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SCI 230: Module I

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SCI 230: Module I Carbon, Life, and Cycling – PowerPoint PPT presentation

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Title: SCI 230: Module I


1
SCI 230 Module I
  • Carbon, Life, and Cycling

2
Part I Carbon Atom Life
  • Engage Activity
  • The decomposition of sucrosehttp//jchemed.chem
    .wisc.edu/JCESoft/CCA/CCA5/MAIN/1ORGANIC/ORG18/TRA
    M18/A/THUMBS.HTM
  • Question
  • How did the Carbon atoms get into sucrose?

3
Part I Carbon Atom Life
  • Inquiry Activity
  • SCI 230 LAB students will mass seedlings or
    plant cuttings
  • One set of plants grown in soil one grown in
    water only
  • The following data will be posted on-line
  • Mass of seedlings, before after each addition
    of H20
  • Digital pictures of seedlings
  • SCI 230 students will plot mass changes of
    growing plants
  • Question
  • How does the plant gain mass (atoms) as the days
    progress? (Where do these new atoms come from?)
  • Note LAB students will generate data which ALL
    SCI 230 students will use!!

4
Part I Carbon Atom Life
  • Some Key Concepts covered in lecture
  • 100 flavors of atoms
  • 96 of atoms which comprise living things are
    CHNOPS
  • Carbon atoms (and all other atoms in living
    organisms except hydrogen) were synthesized in a
    star approximately 10 b.y.a
  • This includes the C atoms in your fingertips, in
    your pets, in your food, in your gasoline .
  • Atoms are continually cycling among living
    organisms and their non-living environment

5
Part I Carbon Atom Life
  • Some Key Concepts covered in lecture
  • Review of Bohr model
  • Review Key concepts atomic number, atomic mass,
    valence electrons, octet rule, isotopeshttp//ipp
    ex.pppl.gov/interactive/matter/intro.html
  • Review of covalent and ionic bonds
  • Discover number of covalent bonds formed by H,
    O, N, C
  • Optional History of atomic theory

6
Part I Carbon Atom Life
  • Modeling Activity A Building Molecules
  • Build simple molecules CO2, methane, etc
  • Build glucose (linear, ring, isomer)
  • Build disaccharide, mini-starch (Optional in
    lecture)
  • Build amino acids, polypeptides (Optional in
    lecture)
  • Identify models of glycerol and fatty acids.
    (fats)
  • Note ALL SCI 230/240 lecture students will do
    1 2.
  • Lab Students will do 1 5
  • Key Concepts dehydration synthesis, hydrolysis,
    monomers, polymers, organic molecules

7
Part I Carbon Atom Life
  • Modeling Activity B Burning Propane
  • Burning methane DemonstrationBurning natural
    gas produces CO2 H2O
  • Burning propane Discover of O2 molecules
    required Discover of CO2 and H20 produced
    Remember that Energy is released in process
  • Extension Burning Glucose Cellular
    Respiration
  • Key Concepts
  • Fossil fuels, combustion, cellular respiration,
    release of carbon into atmosphere

8
Part II The Carbon Cycle
  • Engage Demonstration
  • Dinosaurs Breath(See Handout)
  • (Another example of CO2 released by chemical
    reaction into atmosphere)

9
Part II The Carbon Cycle
  • Engage Question
  • (Baby from Physics)

10
Part II The Carbon Cycle
  • Clues to the Carbon Cycle
  • Review/Discuss
  • Back to sucrose demo How did plant incorporate
    the C atoms into sugar?
  • Back to the growing seedling How did this plant
    gain mass?
  • Answer to both PHOTOSYNTHESIS

11
The Carbon Cycle
  • Activity Building the C cycle
  • Review Key Concepts
  • Carbon key element in all living things(backbone
    of organic molecules)
  • Carbon atoms continually cycle throughout the
    living and non-living components of ecosystems
  • Carbon often travels through ecosystems as CO2

12
The Carbon Cycle
  • Activity Building the C cycle
  • Review Questions
  • How is CO2 absorbed from atmosphere?
  • How is CO2 released into atmosphere?
  • Student Small Group Activity
  • Trace C through eight steps in ecosystem
  • Be creative!
  • Then, add time at each stop (How long?)

