Atomic Structure ATOM: the smallest particle that has the properties of an element. From the early Greek concept of the atom to the modern atomic theory, scientists have built on and modified existing models of the atom.

Atoms are composed of a positively charged nucleus surrounded by an electron cloud. –Nucleus (99% of atom’s mass): uncharged neutrons and positively charged protons. –Electron cloud: negatively charged electrons in constant motion creating a “cloud” like a fan.

DEMOCRITUS In 400 B.C., this Greek philosopher suggested that the universe was made of indivisible units. “Atom” – Greek word meaning “unable to be divided”

JOHN DALTON Dalton’s Atomic Theory: –All elements are made of tiny atoms. –Atoms cannot be subdivided. –Atoms of the same element are exactly alike. –Atoms of different elements can join to form molecules. In 1808, this English schoolteacher proposed his own atomic theory that became widely accepted.

As it turns out, the atom can be divided into subatomic particles. Thompson and Millikan are given credit for the first discoveries relating to electrons. Rutherford discovered the positively charged nucleus

Rutherford Scattering Experiment

“I remember Geiger coming to me in great excitement and saying, “We have been able to get some of the alpha- particles coming backwards.” It was quite the most incredible event that has ever happened to me in my life. It was almost as incredible as if you fired a 15 inch shell at a piece of paper and it came back and hit you.” Ernest Rutherford

Rutherford Scattering Experiment Rutherford proposes the nucleus, and the “solar system” model.

NIELS BOHR In 1913, this Danish scientist suggested that electrons “orbit” the nucleus. In Bohr’s model, electrons are placed in different energy levels based on their distance from the nucleus.

Electrons are like books in a book case. They can only exist on certain levels.

Only certain orbits are allowed

An electron jumping up absorbs light

Only certain orbits are allowed An electron jumping down gives off light

Orbits – Energy Levels n = 1 n = 2 n = 3 n = 4

Orbits – Energy Levels n = 1 n = 2 n = 3 n = 4

Orbits – Energy Levels n = 1 n = 2 n = 3 n = 4 Lyman Series (Ultraviolet)

Orbits – Energy Levels n = 1 n = 2 n = 3 n = 4 Balmer Series (Visible)

Rydberg Equation

Bohr Model of the Atom Successful: 1. Explained the existence of line spectra. 2. Explained the frequencies of line spectra.

The Bohr Atom was a “Solar System” model.

Bohr Model of the Atom Defects: 1. Contradicted known physics. 2. Couldn’t explain various intensities of the line spectra. 3. Couldn’t explain why only certain orbits were allowed. 4. Only worked for hydrogen.

Physicists were mystified, but intrigued by Bohr’s theory of the atom. Why are the energies of the hydrogen electron quantized? Why is the electron restricted to orbiting at certain fixed distances?

Louis de Broglie For a decade no one, not even Bohr himself had a logical explanation. In 1924 Louis de Broglie provided a solution.

In his doctoral dissertation he proposed that matter and radiation have both wave and particle properties. He won the nobel prize in 1929

If electrons are waves, what is it that’s waving? Einstein proposes it’s the probability of finding an electron at any given place.

MODERN ATOMIC MODEL By 1925, Bohr’s model of the atom no longer explained all observations. Bohr was correct about energy levels, but wrong about electron movement. Electrons occupy the lowest energy levels available. Energy increases as distance from the nucleus increases. Electrons move in patterns of “wave functions” around the nucleus. It is impossible to know an electrons velocity and location at any moment in time.

Schrödinger In 1926 Schrodinger proposes an equation that gives the probability of finding an electron at any place in the atom. This is very difficult stuff! Don’t worry, this won’t be on the test.

ORBITAL: the regions in an atom where there is a high probability of finding electrons. s is the lowest energy orbital, and p is slightly higher d and f are the next two orbitals. They occupy even higher energy levels and take on more complex shapes than s & p ORBITALS

VALENCE ELECTRONS Electrons in the outermost energy level are called VALENCE ELECTRONS. Valence electrons determine how an atom will act in a chemical reaction. Atoms with equal numbers of valence electrons have similar properties. We will learn how to determine the # of valence electrons in an atom later in this unit.

