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Chapter 3 Atoms, Elements, and the Periodic Table Important Vocabulary Matter Atom Law of Conservation of Matter Electron Nucleus Proton Neutron Element Atomic Number Isotope Mass Number Atomic Mass Metal Non-Metal Metalloid Substance Compound Mixture Launch Lab Get into your Science Teams Look at the materials provided as I give you directions Question: Will you see all three states of matter in this lab activity Write your hypothesis Perform the Experiment Launch Lab Discussion What happened to the paper towel? What caused this result? Conclusion: Water was the liquid state of matter The paper towel was a solid The air in the cup was the gas Air is matter because it occupies space What is matter? Look at figure 1 on page 72. What in these pictures is matter? Matter is anything that has mass and takes up space Name some things that are not made up of matter. Atoms A small particle that makes up most matter In your science journal, draw what you think and atom looks like At one time was believed to be a solid unit Now broken into even smaller particles Neutron, electron, and proton Democritus Greek philosopher, lived from 460BC to 370 BC Claimed that each type of matter was made up of specific atoms For example: solid water (ice) is made of different atoms than liquid water His ideas were ignored until the early 1800s Lavoisier’s Contribution French chemist, lived 2000 years after Democritus Law of Conservation of Matter- Matter is neither created nor destroyed. It simply changes form When you burn wood, what happens to the log? John Dalton Stated that matter is made up of atoms that are too small to be seen Claimed that each element was made up of specific atoms that were unique to that element His findings are known as the atomic theory of matter JJ Thomson Observed that electricity flowed from negative to positive components of a sealed tube and could be bent by a magnet He knew that opposites attract and the beam was traveling towards a positive charge, so therefore the beam must be made of negatively charged particles Electrons- subatomic particles with a negative charge So what keeps us from being electrocuted? You don’t get a shock when you touch everything, so what must also be present in the atom? A positively charged particle The proton Ernest Rutherford In 1910, his team shot gold foil with alpha particles Positively charged particles Since all of the alpha particles did not pass through the foil, he predicted that most of the atom was made up of empty space Rutherford’s results provided him with information to name the nucleus Nucleus- Positively charged central part of the atom Contains protons James Chadwick Assistant to Rutherford Discovered the neutron- neutral particle in the nucleus Found this data when he noticed that the gold atoms in the foil had released some mass with no charge That unknown mass is what Chadwick called the neutron Modern Atomic Model Look at Figure 8 on pg. 78 This model is the accepted atomic model (Bohr’s Model) Notice the negatively charged electron cloud and the positively charged nucleus New Research Modern science has advanced atomic research Protons and electrons have whole charges +1 or -1 The particles in the nucleus are now broken down into even smaller particles called quarks These particles are identified by their spin pattern and have a fractional charge Up, down, strange, charmed, top, and bottom The Simplest Matter Element- matter made up of only one kind of atom At least 115 elements are known and 90 of them occur naturally on Earth Non-natural elements are known as synthetic elements Formed from nuclear reactions in machines known as particle accelerators Organizing the Elements Dmitri Mendeleev organized the first periodic table in order of each element’s mass His table only included 60 known elements The modern Periodic Table is organized by atomic number The Periodic Table Structure and Organization of Important Vocabulary Matter Atom Law of Conservation of Matter Electron Nucleus Proton Neutron Element Atomic Number Isotope Mass Number Atomic Mass Metal Non-Metal Metalloid Substance Compound Mixture What is an Atom? An atom is the simplest form of matter It is made of three major particles The Proton – The Electron – Positive Charge, In the Nucleus Negative Charge, In the Shells and Orbitals The Neutron No Charge, In the Nucleus Let’s Draw an Atom - + + + - Notice a few things about our atom… How many protons does it have? How many neutrons does it have? How many electrons does it have? What is the object in the center? How many rings does it have? How many electrons are on the outside ring? What do protons mean? The number of protons is also the atomic number of the atom/element Example: Hydrogen, atomic symbol H, has 1 proton since it is element #1 How many protons does each of these have? Beryllium, Oxygen, Nitrogen, Xenon, Carbon Name the element with the number of protons shown. 