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I. Atoms are the smallest forms – All matter is made of atoms • Chemists know about 100 basic elements – Some exist individually – Some combine to make new substances – Atoms in Earth’s crust and living things • 90% of the universe is composed of Hydrogen (H) – H makes up 1% of the Earth’s crust – Most are combined with Oxygen (O) in the form of water I. Atoms are the smallest forms • Most living things contain 25 types of atoms. • Most made of four types of atoms – – – – Oxygen (O) Carbon (C) Hydrogen (H) Nitrogen (N) – Names and Symbols of Elements • Each element has a unique name and symbol – Some use the first letter of their name – Others have the first letter plus one other. • If there is one letter to represent, it will always be capitalized • If two letters, second one is always lower cased. • Many names derived from Latin, Greek or other names. I. Atoms are the smallest forms – Each element is made of different atoms • John Dalton thought that each element was made of tiny particles called atoms. • He stated that each atom of the same type is identical. Atoms of different kinds do not resemble any other type. • Later discoveries indicated that the atom was broken down in to even smaller parts. I. Atoms are the smallest forms – Structure of an atom • Atoms are composed of three types of particles • Two are located within the center of the atom called the nucleus. – Proton-positively charged particle – Neutron- neutral particle – Neutral particles are necessary to prevent all the “+” charges from repelling each other and causing the nucleus to become unstable. – Outside the nucleus are electrons- negatively charged particles I. Atoms are the smallest forms • Electrons are much smaller in size than protons or neutrons. • Electrons move so quickly around the nucleus that they create a cloud around the nucleus. • Electrons are attracted to the nucleus because of their negative charge and the protons positive charge inside the nucleus I. Atoms are the smallest forms – Atomic numbers • Atoms are determined by the number of protons in the nucleus. • This creates the atomic number – Atomic Mass numbers • The total of the protons and neutrons together give the atom’s atomic mass number. I. Atoms are the smallest forms • Not all atoms of an element have the same atomic mass – Atom will have the same number of protons – But not the same number of neutrons • This creates an Isotope – Atoms of the same element that have different number of neutrons – Some elements have many isotopes, others have just a few. • Isotopes are designated by the name of the element and the total number of its protons and neutrons. • You can find number of neutrons by subtracting atomic number from Atomic Mass Unit. I. Atoms are the smallest forms – Atoms Form Ions • An atom has the same number of protons and electrons. • Each positive charge cancels out a negative charge. • There will be no overall charge • An Ion is formed when an atom gains or loses an electrons – When electrons are lost, there are more protons giving an overall positive charge – If electrons are gained, there are more electrons giving an overall negative charge. I. Atoms are the smallest forms • Formation of Positive ions – When electrons lost, less repulsion of remaining electrons – Positive ion is smaller than the neutral atom – Represent an ion using the chemical symbol and how many electrons have been lost. – Write as a superscript Ca+2 I. Atoms are the smallest forms • Formation of Negative Ions – – – – When electrons gained, more are now there Negative ion is larger then neutral atom Extra electrons cause expanding of electron cloud Represent using the chemical symbol with a negative subscript and number gained – Cl– O2- II. Elements make up the periodic table – Elements can be organized by similarities • One way is by mass of atoms • Atomic mass of atoms is the average mass of all the element’s isotopes – Mendeleev’s Periodic Table • Organized elements based on properties • Based on physical and chemical similarities. • Created the periodic table where the rows increased in atomic mass – Predicting New Elements • Mendeleev left spaces where nothing known fit • Predicted new elements would complete the chart II. Elements make up the periodic table – Periodic table • Modern table has elements with similar properties in columns • Elements arranged by atomic number, not by atomic mass – Reading Periodic Table • Each square tells specific information • Top number is the Atomic Number – Number of Protons – Located in nucleus II. Elements make up the periodic table • Chemical symbol in the Middle – is the abbreviation of the element’s name – Contains one or two letters – Some are three letters b/c they are not yet named • The element’s name. Written below symbol • Atomic mass. Number below name. Atomic mass is all the isotopes of the element. II. Elements make up the periodic table • Element’s color indicates existence at room temperature. – White means gas – Blue means liquid – Black means solid • Background color indicates type of metal – Metal – Non metal – Metalloid II. Elements make up the periodic table – Groups and Periods • Elements arranged in a column – Called a group – Labeled at the top of the column – Sometimes called a family • Horizontal rows – called Periods – Properties of elements change predictably from one end to the other. II. Elements make up the periodic table – Trends in Periodic Table • Atoms on left side of table form positive ions easily (give away electrons for an overall positive charge) – – – – – – Group 1 lose an electron to become +1 Ions Group 2 loses two electrons to become +2 ions Group 18 do not form ions at all Group 17 gain an electron to become negative ions Group 16 can gain 2 electrons to become -2 ions Groups 3 to 12 all form positive ions but the charge can vary II. Elements make up the periodic table • Sizes of atoms vary across periods within groups. Important because it affects how the atom will react with another atom • Densities follow a pattern – Generally increase from top to bottom – Elements within a period the left and right sides are least dense, • Middle is most dense III. Periodic table is a map of the elements – Distinct regions on the periodic table • Three main regions – Metals on the left – Non metals on the right (except for Hydrogen) – Metalloids in the middle. » Yellow box will indicate metal » Green nonmetal » Purple metalloid • Location also indicate reactivity – Groups 1 and 17 most reactive – 18 least because they are stable. III. Periodic table is a map of the elements – Most Elements are metals • Conduct electricity and heat • Have a shiny appearance • Easily shaped (malleable) into – Wire, – Sheets – Bent • Exception is mercury , but all others a solids at room temperature III. Periodic table is a map of the elements – Reactive Metals • Group 1 – Called alkali metals – Very reactive » Potassium » sodium • Group 2 are alkaline earth metals – Less reactive than alkali – More reactive then most. » Calcium » magnesium III. Periodic table is a map of the elements • Transition Metals – Groups 3-12 – Generally less reactive – Found in foods we eat » Copper, » Gold » Silver » Iron • Rare Earth Metals – – – – Located in top row of the two rows of metals Referred to as Lanthanides Called this because were once rare Now only hard to isolate III. Periodic table is a map of the elements – Nonmetals and metalloids • Elements on right side are the nonmetals – Opposite properties of metals – Mostly gasses » Air is made of nonmetals » Carbon in living things • Halogens – – – – Elements in group 17 Means forming salts Very reactive Used to kill harmful microorganisms III. Periodic table is a map of the elements • Noble gasses – Group 18 – Inert or unreactive • Metalloids – Elements having both metal and nonmetal properties. – Located on either side of the zigzag of table III. Periodic table is a map of the elements – Atoms changing identity • Chemical reactions do not effect the nucleus of an atom • Certain conditions can change the number of protons • Each atom has isotopes with different numbers of neutrons • Stability of nucleus depends on the right number of protons and neutrons • Too few or too many neutrons, nucleus becomes unstable • When this happens particles are produced from the nucleus to restore balance III. Periodic table is a map of the elements • This change is accompanied by a release of energy – Marie Curie named this process radioactivity. – She was first person to isolate polonium and radium • Isotope is radioactive if nucleus has too many or too few neutrons – Rare for small atoms – Heaviest elements (beyond bismuth, al isotopes are radioactive III. Periodic table is a map of the elements • Measure radioactivity with Geiger counter – Detects particles from the breakup of the atomic nucleus with clicks – More clicks more particles being produced – Uses of Radioactivity in Medicine • Used to destroy tumors • Monitor activity of certain organs in body • Large/prolong exposure can do damage.