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Science, Matter

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Title: Science, Matter


1
Chapter 2
  • Science, Matter Energy
  • Janice Padula
  • Clinton Community College

2
Scientific Method
  • EXPERIMENT - An observation of natural phenomena
    carried out in a controlled manner so that the
    results can be recorded, duplicated, and rational
    conclusions obtained.
  • HYPOTHESIS - A tentative (unconfirmed)
    explanation of or prediction derived from
    experimental observations.
  • MODEL An approximation or simulation of a
    hypothesis or system being studied.
  • THEORY - A tested and widely accepted explanation
    of basic natural phenomena or scientific
    hypothesis.
  • LAW - A concise verbal or mathematical statement
    that is always the same under the same natural or
    controlled conditions.

3
Validity of Results
  • Scientific Results (reputable scientific
    research)
  • Can be disproved
  • Can establish models theories and laws
  • Can NOT prove absolute truth
  • Frontier Science (like media reports)
  • Controversial
  • Not widely tested or accepted
  • Consensus Science (open peer review)
  • Widely accepted in the scientific community
  • Junk Science (no peer review)
  • False information presented in a scientific way
    that is meant to be misleading and is not
    accepted by the scientific community

4
Types of Matter
  • ATOM - The smallest particle of an element that
    retains the chemical properties of that element.
  • ELEMENT - Matter that is composed of only one
    type of atom.
  • MOLECULE - A definite group of atoms that are
    chemically bonded, i.e. tightly connected by
    attractive forces.
  • COMPOUND - Matter that is composed of 2 or more
    elements combined in definite proportions.

5
Law of Conservation of Mass
  • Total mass remains constant throughout a chemical
    reaction
  • ex. 2Hg O2 ---gt 2HgO, where the mass of the 2Hg
    2.53g and the mass of the 2HgO 2.73g, the
    mass of the O2 has to equal 0.20g.

6
PROTONS
  • PROTONS are defined as
  • positively charged subatomic particles with a
    charge of 1.602x10-19 coulombs
  • found inside the nucleus
  • composed of 2 up quarks and 1down quark
  • mass 1.672622x10-24 g or 1.007276 AMU
  • The elements atomic number ( Z) protons

7
NEUTRON
  • NEUTRONS are defined as
  • electrically neutral subatomic particle
  • found inside the nucleus
  • composed of 2 down quarks and 1 up quark
  • mass 1.674927x10-24 g or 1.008665 AMU.

8
NUCLEUS
  • NUCLEUS is defined as
  • core of the atom
  • centrally located
  • positively charged
  • contains most of the atom's mass
  • very dense
  • small relative to the overall size of the atom

9
ELECTRONS
  • ELECTRONS are defined as
  • negatively charged subatomic particle with a
    charge of -1.602x10-19 coulombs
  • leptons
  • found outside of the core of the atom
  • mass 9.1x10-28 g or 0.00055 AMU
  • travel in orbitals around the nucleus
  • mostly empty space
  • occupies most of the size of the atom

10
ATOMS
  • ATOMS are defined as
  • smallest particle of an element that retains the
    chemical properties of that element
  • composed of the nucleus (core) surrounded by
    electrons

11
ISOTOPES
  • ISOTOPES are defined as
  • Atoms of the same atomic number but different
    mass
  • B-10 Boron has 10 mass units, 5 protons 5
    neutrons
  • B-11 Boron also can have 11 mass units, 5p 6n
  • C-12 Carbon has 12 mass units, 6 protons 6
    neutrons
  • C-14 Carbon has 14 mass units, 6 protons 8
    neutrons
  • U-234 Uranium has 234 mass units, ?
  • U-235 ?
  • U-238 ?

12
Periodic Table of Elements
  • Periodic Table is a reference table of the 117
    elements that are currently identified, 92 are
    naturally occurring, which are displayed in
    periods (rows) and families (columns) so that
    similarities and differences can easily be
    recognized for use in the sciences
  • See handout of Periodic Table
  • Locate the interactive CD from my webpage and
    explore it

13
Ions and Ionic Compounds
  • Ions are atoms or groups of atoms that have lost
    or gained electrons resulting in an overall
    positive or negative charges.
  • Ionic compounds are compounds formed by the
    combination of () and (-) ions. () ions
    are called cations
  • (-) ions are called anions

14
Common Polyatomic Ions
  • carbonate ion CO3-2
  • sulfate ion SO4-2
  • sulfite ion SO3-2
  • hydroxide OH-
  • phosphate PO4-3
  • permanganate MnO4-
  • chromate CrO4-2
  • dichromate Cr2O7-2
  • ammonium NH4
  • oxalate C2O4-2
  • bicarbonate HCO3-2
  • cyanide ion CN-
  • acetate C2H3O2-
  • peroxide O2-2
  • thiosulfate S2O3-2
  • bisulfite HSO3-

15
Basic Chemicals in ENV 101
  • H2O water CO2 carbon dioxide
  • O2 oxygen NO2 nitrogen dioxide
  • O3 ozone SO2 sulfur dioxide
  • N2 nitrogen SO3 sulfur trioxide
  • N2O nitrous oxide NH3 ammonia
  • NO nitric oxide H2SO4 sulfuric acid
  • H2S hydrogen sulfide HNO3 nitric acid
  • C6H12O6 glucose CH4 methane
  • CO carbon monoxide HCl hydrochloric acid

