+ exam 3 – unit 2 complete individually. no notes. no talking. no sharing calculators. when...
TRANSCRIPT
+Exam 3 – Unit 2
Complete individually.
No notes. No talking.
No sharing calculators.
When finished submit up front.
Begin reading Chapter 3 pages 67-76 and Chapter 1 pages 16-20 Complete Part 1 of Unit Packet
+Exam 3 Analysis
Average Measurement and Calculations #1:
+____/25
% Phases and KMT #2
+____/15
% (up from %)
Matter and Changes #3
+____/10
% (up from %)
+Periodic Table Terminology
1. Periods: Horizontal row of elements in the periodic table.
2. Group (family): A vertical column of elements in the periodic table. (Have the same number of valence electrons)
+Atomic Theory Continues… We have come so far in our understanding of atoms.
Centuries of researching and countless scientists devoting their lives to create the understanding of the atom today (textbook concepts).
However it is NOT over. The more we understand about atoms (how they work, their make up, etc…) the greater our ability to advance science and technology in all aspects of our lives (i.e. medicine).
+Check for Understanding
What is the charge of a proton?
Where would you find a proton in an atom?
What is the charge of an electron?
Where would you find an electron in an atom?
What is the charge of a neutron?
Where would you find a neutron in an atom?
How big is an electron compared to a proton?
How big is a neutron compared to a proton?
+Atoms: The Building Blocks of Matter
Basic Laws (1790s) Law of Conservation of Mass
Mass is neither created nor destroyed during chemical reactions or physical changes.
Law of Definite Proportions A chemical compound contains the same elements in exactly
the same proportions by mass regardless of the size of the sample or source of the compound.
Law of Multiple Proportions If two or more different compounds are composed of the same
two elements, then the ratio of the masses of the second element combine with a certain mass of the first element is ALWAYS a ratio of small WHOLE numbers.
+Atomic Theory - Video John Dalton (1808)
English Schoolteacher Proposed an explanation of the 3 basic laws (as mentioned
previously)
Dalton’s Atomic Theory (5 Statements) All matter is composed of extremely small particles called
atoms. Atoms of a given element are identical in size, mass, and
other properties; atoms of different elements differ in size, mass, and other properties.
Atoms cannot be subdivided, created, or destroyed. Atoms of different elements combine in simple whole
number ratios to form compounds. In chemical reactions, atoms are combined, separated, or
rearranged.
+Modern Atomic Theory
Dalton’s Theory has been modified to fit new findings. (Science is NOT static) Example: Today we know that atoms are divisible into even
smaller particles 1. Subatomic Particles (protons, neutrons, and electrons) 2. Protons and Neutrons are made up of quarks
Important concepts All matter is composed of atoms Atoms of any one element differ in properties from atoms of
another element remain unchanged.
+The Atom The smallest particle of an element that retains the
chemical properties of that element.
Consists of two regions: Nucleus
1. Small region located at the center of an atom 2. Made up of at least one positively charged particle
(proton) 3. Made up of usually one or more neutral particles
(neutrons) Region surrounding the nucleus – Electron Cloud
1. Very large compared to size of nucleus 2. Contains the negatively charged particles (electrons)
+Electron Discovery JJ Thomson (1897)
Cathode-ray tubes 1. Electric current was passed through various gases at
low pressures. 2. The glow was caused by a stream of particles –
cathode ray 3. The ray was deflected by a magnetic field and away
from a negatively charged object. Concluded that all cathode rays are composed of identical
negatively charged particles (electrons) Plum pudding model
1. Negative electrons spread throughout the positive charge of the rest of the atoms.
2. Plums= electrons ; pudding=positive charge
+Electron Discovery Cont…
Robert Millikan (1909) Measured the charge of the electron. (Charge to mass ratio) Mass of electron = 9.109 x 10-31kg
Or about 1/2000 the mass of a hydrogen atom
Inferences from findings… Because atoms are electrically neutral, they must contain a
positive charge to balance the negative electrons. Because electrons have so much less mass than atoms,
atoms must contain other particles that account for most of their mass.
