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Agenda Development of Atomic Model History Atomic Structure Simulation
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Watch Video & Answer Questions 1-6
430c9c4e0ebb74/Bill%20Nye%20- %20Atoms 5:13 8:37
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Evolution of the Atomic Model
Since atoms are too small to see even with a very powerful microscope, scientists rely upon indirect evidence and models to help them understand and predict the structure of an atom.
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Democritus & Leucippus (~400 BC)
Greek philosophers first to propose that matter made up of tiny, indivisible particles called atomos, the Greek word for atoms
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Robert Boyle Proposed that an element is a substance that cannot be broken down into simpler substances
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Antoine Lavosier: 1800s His experiments supported the law of conservation of mass: matter cannot be created or destroyed Supported Boyle’s claim that an element could not be broken down by chemical methods.
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John Dalton (1803) Dalton theorized that the basic unit of matter is a tiny particle called an atom Dalton’s Theory: All elements are composed of indivisible (can’t be broken down) atoms All atoms of a given element are identical Atoms of different elements are different; Compounds are formed by the combination of atoms of different elements
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John Dalton (1803) Billiard Ball Model:
An atom is represented by a hard sphere (like the particle diagrams we have been drawing)
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JJ Thomson (1897) Used a cathode ray tube to show one of the smaller units that make up an atom Because the cathode ray deflected towards the + charged plate when an electric field was applied, Thomson concluded that the ray was formed by particles and the particles were negatively charged
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JJ Thomson (1897) Thomson discovered that the atom is made up of small, negatively charged particles which he called electrons Developed the Plum Pudding Model of the atom
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Rutherford: Gold Foil Experiment
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Ernest Rutherford (1909) Conducted the gold-foil experiment:
Directed alpha particles (small, positively charged particles), at a thin piece of gold foil Most of the alpha particles passed straight through the foil and a few were slightly deflected Some of the alpha particles were greatly deflected and bounced back
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Ernest Rutherford (1909) Rutherford concluded that atoms have a dense, central core called the nucleus, while the remainder of the atom is essentially empty space Positively charged particles known as the protons are found in the nucleus
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James Chadwick First to prove the existence of the neutron
Provided explanation as to why the positively charged protons in the nucleus stayed intact and did not repel each other.
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Neils Bohr (1913) Bohr Model a.k.a. “Planetary Model” or “Electron-Shell Model” The nucleus contained the protons and neutrons The electrons orbited around the nucleus (like planets orbiting the sun)
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Electron-Shell Model Electrons are shown in concentric circles or shells around the nucleus The 1st shell can hold a maximum of 2 electrons The 2nd shell can hold a maximum of 8 electrons The 3rd shell can hold a maximum of 18 electrons Electrons in the outermost shell are called the valence electrons
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Wave-Mechanical/Cloud Model (modern, present-day model)
Developed after the famous discovery that electrons can be viewed as both a wave and particle Like planetary model, atom is pictured as having dense, positively charged nucleus The difference in this model is how the electrons are pictured
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Wave-Mechanical Model
Electrons have distinct amounts of energy and move in areas called orbitals (clouds) An orbital is a region in which an electron is most likely (most probable) to be located Value of l Orbital (subshell) Orbital Shape Name* s sharp 1 p principal 2 d diffuse 3 f fine
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Structure of an Atom Complete WS regarding atomic structure based on simulation: an-atom
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