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Title: Science, Matter, Energy, and Systems


1
Science, Matter, Energy, and Systems
  • Chapter 2

2
Core Case Study Carrying Out a Controlled
Scientific Experiment
  • F. Herbert Bormann, Gene Likens, et al. Hubbard
    Brook Experimental Forest in NH (U.S.)
  • Compared the loss of water and nutrients from an
    uncut forest (control site) with one that had
    been stripped (experimental site)

3
Stepped Art
Fig. 2-1, p. 28
4
2-1 What Is Science?
  • Concept 2-1 Scientists collect data and develop
    theories, models, and laws about how nature
    works.

5
Science Is a Search for Order in Nature (1)
  • Identify a problem
  • Find out what is known about the problem
  • Ask a question to be investigated
  • Gather data
  • Hypothesize
  • Make testable predictions
  • Keep testing and making observations
  • Accept or reject the hypothesis

6
Science Is a Search for Order in Nature (2)
  • Important features of the scientific process
  • Curiosity
  • Skepticism
  • Peer review
  • Reproducibility
  • Openness to new ideas

7
Scientists Use Reasoning, Imagination, and
Creativity to Learn How Nature Works
  • Important scientific tools
  • Inductive reasoning
  • Deductive reasoning
  • Scientists also use
  • Intuition
  • Imagination
  • Creativity

8
The Scientific Process
Identify a problem
Find out what is known about the
problem (literature search)
Ask a question to be investigated
Perform an experiment to answer the question and
collect data
Scientific law Well-accepted pattern in data
Analyze data (check for patterns)
Propose an hypothesis to explain data
Use hypothesis to make testable predictions
Perform an experiment to test predictions
Make testable predictions
Accept hypothesis
Revise hypothesis
Test predictions
Scientific theory Well-tested and widely
accepted hypothesis
Fig. 2-2, p. 30
9
Scientific Theories and Laws Are the Most
Important Results of Science
  • Scientific hypothesis a possible and testable
    explanation of what is observed in nature (edu.
    Guess)
  • Scientific theory
  • Supported by extensive evidence (tested many
    times)
  • Accepted by most scientists in a particular area
  • Explains
  • Scientific law, law of nature
  • Based on countless observations, tests
  • Describes

10
Read guest essay on global warming
  • The Scientific Consensus About Global Warming
  • John Harte

11
Where have you gotten your information on global
warming?How reliable is it?
  • What determines if a scientific idea/theory is
    right or wrong?

12
Media and Scientific information
  • Absolutely correct that there is no theory
    guaranteed to be right
  • One dissenter does not guarantee the theory to be
    wrong
  • Media bias
  • Ulterior motives
  • Selective reporting
  • Desire for quick, simple answers-responses

13
The Results of Science Can Be Tentative,
Reliable, or Unreliable
  • Tentative science, frontier science (hypothesis)
  • Reliable science
  • (theory)
  • Unreliable science
  • (a theory based on false, misleading or no
    evidence, faith)

14
What is Global Warming?
  • Talking about the warming of the air atmosphere
    closest to ground.
  • More energy from the sun is kept at surface of
    earth than usual

15
Facts and Questions
  • Scientist are looking at some fundamental
    questions
  • Is this actually occurring? (1C increase in
    10yrs)
  • Did humans cause this? (cars, burning forests,
    cows, pigs which add greenhouse gases like CO2 to
    atmosphere)
  • What could be result of the warming? (complex Q,
    complex A)

16
Economics/Politics/Ethics and Science
  • Any other possible causes?
  • Yes, changes in the Sun, Volcanoes, variation in
    earths orbit
  • Has this happened in the past, before humans?
  • Yes, many times
  • Ramifications and Blame?
  • Industries, Nations, Consumers
  • Scare Tactic?
  • Big business wants to paint warnings as a method
    of societal control by government and shift the
    blame/concern

17
Results up to now 1 degree rise in temp
  • Greater change in weather patterns, intensity
  • More violent weather
  • Increase in Drought, Flooding
  • Dying off of coral reefs
  • Melting of glaciers, rise in sea level

18
What happens if it increases to 2 degrees ?
  • Water shortages for over a billion people
  • War and unrest over water
  • Globalization of diseases
  • Food shortages in places that can least afford it
  • Collapse of the Amazon rainforest
  • 20-30 of species die off

