Atom the Smallest Particle of an Element That Retains Its Chemical Identity

Atomic Structure

Atom – The smallest particle of an element that retains its chemical identity

• Aristotle – continuous view of matter

• Democritus – discontinuous view of matter

• Democritus – believed that all matter consisted of extremely small particles that could not be divided. ( 400 BC)

• Atoms from the Greek word atomos, which means uncut” or “indivisible

Dalton’s Atomic Theory -1803

• Each element comprised of atoms

• All atoms of an element are identical

• Atoms are neither created or destroyed in a chemical reaction

• A compound has the same relative number and kinds of atoms ( H2O)

Dalton

J. J. Thomson 1897

Thomson discovered that an atom was neutral in charge but contained a positive charged mass and negatively charged particles spread through out.

Thomson

Thomson’s experiment used a cathode ray tube that projects a glowing beam that bent when a charge was introduced.

Ernest Rutherford 1908

Rutherford's model proposed that an atom is mostly empty space.

There is a small, positive nucleus with the negative electrons scattered around the outside edge.

• The nucleus is a dense, positively charged mass located in the center of the atom.

Rutherford

Neils Bohr (1913)

• Bohr agreed with Rutherford’s model that the nucleus was surrounded by a large volume of space

• Bohr’s model focused on the arrangement of electrons based on energy levels.

• Energy levels are the possible energies that electrons in an atom can have.

• electrons can move up or down energy levels

Bohr

James Chadwick (1891 – 1974)

In 1932 –

Suggested radiation from a Beryllium (Be) atom consisted of neutral particles with a mass equal to a proton.

This neutral subatomic particle is called a “neutron”.

Nuclear reaction that resulted in the discovery of a neutron:

Be - 9 + alpha particle → C -12 + 1n

0

Radiation emitted by alpha particle bombardment of a Be-atom was not deflected by electric or magnetic field forces.

Therefore, the particle has no electric charge (neutral).

Electron Cloud

• An electron cloud is a visual model of the most likely locations for electrons in an atom.

• The cloud is denser at locations where the probability of finding an electron is high.

Modern Atomic Theory

Atoms comprised of 3 subatomic particles

Protons, neutrons, and electrons

Atom’s nucleus – positively charged central core comprised of protons(+) and neutrons(0)

Negatively charged electrons move around the nucleus

Fundamental Subatomic Particles

Particle Location Charge Mass (amu)

Proton Nucleus + 1 1.00

Neutron Nucleus 0 1.00

Electron Outside  1 0.00

Periodic Table Atomic Information

Element Name → Nitrogen

Atomic Mass → 14.00

Symbol → N

Atomic Number → 7

Atomic Number = # of Protons

Mass # = # protons + # neutrons

Atoms are electrically neutral (0 charge),

Atomic # = # protons = # electrons

Hydrogen Atom: ( atomic # 1 )

1 proton (+)

1 electron ( - )

IONS

Charged particles from atoms that lost or gained electron(s)

Ion Charge = # Protons - # electrons

Negative Ion = Anion = # electrons > # protons

Positive Ion = Cation = # electrons < # protons

Calcium atom loses 2 electrons, = ? ion

Calcium atom (atomic # 20) = # protons = 20 ; # electrons = 20

Atom lost 2 electrons, now has 18 electrons

ion Charge = # protons - # electrons

20 - 8 = +2

Calcium cation = Ca+2

Isotopes

Atoms with same # protons, but a different # neutrons

3 Hydrogen Isotopes: Symbol

Hydrogen 1 proton H - 1

0 neutrons

Deuterium 1 proton H - 2

1 neutron

Tritium 1 proton H - 3

2 neutrons

An element’s isotopes:

· Differ in Mass (protons + neutrons)

· Have identical chemical properties, but differ in physical properties

· Natural Elements are an isotope mixture

Atomic Weight of an element posted on the periodic Table is a weighted average of the atomic weights of all that element’s isotopes weights.

Express mass of an atom in a.m.u.

atomic mass units, a.m.u.

1 amu ~ proton mass

Mass of a Cu-65 atom is ~ 65 amu

Mass of a N -14 atom is ~ 14 amu

1 amu 1/12 (mass C-12 atom) = 1.66 x 10 – 24 g

Atomic weight ≠ Mass #

Mass # = # protons + # neutrons

Chlorine – 37 atom = 36.966 amu

Chlorine – 35 atom = 34.969 amu

What is the atomic weight of Chlorine?

Chlorine exists in nature as 2 isotopes:

Cl – 35 and Cl – 37

Isotope Mass # Isotope Fractional

Mass Abundance

(amu) ( % )

Cl – 35 35 34.969 75.53

Cl – 37 37 36.966 24.47

Chlorine – _____? is the most abundant isotope of chlorine

Atomic weight of an element is the Weighted Average of its isotopes

Chlorine’s atomic weight = 35.45 amu

Atomic weight is listed on Periodic Table

Calculate the atomic weight of Chlorine

For each isotope of that element,

Sum of: % abundance x isotope mass

Cl - 35: 0.7553 x 34.969 amu = 26.41 amu

Cl – 37: 0.2447 x 36.966 amu = 9.04 amu

Atomic Weight = average mass = 35.45 amu

(Periodic Table) (weighted)

Magnesium occurs as 3 isotopes,

Mg – 24, Mg – 25, Mg – 26

Calculate the atomic weight of magnesium

Isotope mass (amu) % abundance

Mg – 24 23.985 78.70

Mg – 25 24.986 10.13

Mg – 26 25.983 11.17