+Nuclear Atom Ernest Rutherford (1911)
Bombarded a thin piece of gold foil with fast-moving alpha particles (positively charged particles)
Concluded that deflected alpha particles must have experienced some powerful force within the atom The source of this force must occupy a very small amount
of space Force must be caused by a very densely packed bundle of
matter with a positive electric charge (Nucleus) Volume of nucleus was very small compared with the total
volume of an atom. If the nucleus were the size of a pea, then the size of the
atom would be about the size of a football field.
+ Refresh: What are Atoms?
Atoms are tiny particles that determine properties of all matter.
Atoms are the building blocks for molecules.
Atoms form elements.
Element: A substance that cannot be broken down into simpler substances by chemical means.
+Parts of an Atom
Proton: A subatomic particle that has a positive charge and is found in the nucleus of the atom.
Neutron: A subatomic particle that has NO charge and is found in the nucleus of the atom.
Electron: A subatomic particle that has a negative charge and moves around the outside of the nucleus.
+Label the Atom
Particle Charge Mass (kg) Location
Proton +1 1.67 x 10-27 nucleus
Neutron 0 1.67 x 10-27 nucleus
Electron -1 9.11 x 10-31 Outside nucleus
Subatomic Particles
+Electron Orbital
-Electrons orbit the nucleus in orbital clouds.
-Electrons with different amounts of energy exist in different energy levels.
+Electrons in each energy level
•Each energy level can hold a limited number of electrons.
•The lowest energy level is the smallest and the closest to the nucleus.
Atomic Number
• The atomic number of an element is the number of protons in the nucleus of an atom of that element.
Atomic Number
• The atomic number of an element is the number of protons in the nucleus of an atom of that element.
+Charge of Atoms
Atoms are not charged even though they have particles that contain charges.
Atoms are neutral because they have EQUAL numbers of protons and electrons.
Ex: Helium Atom
Charge of 2 protons:
Charge of 2 neutrons:
Charge of 2 electrons:
Total charge of He atom:
+2 0
0 -2
Mass Number
The sum of the protons and neutrons in the nucleus is the mass number of that particular atom. (mass # = p + n)
+Atomic Number vs. Mass Number Atomic Number: Equal to the number of protons in the
nucleus of the atom.
(number of electrons = the number of protons)
Mass Number: Equal to the number of protons AND neutrons in an atom’s nucleus.
Average Atomic Weight (below symbol on PT): Weighted average of the atomic masses of the naturally
occurring isotopes of an element We will round this number to the nearest hundredth (TWO
decimal places) Example Oxygen’s average atomic mass is 15.9994 = 16.00
+Application
Iodine (I) Iron (Fe)Atomic number ____ Atomic Number ____
Atomic Mass ____ Atomic Mass ____
Number of Protons ____ Number of Protons ____
Number of Neutrons ____Number of Neutrons____
Number of electrons ____Number of Electrons ____
+Application
Nickel (Ni) Radon (Rn)
Atomic number ____ Atomic Number ____
Atomic Mass ____ Atomic Mass ____
Number of Protons ____ Number of Protons ____
Number of Neutrons ____Number of Neutrons____
Number of electrons ____Number of Electrons ____
Isotopes
• Isotopes of an element have different mass numbers because they have different numbers of neutrons, but they all have the same atomic number.
Isotope Examples
Carbon – 12 6 protons 6 electrons 6 neutrons
Carbon – 13 6 protons 6 electrons 7 neutrons
Carbon 14 6 protons 6 electrons 8 neutrons
+Isotope Tables
Breaking it down… To find the symbol – determine the atomic number of the element.
This is the number of protons To find the protons- determine the atomic number of the element. To find the electrons – equal to the number of protons of a neutral
atom To find neutrons: Mass Number – Atomic Number = Number of
Neutrons To find Mass Number: Atomic Number + Number of Neutrons = Mass
Number