19
What happens with a 3 degree change?
  • Water shortages effect almost all people
  • Methane emissions from permafrost melt accelerate
    warming
  • Sea level rises coupled with more violent weather
    cycles endanger the coastal cities around the
    world
  • ½ of species die out

20
Stepped Art
Fig. 19-7, p. 507
21
The Results of Science Can Be Tentative,
Reliable, or Unreliable
  • Tentative science, frontier science (hypothesis)
  • Reliable science
  • (theory)
  • Unreliable science
  • (a theory based on false, misleading or no
    evidence, faith)

22
Environmental Science Has Some Limitations
  • Particular hypotheses, theories, or laws have a
    high probability of being true while not being
    absolute
  • Bias has to be minimized by scientists, for
    validity
  • Statistical methods may be used to estimate very
    large or very small numbers
  • Environmental phenomena involve many interacting
    variables and complex interactions, testability
    limitations
  • Scientific process is limited to the natural
    world (can not prove or disprove ethical or moral
    questions)

23
Science Focus Statistics and Probability
  • Statistics
  • Collect, organize, and interpret numerical data
  • Probability
  • The chance that something will happen or be valid

24
Animation pH scale
25
2-2 What Is Matter?
  • Concept 2-2 Matter consists of elements and
    compounds, which are in turn made up of atoms,
    and/or molecules.

26
What is matter?
  • Is everything made out of matter?
  • Explain your answer.

27
Matter
  • Has mass and takes up space

28
  • What is the difference between elements,
    compounds and mixtures?

29
Matter Consists of Elements and Compounds
  • Elements
  • Unique properties
  • Cannot be broken down chemically into other
    substances
  • Compounds
  • Two or more different elements chemically bonded
    together in fixed proportion
  • Mixtures 2 or more elements, compounds or other
    mixtures physically mixed together

30
Elements you might consider important
environmentally
31
Elements Important to the Study of Environmental
Science
32
What is a compound? What is a mixture?
  • Orange Juice
  • Ketchup
  • Distilled Water
  • Steel
  • Water from a drinking fountain

33
What is the smallest amount of an element you can
have that has all of its properties?
34
Model of a Carbon-12 Atom
35
Animation Subatomic particles
36
Atoms, Ions, and Molecules Are the Building
Blocks of Matter (1)
  • Atomic theory
  • Subatomic particles
  • Protons (p) with positive charge and neutrons (n)
    with no charge in nucleus (all the mass)
  • Negatively charged electrons (e) orbit the
    nucleus (almost no mass)

37
Numbers in chemistry
  • Atomic number
  • of protons in each atom
  • Every element has a different of protons
  • Mass number
  • Protons plus neutrons

38
Need a Periodic Table
  • How many protons does Helium have? Argon?
  • What is the atomic number of Mercury, Nitrogen?
  • How many electrons does a stable atom of Oxygen
    have, how do you know?
  • What is the mass number of the most common form
    of Carbon, Lead

39
Animation Atomic number, mass number
40
Atoms, Ions, and Molecules Are the Building
Blocks of Matter (2)
  • Isotopes
  • Number of neutrons vary, properties same
  • Most common version founded by rounding atomic
    mass
  • Ions
  • Gain or lose electrons (extreme bonding)
  • Form ionic compounds
  • Complete valance shell
  • Number of valence electrons related to column
    number (magic number is 8, 2 for H and He)

41
Rows and Columns on a periodic table
  • Groups and periods
  • Periods- rows
  • Groups- columns
  • Elements in columns have similar characteristics
  • Elements in columns have the same number of
    valence electrons (electrons used to bond)

42
Bonding
  • Determined by the number of valance electrons
    possessed
  • valance electrons roman number on top of
    column (at least for the A columns)
  • Full set of valance electrons is 8 (or 2 for H,
    He)
  • Bonding occurs because atoms seek out a full
    valance set by sharing, stealing electrons with
    other atoms

43
Who shacks up?
  • Atoms bond, connect to form complete sets of VE
  • Cl
  • Needs one more electron to complete set
  • Gains electrons (- charge)
  • Na
  • Needs to lose one electron out of an unfilled set
  • Loses electrons ( charge)
  • Love Connection

44
Need a periodic table
  • What is the most common isotope of Sulfur?
    Magnesium?
  • Determine how many electrons are lost or gained
    when atom of Fluorine or Boron is ionized
  • How are the most common ions of Oxygen and
    Lithium written