16
Organic Compounds
  • Hydrocarbons compounds composed of hydrogen and
    carbon ex. CH4, methane which is the major
    component in natural gas
  • Chlorinated hydrocarbons hydrocarbons that have
    chlorines attached, ex. C14H9Cl5 , an insecticide
    which has been named DDT
  • Simple carbohydrates simple sugars made up of
    carbon, hydrogen and oxygen, ex. C6H12O6, glucose
    which most plants and animals metabolize in their
    cells to produce energy

17
Complex Organic Molecules
  • Polymers consisting of a number of basic units
    (monomers) linked together
  • Complex carbohydrates made up of monomers of
    simple sugars linked together
  • Proteins formed by monomers of amino acids
    linked together
  • Nucleic acids linked sequences of monomers
    called nucleotides
  • Genes consist of nucleotides in DNA which carries
    code needed to make proteins
  • Chromosomes are a combination of genes and
    proteins that make up DNA

18
Physical States of Matter
  • Solid - Relatively incompressible, has a fixed
    shape and fixed volume.
  • Liquid - Has a fixed volume and takes the shape
    of its container, fluid, and incompressible.
  • Gas (Vapor)- Takes the shape of its container,
    fluid, and is compressible.

19
Physical vs. Chemical Change
  • Physical Change Change that takes place in the
    form or phase of matter, but not in its chemical
    identity.
  • Chemical Change Change that involves the
    combination, recombination, or separation of
    atoms with each other.

20
The Balanced Equation
  • 2Al(s) 3Br2(l) ? Al2Br6(s)
  • The chemicals on the left are the reactants and
    the right are the products.
  • The coefficient in front of the chemical denotes
    the stoichiometric relationship.

21
Numerical Subscripts
  • 2Al(s) 3Br2(l) ? Al2Br6(s)
  • The numerical subscript represents the number of
    atoms present in the molecule
  • ex. Br2 means that an atom of Br is bonded to
    another atom of Br
  • Therefore Br-Br Br2

22
Phases of Matter
  • 2Al(s) 3Br2(l) ? Al2Br6(s)
  • The subscript letters in parenthesis denote the
    phase of matter that the chemical is in.

23
Energy
  • Kinetic Energy energy of motion
  • Potential energy energy at rest
  • High-quality Energy high output and ability to
    do work
  • Low-quality Energy low output

24
Thermodynamics
  • Thermodynamics is the study of heat energy
  • Endothermic process is positive () and involves
    the absorption of heat
  • Exothermic process is negative (-) and involves
    the release of heat
  • Heat transfer
  • Conduction
  • Convection
  • Radiant

25
Nuclear Change
  • Nuclear reactions case changes within the nucleus
    of an atom
  • Natural Radioactive Decay occurs when an
    unstable isotope spontaneously releases particles
    from the atom Nuclear Fission occur when
    isotopes are split apart by bombardment with
    neutrons (see Figures 2-6 2-7 on pg 28)
  • Nuclear Fusion occurs when 2 isotopes join
    together to form a heavier isotope

26
What Is Light?
  • Light is bundles of energy called PHOTONS that
    travel in waves through an electrical and
    magnetic field. (See Fig 2-8 on pg 29)
  • Photons have no mass.
  • Photons are released when electrons are
    de-excited from an excited state.

27
What Are Waves?
28
Whats a Wavelength?
29
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30
Systems
  • def. System a set of components that function
    and interact together as a unit, which allows
    them to be studied
  • Inputs gt Flows gt Outputs
  • Feedback change in the same direction
  • - Feedback change in the opposite direction

31
Types of Pollutants
  • Three factors are used to determine how
    severe a pollutant is
  • Chemical nature the many chemical properties
    that a substance or compound has
  • Concentration usually measured in ppm 1part
    pollutant/1 million parts matter or parts per
    billion (ppb)
  • Persistence measure of how long a pollutant
    will remain in a system

32
Types of Pollutants (cont.)
  • Degradable or non-persistent easily broken down
    to safer non-toxic matter
  • Biodegradable complex chemicals that are broken
    down through biological action (specific
    bacteria)
  • Slowly degradable or persistent take decades or
    longer to degrade
  • Non-degradable can not be broken down therefore
    they remain in the system and can contaminate a
    whole host of organisms

33
Synergy
  • Synergistic effect build up of effects that
    create a heightened or accelerated effect
  • Ex. Exposure to a drug and drinking alcohol can
    create a heightened effect that may damage your
    liver, nervous system, heart etc. for more than
    the individual effects of each chemical.
  • Ex. Different perfumes can combine and form
    noxious fumes in a closed room.

34
Unsustainable High-Throughput vs.
Matter-Recycling Economy
  • High-throughput economy economic growth by a
    one-way flow of matter and energy resources that
    produce large amounts of waste
  • Matter-recycling economy economic growth
    slowing down depletion of matter resources in
    order to reduce excessive pollution

35
Sustainable Low - Throughput
  • Living more sustainably by reducing the
    throughput of matter and energy
  • Not wasting matter energy
  • Recycling reusing matter resources
  • Stabilizing our population

36
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