14, 27, 5, 30 What do Neutrons mean? If you add the number of neutrons and protons, you get the atomic mass This is the decimal number underneath the atomic symbol Example: Magnesium is element #12 How many protons? Its atomic mass is 24.3050, which rounds to 24. How many neutrons does Magnesium have? What do electrons mean? Electrons are the negatively charged particles located in the rings around the nucleus There are exactly the same number of protons as there are neutrons How many electrons: Sodium – Atomic Number 11 Silicon – Atomic Number 14 Arsenic – Atomic Number 33 What is the thing in the center? That is the nucleus Review: What two particles are in the nucleus? What overall charge does the nucleus have? What do the rings mean? The number of rings tells you on which row the element is located Hydrogen has how many rings? How many rings does Helium have? What about Carbon? What about Iodine? What do the outer electrons mean? The outer ring electrons are called valence electrons These tell you to which column or family the element belongs Special Note: This only applies to families 1,2 and 13-18 How many valence electrons does Hydrogen have? Neon? Aluminum? Now for Rules on Rings… Ring Rules The inner ring, #1, can only have 2 electrons The second ring can have up to 8 electrons The third ring can have up to 18 electrons The fourth ring can have up to 32 electrons All rings up to ring #7, the last ring, can have up to 32 electrons KEY VOCAB: Energy Level – the rings containing electrons are actually called energy levels 1 1 2 3 4 5 6 7 8 2 3 Transition Metals DO NOT Follow Rules 4 5 6 7 Transition Metals Noble Gases Halogens Alkaline Earth Alkali Naming the Elemental Families Organization on the Periodic Table Rows are called families Have the same number of energy levels Columns are called groups Have the same number of valence electrons and bond similarly Isotopes What do you know about isotopes? Atoms with the same number of protons, but different numbers of neutrons Isotopes determined by mass number (the sum of protons and neutrons in the nucleus) Mass number on the periodic table is the average mass of the element Hydrogen Isotopes Hydrogen has three isotopes Protium 1 proton, 0 neutrons Deuterium 1 proton, 1 neutron Most abundant radioactive Tritium 1 proton, 2 neutrons radioactive Element categories Metals- shiny, metallic luster, good conductors of electricity and heat Non-metals- usually dull in appearance, brittle (can change shape)– be familiar with figure 17 All metals are solid at room temperature except mercury (liquid) Usually poor conductors of electricity Many are gasses at room temp Metalloids- characteristics of metals and nonmetals, found in a stairstep pattern between metals and non-metals All are solid at room temp Metalloid Stairstep Compounds and Mixtures Substance- mixture with the same chemical properties throughout Compound- substance whose smallest unit is made up of atoms of two or more elements Have properties different than the elements that make up the compound Compound Example What are some properties of hydrogen? What are some properties of oxygen? What are some properties of the compound made up of 2 hydrogen atoms and 1 oxygen atom? What about 2 hydrogen and 2 oxygen? Compounds Have formulas Naming the formulas Prefixes: mono-, di-, tri-, quad-, pent- hex-, hepto-, octo-, nono- decaSuffixes: -ine, -ane, -ite, -ate, -ous Let’s practice a few naming problems Name these: Sodium (Na) + Chlorine (Cl) = NaCl Hydrogen (H) + Oxygen (O) = H2O Hydrogen (H) + Chlorine (Cl) = HCl Carbon (C) + Oxygen (O) = CO2 8 Hydrogen (H) + 3 Carbon (C) = H8C3 Hydrocarbons have special naming techniqueswe will discuss these techniques in Chapter 9 Mixtures When two substances (elements or compounds) do not combine to make a new substance when mixed What happens when you combine oil and water? Observe the bottle I have prepared. Two kinds of Mixtures Homogeneous- the same throughout Examples: Teas, Soda, Fruit flavored soft drinks Heterogeneous- larger components that are visibly different from one another Examples: Salads, cookies, mixed nuts A Quick Review Describe and name the parts of an atom Name 5 things that are matter and five things that are not matter What is the difference between atomic mass and atomic number? Name and describe the Isotopes of Hydrogen A quick Review What is an isotope and what makes them possible? Solve: An atom of Phosphorous has 15 protons and 15 neutrons, what is the mass number? Solve: The element Tungsten has a mass number of 184, how many neutrons does Tungsten have? A Quick Review What is the difference between homogeneous and heterogeneous mixtures? What three types of elements are there and give properties of those elements?