45
Animation Isotopes
46
Animation Ionic bonds
47
Ions Important to the Study of Environmental
Science
48
Why are ions important?
  • Reactivity
  • Ions with an 1 extra electron or lacking one
    electron react more strongly than those with
    multiple VE
  • The stronger the reaction means more energy is
    released or absorbed, greater effects
  • Compounds can be ions

49
Chemical Formulas
  • SO42-
  • 2H20
  • Chemical formula
  • Recipe for 1 molecule of a chemical Compound
  • Letters
  • Numbers
  • Signs

50
Loss of NO3- from a Deforested Watershed
51
Atoms, Ions, and Molecules Are the Building
Blocks of Matter (3)
  • Molecule
  • Two or more atoms of the same or different
    elements held together by chemical bonds
  • Smallest amount of a compound that has the
    characteristic properties

52
Compounds Important to the Study of Environmental
Science
53
Animation Carbon bonds
54
pH the acid test
  • Measure of acidity of Hydrogen ions in a
    certain volume of a solution
  • Solution can be neutral , acidic, or basic
  • Defined by relative amounts of H and OH-
  • Something on either end of scale has a tendency
    to react strongly
  • Scale is exponential, 10x for each step,
    Something with a pH of 5 is 10 times more acidic
    than a solution with a pH of 6

55
Acid lab
56
Organic Compounds Are the Chemicals of Life
  • Organic compounds contain 2 Carbon atoms
  • 1 exception Methane CH4
  • Types
  • Hydrocarbons and chlorinated hydrocarbons
  • Simple carbohydrates
  • Macromolecules complex organic molecules
  • Complex carbohydrates
  • Proteins
  • Nucleic acids
  • Lipids
  • Inorganic compounds any other compound not
    organic

57
Arrange in terms of size
  • An Artery
  • Cell
  • Chromosomes
  • DNA Molecules
  • Electron
  • Genes
  • Nucleus (in terms of cells, not atoms)
  • One Atom
  • Proton

58
Stepped Art
Fig. 2-5, p. 38
59
Matter Comes to Life through Genes, Chromosomes,
and Cells
  • Cells fundamental units of life
  • Genes sequences of nucleotides within the DNA ,
    instructions for 1 trait
  • Chromosomes composed of many genes

60
Matter Occurs in Various Physical Forms
  • Solid
  • Liquid
  • Gas (plasma)

61
Usefulness of matter
  • High-quality matter
  • Highly concentrated
  • Near surface
  • Great potential
  • Low-quality matter

62
2-3 How Can Matter Change?
  • Concept 2-3 When matter undergoes a physical or
    chemical change, no atoms are created or
    destroyed (the law of conservation of matter).

63
Matter Undergoes Physical, Chemical, and Nuclear
Changes
  • Physical change chemical composition does not
    change (tear apart paper)
  • Chemical change, chemical reaction permanent
    chemical composition change (burning wood to make
    smoke with CO2 )

64
Nuclear Change
  • Nuclear change
  • Natural radioactive decay
  • Radioisotopes unstable
  • Nuclear fission
  • Nuclear fusion
  • Difference between Nuclear and Chemical change
  • Chemical change alters bonds between atoms
    (electrons, molecules)
  • Nuclear change changes the nucleus of an atom
    (change of protons, neutrons) (high energy)

65
Stepped Art
Fig. 2-7, p. 41
66
Fig. 2-7a, p. 41
67
Radioactive decay
Alpha particle (helium-4 nucleus)
Radioactive isotope
Gamma rays
Beta particle (electron)
Fig. 2-7a, p. 41
68
Fig. 2-7b, p. 41
69
Nuclear fission
Uranium-235
Fission fragment
Energy
n
n
Neutron
n
n
Energy
Energy
n
n
Uranium-235
Fission fragment
Energy
Fig. 2-7b, p. 41
70
Fig. 2-7c, p. 41
71
Nuclear fusion
Reaction conditions
Fuel
Products
Proton
Neutron
Helium-4 nucleus
Hydrogen-2 (deuterium nucleus)
100 million C
Energy
Hydrogen-3 (tritium nucleus)
Neutron
Fig. 2-7c, p. 41
72
Animation Half-life
73
Video Nuclear energy
74
We Cannot Create or Destroy Matter
  • Law of conservation of matter
  • Matter consumption
  • Matter is converted from one form to another
  • Matter is never lost

75
Animation Total energy remains constant
76
2-4 What is Energy and How Can It Be Changed?
  • Concept 2-4A When energy is converted from one
    form to another in a physical or chemical change,
    no energy is created or destroyed (first law of
    thermodynamics).
  • Concept 2-4B Whenever energy is changed from one
    form to another, we end up with lower- quality or
    less usable energy than we started with (second
    law of thermodynamics).