What part of the atom is much smaller than the atom, yet contains most of the mass? a)the nucleus b)the electron cloud While its diameter is very small compared to that of the entire atom, 99% of the mass of an atom comes from the protons and neutrons in the nucleus. Not drawn to scale

Which statement is true according to Dalton’s atomic theory? a)Atoms of different elements join to form larger atoms. b)Atoms can be subdivided into smaller particles. c)Atoms of the same element differ in electric charge. d)Atoms of the same element are exactly alike. This statement was part of Dalton’s atomic theory. While this statement was holds true if we remove the word “exactly”, we have since found that atoms of an element often differ in number of neutrons (isotopes).

According to Bohr’s model of the atom, electrons behave like a)planets rotating on their axes. b)planets orbiting the sun. c)light energy in a vacuum. d)waves vibrating on a string. While Bohr’s model of energy levels of electrons around an atom remains supported, his model of electron movement has been revised. Schrödinger and other scientists have since found that electrons travel in wave-like patterns around the nucleus. Schrödinger

1869: created first periodic table of elements. Arranged elements in order of increasing atomic mass.

One of Rutherford’s students. 1914: Arranged the elements in order of increasing atomic number (responsible for TODAY’S periodic table).

Organization of the Periodic Table PERIODICITY: regular variations (or patterns) of properties with increasing atomic number. Both chemical and physical properties vary in a periodic (repeating) pattern. PERIOD: horizontal row of elements on P.T. GROUP (FAMILY): vertical column of elements on P.T.

Periodic Key 6 C Carbon Atomic number (Z) Element’s symbol Element’s name Atomic mass (A) # of protons = Z # of electrons = # of protons (in a neutral atom) # of neutrons = A-Z

ISOTOPES Isotopes are atoms that have the same # of protons, but a different # of neutrons. Example: Carbon-12 vs. Carbon C Mass # = 12; Atomic # = 6 (6P, 6E, 6N) 14 C Mass # = 14; Atomic # = 6 (6P, 6E, 8N)

IONS Ionization: the process of adding or removing electrons from an atom or group of atoms. An ion has a net electric charge. Cation: ion with a positive charge. Ex: Na + Anion: ion with a negative charge. Ex: O 2-

Valence electrons & electron dot diagrams Review: The valence electrons are the outermost electrons in an atom. These are the electrons that are involved when there is a chemical reaction. Looking at a periodic table, you can quickly determine how many valence electrons an atom has by what column it is in.

# of Valence electrons

ELECTRON DOT DIAGRAMS: visual representations of elements and their valence electrons R 2 Order of electron/dot placement O Oxygen 6 valence electrons Standard form: element symbol Example:

Determining # P+, N, and E- from chemical symbols: Example 1: atom # protons = 6 #electrons= 6 #neutrons= 14-6 = 8 Example 2: ion # protons = 7 #electrons= 10 #neutrons= 15-7 = 8 14 C 6 15 N 3- 7 Mass # Atomic # No net charge Net charge of -3

The periodic law states that when elements are arranged in order of increasing __________ _________, similarities in their properties occur in a regular pattern. a)Atomic mass b)Atomic number c)Atomic radius Moseley created the modern periodic table when he determined that elements should be placed in order of increasing atomic number (# of protons). It’s a shame that WWI took the life of this brilliant scientist when he was so young.

Carbon-12 and carbon-14 are a)isomers b)isotopes c)radioactive elements d)different elements Isotopes are atoms of the same element with different numbers of neutrons, and therefore different atomic masses. While carbon-14 is used in radioactive dating, carbon-12 has a more stable nucleus and therefore is not used in this capacity.

How many protons, electrons and neutrons are in one atom of oxygen-17? a)17 p, 17 e, 17 n b)17 p, 17 e, 1 n c)8 p, 8 e, 8 n d)8 p, 8 e, 9 n While most oxygen atoms have a mass of 16 g/mol, oxygen-17 is an isotope with a mass of 17 g/mol. The number of protons in an element is the same for every atom of that element. # electrons = # protons if element has no charge.

How many protons, electrons and neutrons are in O 2- ? a)10 p, 8 e, 8 n b)8 p, 8 e, 8 n c)8 p, 10 e, 8 n d)8 p, 6 e, 8 n Every atom or ion of oxygen has 8 protons. The net charge of -2 indicates that the ion has two more negative charges (electrons) than positive charges (protons) All atoms and ions of standard oxygen-16 have 8 neutrons.

How many dots are in an electron dot diagram of chlorine? a)1 b)7 c)17 d)35 Chlorine and all of the other halogens (column 17) have seven valence electrons. Cl