13
The Carbon Cycle
  • Activity III Building the C cycleWrap-up
  • Compile Student Results
  • Show VideoSilica

14
Module I Learning Goals Objectives(Janet
feel free to critique away!
  • Goal Students will understand that carbon atoms
    form the backbone in all organic molecules, the
    molecules of life
  • Objectives Students will
  • Build models of simple, ecologically
    significant molecules
  • Model and Identify representations of glucose
  • Identify the products of combustion of fossil
    fuels, of sugars

15
Module I Learning Goals Objectives(Janet
feel free to critique away!
  • Goal Students will describe the carbon cycle
    and understand its importance of to all life on
    Earth.
  • Objectives Students will
  • List several ways C atoms are transferred
    between organisms
  • Identify 2 -3 processes which release C atoms
    into the atmosphere
  • Identify photosynthesis as the sole process
    which removes atmospheric CO2 and incorporates
    (fixes) C into organic molecules

16
Correlation with Ohio Academic Science Standards
  • K-2 Science Benchmarks
  • Gather communicate information from careful
    observations and simple investigation.
    (Scientific Inquiry)
  • Explain that living things cause changes on
    Earth.(Earth Space science)
  • Explain how organisms function and interact with
    their physical environment. (Life Sciences)

17
Related Ohio Academic Science Standards
  • 3-5 Science Benchmarks
  • Explain the characteristics, cycles, and patterns
    involving Earth. (Earth Space Science)
  • Compare the characteristics of simple physical
    and chemical changes. (Physical Sciences)
  • Organize and evaluate observations, measurements,
    and other data to formulate inferences and
    conclusions. (Scientific Inquiry)
  • Use results and data from investigations to
    provide the evidence to support explanations and
    conclusions.(Scientific Inquiry)

18
Related Ohio Academic Science Standards
  • 6 - 8 Science Benchmarks
  • Describe interactions of matter and energy
    throughout the lithosphere, hydrosphere and
    atmosphere.(Earth Space Science)
  • Explain how energy entering the ecosystems as
    sunlight supports the life of organisms through
    photosynthesis and the transfer of energy through
    the interactions of organisms and the
    environment. (Life Sciences)
  • Relate properties and chemical processes to the
    behavior and/or arrangement of the small
    particles that compose matter. (Physical
    Sciences)

19
Related Ohio Academic Science Standards
  • 6 - 8 Science Benchmarks (cont.)
  • Analyze and interpret data from scientific
    investigations using appropriate mathematical
    skills in order to draw valid conclusions.
    (Scientific Inquiry)
  • Use skills of scientific inquiry processes.
    (e.g. hypothesis, record keeping, description and
    explanation)(Scientific Ways of Knowing)

20
Correlation with Ohio Academic Science Standards
  • 9 - 10 Science Benchmarks
  • Explain the flow of energy and the cycling of
    matter through biological and ecological systems.
    (Life Sciences)
  • Describe that matter is made of minute particles
    called atoms. Explain the structure and
    properties of atoms.(Physical Sciences)
  • Explain how atoms react with each other to form
    other substances and how molecules react with
    each other or other atoms to form even different
    substances. (Physical Sciences)

21
Correlation with Ohio Academic Science Standards
  • 9 - 10 Science Benchmarks (cont.)
  • Participate in and apply the processes of
    scientific investigations to create
    models.(Scientific Inquiry)
  • Explain that scientific knowledge must be based
    on evidence, be predictive, logical, subject to
    modification and limited to the natural world.
    (Scientific Ways of Knowing)
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