77
Energy Comes in Many Forms
  • Kinetic energy
  • Energy of organized motion (most useful)
  • Heat (energy of unorganized motion (not as good)
  • Transferred by radiation, conduction, or
    convection
  • Electromagnetic radiation KE transmitted as
    waves
  • Potential energy
  • Stored energy (GPE, EPE, chemical, nuclear)
  • Can be changed into kinetic energy

78
15
10
Energy emitted from sun (kcal/cm2/min)
5
Visible
Infrared
Ultraviolet
0
2
0.25
1
2.5
3
Wavelength (micrometers)
Fig. 2-8, p. 42
79
Active Figure Visible light
80
Energy Changes Are Governed by Two Scientific Laws
  • First Law of Thermodynamics
  • Energy input always equals energy output
  • Second Law of Thermodynamics
  • Energy always goes from a more useful to a less
    useful form when it changes from one form to
    another
  • Energy efficiency or productivity

81
Some Types of Energy Are More Useful Than Others
  • High-quality energy
  • Low-quality energy
  • Determined by the capacity to do useful work

82
The Second Law of Thermodynamics in Living
Systems
83
Active Figure Energy flow
84
Do Personal Energy Audit Lab
85
2-5 What Are Systems and How Do They Respond to
Change?
  • Concept 2-5A Systems have inputs, flows, and
    outputs of matter and energy, and their behavior
    can be affected by feedback.
  • Concept 2-5B Life, human systems, and the
    earths life support systems must conform to the
    law of conservation of matter and the two laws of
    thermodynamics.

86
Systems Have Inputs, Flows, and Outputs
  • System is a set of components that function and
    interact in some regular way
  • Parts of systems
  • Inputs from the environment
  • Flows, throughputs
  • Outputs to the environment

87
Inputs, Throughput, and Outputs of an Economic
System
88
Animation Economic types
89
Systems Respond to Change through Feedback Loops
  • Feedback Any process which causes change to a
    system
  • Feedback stimulus event or action which
    initiates the process (cutting down trees)
  • Positive feedback loop Cutting trees in a valley
    event that started a loop concerning the
    environmental health of valley (amplification)
  • Negative, or corrective, feedback loop
    Automatic thermostats in homes

90
Decreasing vegetation...
...which causes more vegetation to die.
...leads to erosion and nutrient loss...
Fig. 2-11, p. 45
91
House warms
Temperature reaches desired setting and furnace
goes off
Furnace on
House cools
Temperature drops below desired setting and
furnace goes on
Fig. 2-12, p. 45
92
Animation Feedback control of temperature
93
What kind of feedback loop occurs
  • Enforcement or non enforcement of cell-phone
    discipline in class?
  • Other examples

94
Time Delays Can Allow a System to Reach a Tipping
Point
  • Time delays vary
  • Between the input of a feedback stimulus and the
    response to it
  • Tipping point, threshold level
  • Causes a shift in the behavior of a system
  • Land unable to support trees, crops
  • Once cross, take a lot of time, change in
    conditions to revert

95
Haiti and deforestation
96
System Effects Can Be Amplified through Synergy
  • Synergistic interaction, synergy
  • 2 or more processes interact so combined effect
    is greater than either can produce separately
  • Helpful (1 person, group)
  • Harmful
  • E.g., Smoking and inhaling asbestos particles and
    risk of cancer
  • 10 fold, 5 fold, combined 50 fold

97
Human Activities Can Have Unintended Harmful
Results
  • Deforested areas turning to desert (Haiti)
  • Associated with Global Warming
  • Coral reefs dying (Belize, Australia)
  • Glaciers melting (US, Europe)
  • Sea levels rising (global)

98
Your Questions?
  • Connected to the information presented in this
    chapter

99
UN Project Questions for the chapter
  • What are the major forms of energy used to fuel
    the economy, society
  • Where do the major Sources of the fuel come from,
    In country, out of country?
  • Is there evidence that the 4 principles of
    sustainability being used? Explain
  • Has the government signed the Kyoto agreements?
    If not, can you come up with a reason?
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