chemical and physical features of seawater and the world ocean
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Chemical and Physical Features of Seawater and the World Ocean. “If there is magic on this planet, it is contained in water.” Loren Eiseley “Well, me don’t swim too tough so me don’t go in the water too deep.” Bob Marley. What is Water ?. Introduction – the stuff covers 70% of the Earth - PowerPoint PPT PresentationTRANSCRIPT
Chemical and Physical Features of Seawater and the World Ocean
“If there is magic on this planet, it is contained in water.”Loren Eiseley
“Well, me don’t swim too tough so me don’t go in the water too deep.”Bob Marley
What is Water ?
• Introduction – the stuff covers 70% of the Earth
• Brainstorming activity• Chemical & Physical Properties of Water• Categorization activity• Defend your categories• If time permits… why the answer to life is
104.5º
Chemical & Physical Properties• Physical property – properties that describe a
substance without changing the identity of the substance.– Physical change – change that does not result in the
production of a new substance, only the appearance of the substance
• Chemical property – properties that describe how a substance changes into a completely different substance– Chemical change – change that results in the production of
another substance
Common Properties of WaterPhysical Properties Chemical PropertiesCohesion/Surface tensionFound in all three states on the earth
Universal Solvent – dissolves more substances than any other common liquid
Conduction of heat – highest of all liquids (except for mercury)
pH – water dissociates into anions (OH-) and cations (H+)
Latent heat of vaporization – highest of all common substances
Polarity – water has positive and negative ‘ends’
Latent heat of fusion – high for a molecule of its size (melting/freezing)
Hydrophobic effect
Heat capacity – highest of all common solids & liquids
Density – max at 4ºC for pure water
Viscosity –relatively low for a liquid
ReferencesCastellano, A. (2006) “Victoria Beach”Castro, P. & M.E. Huber (2005) Marine Biology, 5th ed. McGraw-Hill Higher Education,
Boston, MA.“Chemical Properties of Water” PlanetWater.au.com Retrieved on Feb 3, 2007 from
www.ozh2o.com/index.html“floating water 5” (2006) westerLower, S. (2007) “H2O a gentle introduction to the structure of water.” Retrieved on
Feb 3, 2007 from http://www.chem1.com/acad/sci/aboutwater.htmlNybakken, J.W. & M.D. Bertness (2005) Marine Biology, An Ecological Approach, 6th ed.
Pearson Education, Inc., San Francisco.Perlman, H. (2006) “Water properties” Water Science for Schools. USGS. Retrieved on
Feb 3, 2007 from http://ga.water.usgs.gov/edu/waterproperties.htmlPetrucci, R.H. (1982) General Chemistry Principles and Modern Applications,
Macmillan Publishing Co. Inc., New York.
The Water Molecule
• Two hydrogen atoms, one oxygen atom
• H atoms form 105º angle• This angle produces an
asymmetrical dipole. Slight (+) charge on the H atoms and slight (-) charge on the O atoms.
O
HH
105º
The Water Molecule• These slight charges cause the
(+) H atoms of one water molecule to attract the (-) O atoms of other water molecules.
• These weak bonds are called hydrogen bonds.
• Water can hydrogen bond with other substances aside from itself.
O
H
H
O
HH
O
H
H
Why does ice float? Density-Temperature Relationship
Background• Temperature is a measure of kinetic energy (KE). As KE
decreases, hydrogen bonds stay formed and break less. Water molecules stay closer together until…
Explanation• As the temperature approaches 4ºC, less dense ice
clusters begin to form in the liquid.• At 0ºC when all water molecules become locked in the
rigid ice lattice, the hydrogen bonds actually hold molecules farther apart than at 4ºC. This creates spaces making the water less dense.
Why does ice float? Density-Temperature Relationship Graph
• The cohesion or mutual attraction of water molecules creates a flexible barrier on the surface of water.
• This helps support aquatic insects such as water striders (Halobates sp.)
How can water bugs “stride” across water without breaking the surface?Surface tension and cohesion
www.nps.gov/olym/insect/gerridae.jpg
Why do fish not get electrocuted when lightning strikes the ocean? Conductivity
Explanation• Conductivity is a property that measures the ability of a
substance to transmit heat, electricity, or sound. • Pure water is not a good conductor of electricity. Its
conductivity is about 20 dS/m. (Compare with silver – the highest conductivity with 63 x 106 S/m)
• In addition, the electrical charge of lightning usually spreads instantaneously along the surface of the water from the location of the strike and to a lesser degree below the surface at the strike site. Fish in other areas are not affected.
Background• Heat – energy of molecular motion• Water can absorb or give up heat by
conduction (molecular exchange of heat) or convection (mixing)
Explanation• Water can hold heat longer and release
heat more slowly than land. • Temperature differential between land
and ocean will cause uneven heating of air masses which drive winds and moderate any drastic temperature changes.
Why do coastal areas have slower temperature changes than inland areas?Heat capacity
Off-shore breeze
On-shore breeze
• Fats and oils are nonpolar molecules.– These compounds do not have slight regions
of charge like water does. • Therefore water molecules are not
attracted to nonpolar molecules and actually can be repelled by them.– Basis for cell membranes and the water
repellency of marine mammals and birds.
Why don’t fats and oils dissolve in water?Polarity
• Because water is polar, it dissolves most substances, especially other polar molecules and compounds composed of ions, atoms or molecules that carry an electrical charge.
• These ionic compounds are often called salts.
• NaCl (salt) most common dissolved salt in ocean. There are many others.
• Seawater is a solution of these salts.
Why does water dissolve more substances than any other common liquid?The Universal Solvent
Salt crystal
SeawaterSources of salts and dissolved solids:• Erosion of rocks and soil• Solutes released from rivers• Breakdown of organisms• Condensation of rain from the atmosphere• Releases from hydrothermal vents
Seawater is• 96.5% water• 3.5% dissolved compounds
Salinity
• Measured in parts per thousand (ppt)– Grams of salt left behind when 1000g of water evaporate
• Average value 35 ppt or 35‰• Range from 0‰ near river mouths to 40% in the dead sea.• Globally, seawater salinity remains constant. