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Chapter 3

Chapter 3. Chemistry. 3.1 Matter. Matter – anything that occupies space and has mass Mass is the quantity of matter an object has. The pull of gravity on an objects mass gives it weight Changes in matter are essential to life’s processes. Physical Properties of Matter.

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Chapter 3

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  1. Chapter 3 Chemistry

  2. 3.1 Matter • Matter – anything that occupies space and has mass • Mass is the quantity of matter an object has

  3. The pull of gravity on an objects mass gives it weight • Changes in matter are essential to life’s processes

  4. Physical Properties of Matter • Can be observed or measured without permanently changing the identify of the matter • Ex. - Color, odor, texture, taste, hardness, melting point, boiling point

  5. Chemical Properties of Matter • Describes the ability to change into a new substance as a result of a chemical change • Ex. Coal burning – can not get it back

  6. 3.2 Atoms • Fundamental unit of matter (atom) • Atoms are the basic building blocks of matter • Cannot be subdivided further by any ordinary chemical means • Made up of subatomic particles (P, N, E) • Have a net zero charge

  7. Structure of Atoms • Nucleus – small central part – made of protons and neutrons • Protons – positively charged particles • Neutrons – neutral particles • Electrons – negatively charged particles found in the space outside the nucleus

  8. The Nucleus • Atomic number – the number of protons in the nucleus determines the atomic number of an element • Each atom has it’s own atomic number • Most of the mass of an atom lies in its nucleus

  9. Mass number – the mass of the entire atom is equal to the sum of its protons and neutrons • Mass number – atomic number = # of N • Atomic Mass – the average mass of all of the atoms of a particular element

  10. Electrons • Atoms generally have the same number of protons and electrons • Atoms are electrically neutral in normal circumstances • Electrons determine the chemical properties of atoms • Electrons are arranged in levels – energy levels

  11. Energy Levels • Each energy level is a different distance from the nucleus • The first energy level holds 2 e- • The second energy level holds 8 e-

  12. A filled outer energy level is a stable electron arrangement • Atoms with unfilled energy levels (valence shells) tend to form compounds where each atom has a filled outer level • Gain, lose or share

  13. First Energy Level: 2 Second Energy Level: 8 Third Energy Level: 18 Fourth Energy Level: 18 Fifth Energy Level: 8

  14. Elements • Made of only one type of atom • Cannot be broken down into simpler substances • Ex. O2, Fe2

  15. Compounds • Made when two or more kinds of atoms are combined in definite proportions • Differs in physical and chemical properties from the elements that compose it • Can be separated into the elements that make them up • Ex. CO2, H2O

  16. Chemical Formula • Shows the kind and proportion of atoms that form a particular compound • Ex. CO2, H2O

  17. Structural Formula • Shows the number and kind of atoms in a molecule but also how the atoms are bonded to one another

  18. Isotopes • Varieties of an element that differ only in the number of neutrons • Not exactly alike but they behave the same way chemically – same number of e- • Ex. Hydrogen – Protium, Deuterium, Tritium

  19. Radioactive Isotopes • The nuclei of many isotopes are unstable • Radioactivity – unstable nuclei give off (emit) charged particles and radiation • Loss of particles (protons) changes the particle to different isotopes, usually of a different element

  20. Practical Uses of Radioactive Isotopes • Tracer – can follow the isotope through stages in a chemical reaction • Ex. P-32 – plants • I – 131 – Thyroid gland • Fe – 59 – blood circulation • Cobalt 60 – used to kill cancer cells • Carbon 14 – brain tumor • Kill bacteria that cause food to spoil • Measure the age of certain rocks • Must be careful – radiation can kill

  21. 3-3 Interactions of Matter • Chemical bonding – combining of atoms of elements • Atoms follow rules • Rules are based on the number of e- in the outer energy level

  22. Ionic Bonds • Transfer of e- from one atom to another • Caused from the gain or loss of electrons • Ion – charged particle Na+ Cl- • Formed when an ionic bond occurs • Ex. NaCl

  23. Covalent Bonds • Sharing of e- • Shared e- are in the outer most level of both atoms at the same time • Strong bond • Single, double or triple • Ex. CO2, H2O, Br2, F2 • H-H, O=O, N N

  24. Molecule • Formed when 2 or more atoms join together in a covalent bond • Ex. CO2, H2O, NH3, C6H12O6

  25. Regardless of the type of bond formed atoms change their physical and chemical properties when they form a compound Ex. Na – silvery metal, reacts explosively with water Cl – poisonous greenish gas – WWI NaCl – table salt – solid- dissolves in water – not poisonous

  26. 3.4 Chemical Reaction Reactants  products AgNO3 and NaCl  AgCl3(s) + NaNO3

  27. Hydrogen Gas Reacting with Oxygen

  28. Chemical Equation O2 + 2H2 (yields) 2H2O 2H2O  O2 +2H2 (Does not happen. Why?)

  29. Balancing Equations

  30. Chemists have learned that the most important factor in determining whether a reaction will occur is the flow of energy. • Spontaneous reactions release energy.

  31. The End

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