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Transcript
CHEMISTRY NOTES: • Atom: the smallest unit of matter that retains the identity of the substance • Atoms are composed of 2 regions: • Nucleus: the center of the atom that contains the mass of the atom. Protons and neutrons are located here. • Electron cloud: region that surrounds the nucleus that contains most of the space in the atom • The nucleus contains: • Protons: positively charged particles. The number of protons determines the identity of the atom • Neutrons: neutrally charged particles • Protons and neutrons make up almost all the mass of the atom • The electrons reside outside of the nucleus in the electron cloud • Electron: the particle with a negative charge and almost no mass (its mass is about 1/2000th that of a proton or neutron) • In a neutral atom: • The number of protons = the number of electrons • An atom with an unequal number of protons and electrons is called an ion. Ions have an overall charge. • The charge represents the imbalance between protons and neutrons. For example if an atom gains 2 electrons, its charge is -2 (the negatives outnumber the positives by 2.) If an atoms loses three electrons, its charge is +3 (the positives outnumber the negatives by 3) • Isotopes are atoms of the same type that have different numbers of neutrons. Because they are the same type of atom, isotopes have mainly the same properties – the difference is the mass is greater or less due to the different number of neutrons • Example: Carbon atoms could be: • “Carbon-12”: 6 protons, 6 electrons, and 6 neutrons, OR • “Carbon-13”: 6 protons, 6 electrons, 7 neutrons (Notice – when an element’s full name appears and then a dash, the number after the dash is the mass #) • Atomic Notation: A standard way that chemists “address” or identify a specific atom. Ex: see below Mass number = number of protons plus number of neutrons in that specific atom. (Sometimes atoms are written with their name, then a dash, then their mass number. For example carbon-13, means a carbon atom with a mass number of 13) Atomic number= the number of protons. (This is what makes one type of atom different from other types) Symbol: The capital letter OR capital letter and lowercase letter that stands for a certain element. (Ex. C is for Carbon and Ca is for calcium) Charge: Here the charge is +1. This means that the positively charged protons outnumber the electrons by 1. We know there are 11 protons, so this atom must have 10 electrons Note: You only need to know how many electrons can maximally fit in the first 3 shells (energy levels): 2, 8, 18. Valence electrons: those electrons found in the outermost shell (energy level) of an atom. Bohr model: Example above. (It shows the nucleus and then each energy level with the electrons which reside there) Lewis structure: consist of the elements symbol and a dot for each of the valence electrons. Ex: Organization of the P. T. -Elements are arranged in order of increasing atomic number -Columns of elements are called groups or families. (Going left to right can you name the families?) -Elements in each family have similar but not identical properties. -All elements in a family have the same number of valence electrons. For example: Alkali Metals: Sodium, Lithium etc. have one valence electron Alkali Earth metals: Beryllium, Magnesium, etc. have 2 valence electrons Boron Family: Boron, Aluminum etc. have 3 valence electrons Carbon Family: carbon, Silicon etc. has 4 valence electrons Nitrogen Family: Nitrogen, Phosphorus etc. have 5 valence electrons Oxygen Family: Oxygen, Sulfur etc. have 6 valence electrons Halide or halogen family: Have 7 valence electrons Noble gases: Helium, Neon, Argon, etc. have a complete outer shell. Helium has 2 and all other noble gases have 8 valence electrons. Horizontal Rows on the Periodic Table are called periods. Members of a period do not have similar characteristics. Periods are numbered. The first period contains hydrogen and helium. The second period contains Li, B, B, C, N, O, F, and Ne. The third period contains Na, Mg, Al, etc. all the way until Ar. Remember: If you are asked how many valence electrons an atom has: - find the answer by determining the family that elements belongs to and remembering how many valence electrons each member of that family has -DO NOT draw out the Bohr diagram to determine the number of valence electrons because after Argon (#18), the orbital shells do not fill to their maximum number before electrons jump to a higher shell. (Because of this, you will answer incorrectly if you rely on the Bohr diagram for elements after argon))
