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Classifying Matter Compounds -substances made up entirely of the same molecule. molecule- 2 or more atoms bonded together. molecule- 2 or more atoms.

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Presentation on theme: "Classifying Matter Compounds -substances made up entirely of the same molecule. molecule- 2 or more atoms bonded together. molecule- 2 or more atoms."— Presentation transcript:

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2 Classifying Matter

3 Compounds -substances made up entirely of the same molecule. molecule- 2 or more atoms bonded together. molecule- 2 or more atoms bonded together. these are represented by chemical formulas these are represented by chemical formulas element symbols and subscript numbers. element symbols and subscript numbers. H 2 O H 2 O hydrogen (2 of them) oxygen hydrogen (2 of them) oxygen subscript numbers mean there are that many of the atom it is directly behind. subscript numbers mean there are that many of the atom it is directly behind. If there is no subscript number then 1 is implied. If there is no subscript number then 1 is implied. water, ammonia, glass, methane and limestone water, ammonia, glass, methane and limestone

4 Here is where capitalization becomes really important CO 2 CO 2 Co 2 Co 2 1 carbon, 2 oxygen carbon dioxide ( a gas) 2 cobalt atoms cobalt is a metal

5 Some elements can have molecules as their smallest component as long as the molecule is made up entirely of the same atom as long as the molecule is made up entirely of the same atom The oxygen we breathe is not 1 oxygen atom, it is O 2 The oxygen we breathe is not 1 oxygen atom, it is O 2 When 2 atoms are joined like in the above case, it is called a diatomic element When 2 atoms are joined like in the above case, it is called a diatomic element The 7 diatomic elements are hydrogen, nitrogen, oxygen, fluorine, chlorine, bromine, and iodine The 7 diatomic elements are hydrogen, nitrogen, oxygen, fluorine, chlorine, bromine, and iodine

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7 Allotropes allotrope -one of the different molecular forms of an element allotrope -one of the different molecular forms of an element oxygen has 2 allotropes oxygen has 2 allotropes O 2 and O 3 (ozone) O 2 and O 3 (ozone) carbon has several allotropes carbon has several allotropes graphite, diamond, buckyball (found in soot) graphite, diamond, buckyball (found in soot)

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9 Mixtures compounds and/or elements mixed together but not bonded together compounds and/or elements mixed together but not bonded together heterogeneous mixture- different throughout or chunky heterogeneous mixture- different throughout or chunky granite, orange juice with pulp, Italian dressing granite, orange juice with pulp, Italian dressing homogeneous mixture- even throughout homogeneous mixture- even throughout milk and saltwater milk and saltwater Solution really well mixed homogeneous mixtures Solution really well mixed homogeneous mixtures

10 Breakdown of classification

11 Separating Mixtures Mixtures can be separated by chemical or physical means Mixtures can be separated by chemical or physical means Separating Compounds compounds can ONLY be separated by chemical means (requires a chemical change) compounds can ONLY be separated by chemical means (requires a chemical change)

12 Separating Elements atom is from the Greek word atomos, meaning not able to be cut. atom is from the Greek word atomos, meaning not able to be cut. elements can NOT be separated by chemical or physical means. elements can NOT be separated by chemical or physical means. The only way to separate an atom is through a nuclear reaction. The only way to separate an atom is through a nuclear reaction.

13 Energy and Chemistry

14 Law of conservation of energy Energy can neither be created nor destroyed, it can only change forms. Energy can neither be created nor destroyed, it can only change forms. An exothermic reaction releases energy, where did it come from? An exothermic reaction releases energy, where did it come from? The energy holding the molecules of the reactants together (bonds). The products need less energy to be held together so the energy is released to the area surrounding the reaction. The energy holding the molecules of the reactants together (bonds). The products need less energy to be held together so the energy is released to the area surrounding the reaction.

15 Endothermic reactions absorb energy, where does that come from? ~from the area surrounding the reaction. ~from the area surrounding the reaction. That is why it ends up feeling colder. That is why it ends up feeling colder. In both cases energy is conserved, it is either donated to another system or taken from another system. In both cases energy is conserved, it is either donated to another system or taken from another system.

16 Energy Changes All chemical reactions (chemical changes) involve a change in energy All chemical reactions (chemical changes) involve a change in energy Physical changes also involve a change in energy Physical changes also involve a change in energy We are only going to look at phase changes We are only going to look at phase changes

17 Heat energy Atoms/molecules in a substance are not stationary, they move around. Atoms/molecules in a substance are not stationary, they move around. Heat energy in an object is the rate of motion of atoms/molecules in a substance Heat energy in an object is the rate of motion of atoms/molecules in a substance The faster the particles are moving the more heat energy the substance has. The faster the particles are moving the more heat energy the substance has.

18 Energy in phases Solid- atoms/molecules vibrate in one place, occasionally sliding by one another. ~students in detention Solid- atoms/molecules vibrate in one place, occasionally sliding by one another. ~students in detention Liquid- atoms/molecules move freely with more energy within a confined volume. ~students in the cafeteria Liquid- atoms/molecules move freely with more energy within a confined volume. ~students in the cafeteria Gas- atoms/molecules move around wildly constantly running into each other. ~football practice Gas- atoms/molecules move around wildly constantly running into each other. ~football practice

19 Causing phase changes To go from solid  liquid  gas you… To go from solid  liquid  gas you… add energy (from another system) add energy (from another system) to turn ice into water you heat it, to turn water to steam you heat it. to turn ice into water you heat it, to turn water to steam you heat it. To go in the reverse direction you remove energy. (there is no cold energy you can add) To go in the reverse direction you remove energy. (there is no cold energy you can add)

20 Matter without heat energy If you continually cool (remove energy) an object, eventually the object will have no more energy. If you continually cool (remove energy) an object, eventually the object will have no more energy. This is called absolute zero. It is when all motion (of the particles) stops. This is called absolute zero. It is when all motion (of the particles) stops. It should occur at -273.15 o C or 0 K or -459 o F It should occur at -273.15 o C or 0 K or -459 o F Cornell and Wieman cooled a sample to 0.000000004 K Cornell and Wieman cooled a sample to 0.000000004 K

21 Temperature A measure of intensity of the heat energy in an object. A measure of intensity of the heat energy in an object. It is an average of how fast the particles are moving within an object. It is an average of how fast the particles are moving within an object. It is measured in Celsius (centigrade) or Kelvin scale. It is measured in Celsius (centigrade) or Kelvin scale. Kelvin = Celsius + 273 Kelvin = Celsius + 273

22 Matter and energy connection matter can be converted into energy. matter can be converted into energy. you can calculate by the equation: you can calculate by the equation: E = mc 2 E = mc 2 energy = mass x (speed of light) 2 energy = mass x (speed of light) 2 speed of light = 3.0 x10 8 m/s speed of light = 3.0 x10 8 m/s This is in Einstein’s theory of special relativity. This is in Einstein’s theory of special relativity. This happens in all energy transfers but normally the difference is too small to measure This happens in all energy transfers but normally the difference is too small to measure


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