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Ancient Greek Models of Atoms - Democritus believed all matter was made of extremely small particles that could not be divided - he called the particles atoms (from the Greek atomos meaning indivisible) - he thought there were different types of atoms with different properties (liquids had round, smooth atoms and solids were rough and prickly) B. Dalton’s Atomic Theory - he proved atoms exist by discovering that compounds have a fixed composition Dalton’s Theory: all elements are composed of atoms •all atoms of the same element have the same mass, and atoms of different elements have different masses •compounds contain atoms of more than one element •in a particular compound, atoms of different element always combine in the same way he pictured atoms as solid spheres - in time it was found that not all of this was completely correct C. Thomson’s Model of the Atom - some objects have a positive or negative charge and objects with the same charge repel and objects with opposite charges attract - Thomson used an electric current to learn more about atoms - he passed an electric current through a gas and a glowing beam appeared - the beam was repelled by a negatively charged metal plate (like charges repel and opposite charges attract) - Thomson concluded that the beam most be made of negatively charged particles, smaller than atoms. electrically neutral, he developed a model in which negative charges were evenly scattered throughout an atom filled with a positively charged pudding like material - called the “Plum Pudding” model (or chocolate chip cookie dough) D. Rutherford’s Atomic Theory - Rutherford discovered positively charged, fast moving particles called alpha particles - he shot some of these particles a piece of gold foil, thinking they would go straight through - when he actually performed the experiment, he found that the positively charged alpha particles were greatly deflected by the gold (figure 7, p. 104) - he determined that the alpha particles must have come very close to another positively charged particle causing them to be repelled and put off course - this led him to believe that the positive charge in an atom is not evenly distributed, but concentrated in a very small central area he called the nucleus - his model of the atom is a small, positively charged nucleus surrounded by negatively charged particle Prentice Hall Physical Science Chapter 4 Atomic Structure 4.2 The Structure of the Atom A. Properties of Subatomic Particles Protons (p+) positively charged (1+) found in the nucleus mass of 1 amu (atomic mass unit) Neutrons (no) no charge (neutrally charged or neutral) found in the nucleus mass of 1 amu Electrons (e-) negatively charged (1-) - found in the electron cloud outside the nucleus mass of 1/1836 amu B. Atomic Number, Mass Number, and Atomic Mass Atomic Number it is the number of protons in an atom - it is the WHOLE number in each square of the periodic table - all atoms of the same element have the same atomic number •since atoms are electrically neutral, the number of protons (positive charges) they have is equal to the number of electrons (negative charges) they have •it is the number of protons in an atom that determine what element the atom is Mass Number - it is the number of protons PLUS the number of neutrons in an atom mass number = #protons + #neutrons #neutrons = mass number - #protons NOT on the periodic table Atomic Mass •because protons are so small, it is hard to find their mass using traditional units, so scientists developed the atomic mass unit (amu) to describe the mass of a proton •1 amu = 1/12 the mass of a carbon-12 atom •every atoms of one element does NOT have the same number of neutrons so every atom in one element does not have the same mass •atomic mass is the weighted average of all of the possible atoms in an element •example: chlorine comes in two forms: chlorine-35 and chlorine-37 • 75% is chlorine-35, 25% is chlorine-37 C. Isotopes - atoms of the same element with the same number of protons, but different numbers of neutrons and different mass numbers - example: oxygen-18 oxygen-16, oxygen-17, and Prentice Hall Physical Science Chapter 4 Atomic Structure 4.3 Modern Atomic Theory A. Bohr’s Model of the Atom also called the planetary model - it focused on the arrangement of the electrons in the atom Energy Levels •Bohr said that electrons move with constant speed in fixed orbits (energy levels) around the nucleus •each electron in an atom has a specific amount of energy which is equal to the energy of one of the energy levels in the atom •an electron must be in an energy level, it cannot be between •energy levels closest to the nucleus have the lowest amount of energy and the ones frthest away has the most energy •if the atom loses or gains energy, the electrons lose or gain energy too and must, therefore, change energy levels to match their energy •if the electron gains energy, the electron moves up to a higher E level - electrons want to be in the lowest E state possible B. Electron Cloud Model - scientists now know that electrons don’t move like planets; they are MUCH less predictable - in this model, scientists state only where electrons probably are - the electron cloud represents where the electrons probably are outside the nucleus; the cloud is denser where the probability of finding an electron is greater example: fan blades spinning C. Atomic Orbitals - the electron cloud contains orbitals which are the regions around the nucleus where an electron is likely to be found each orbital can only hold 2 electrons - the lowest E level contains only 1 orbital, and can hold only 2 electrons E level 2 = 4 orbitals and 8 electrons E level 3 = 9 orbitals, 18 electrons E level 4 = 16 orbitals, 32 electrons D. Electron Configurations - the arrangement of electrons in the orbitals of an atom - the most stable is the one with the electrons in the lowest possible E levels this is the ground state Similar Ch 4 questions Nuclear Plum Pudding Atomic Planetary Or Raisin Bun Introduced apch02_nucleaatom A review of Atoms section 4.4-4.5 questions Bill Nye Science Video – Atoms 1. Atom is from a Greek word atomic structure worksheet studyres.com © 2017 DMCA Report