CHAPTER 4 NOTES
Section 1: Development of the atomic theory
MATTER
Make up
◦Particles called atoms
First theory-400 B.C.
◦Democritus
Suggested
◦Universe was made of indivisible units
ATOMS
Atom
◦Greek meaning unable to be cut or divided
Convincing
◦He didn’t have evidence
◦1700’s emphasis was put on making careful and repeated measurements in experiments
DALTON-1808
All atoms of a given element were exactly alike
Atoms of different elements could join to form compounds
A.K.A. Billiard ball model
Law of definite proportions
Chemical compound always contains the same elements in exactly the same proportions by mass or weight
Water
◦2 hydrogen, 1 oxygen
FOUNDATION
For modern atomic theory
◦Dalton’s theory
Changed
◦Scientists continued to do experiments and acquire more information
J.J. THOMSON-1897
Suggested atoms were not indivisible
Experiment cathode-ray tube-negatively charged particles
Discovered electrons
Electrons negatively charged particles outside the atom
A.K.A. Plum pudding model
◦After a popular dessert
◦Looks like blueberries in a muffin
RUTHERFORD-1911
Most of the mass of the atom was concentrated in the middle
Gold-foil experiment
Thomson-mass and + change evenly distributed
Rutherford-most particles would travel in a straight path
Discovered the nucleus
Electrons orbit the nucleus
Section 2: The structure of atoms
Elements
Defined
By number of protons
Equal number of protons to electrons
Gain or loses electrons
Charged atom ion
Electric force
Attraction between a positive and negative charged atoms
Holds an atom together
Atomic number
How many protons
Represented by Z
Protons and electrons
Never changes
Mass number
Protons + neutrons
Represented by A
Fluorine 19
9 protons + 10 neutrons
Isotopes
Number of neutrons vary
An atom that has the same number of protons but a different number of neutrons
neutrons
Mass number – atomic number (A-Z)
235-92=143
Atomic mass
Unified atomic mass unit (u)
Equal to 1/12th of the mass of C-12
Atomic mass unit, amu
Average atomic mass
Avg. mass of all isotopes
mole
Used to measure large numbers of small particles
1 mole = 6.022 x 1023
Avogadro’s number
Molar mass
Mass in grams of one mole of a substance
Magnesium
24.3 g = 1 mole
By using molar mass
MOLAR MASS CONT’D
Oxygen
16 g/mol
Add up all the molar masses of all the atoms
Water
18.02 g/mol
Total mass of 6.022 x 1023 =18.02 g of water molecules
SECTION 3: MODERN ATOMIC THEORY
MODERN MODEL
- Electrons can be found only in certain energy levels but not between
- Locations cannot be predicted precisely
NEW MODEL-1925
- Electrons don’t move in a definite path
- Electrons behave more like waves on a vibrating string that like particles
ORBITALS
- Region in an atom where there is a high probability of finding electrons
- Shaded area =orbitals find electrons
VALENCE ELECTRONS
- Filled with electrons
- Number of electrons in the outermost shell
- Electrons in the outer energy level
- Based on group number
- Determine the chemical properties of an atom
- 4 types
- s, p, d, f
JUMPING
- When atoms gains or loses energy
- Ground state
- Lowest state of energy of an electron
- Excited state
- Electrons gaining energy
- Gain energy
- By absorbing particles of light, photons
Lewis dot structures (valence electrons)
Group number Valence electrons
1 / 12 / 2
3-12 / SKIP
13 / 3
14 / 4
15 / 5
16 / 6
17 / 7
18 / 8