity

- The nuclear charges are different - The atoms may be different sizes -The shared pair of electrons may be closer to nucleus than the other

ELECTRONEGATIVITY DIFFERENCE 0=

COVALENT

EN DIFFERENCE +1.8 =

IONIC

AN ELECTRONEGATIVITY DIFF BETWEEN 0-1.8=

POLAR COVALENT

Non polar bonds terms

Bonded atoms are the same or same or siimiliar electronegativity

Delta + and delta - are given

Larger e neg gets delta - smaller e neg gets delta +

Which molecules have an overall dipole

Non-symmetrical molecules so polar molecules have a dipole overall eg. pyramidal and non linear

Polar covalent bond definition

Shared paired of electrons where the electron is not shared equally so e neg difference

Dipole definition

Charged separation across a bond with one atom having a delta + charge and one item with delta - charge

IMF definition

Weak interactions between dipoles of a different molecules

Types of IMF

Induced dipole-dipole (LONDON) permanent dipole-dipole Hydrogen bonding

What are IMF responsible for

Melting and boiling ptts and density

London forces...

... Electrons move causing uneven distribution ... a tempory instantaneous dipole is set up in one molecule... induces a temp dipole in adjacent molecule hence the attraction

Permanent dipole-dipole interactions

-asymmetrical -polar -forever

Simple Molecular substance is

Small units containing a definte number of atoms

Properties of simple MS

-low melting and boiling point due to weak intermolecular forces -covalent bonds do not break -soluble in non polar soluvents - hexane -non conductors of electricity - fixed p and no charged carriers

Why don't Simple MS dissolve in water

Little interaction between the molecules in the lattice and the polar solvent molecules

Hydrogen bonding

The lone pair on the electronegative atom on one molecule and the electron deficient hydrogen on an adjacent molecule

Hydrogen bonding has the strongest imf ?

Yes

Elements are arranged by the

Increasing atom number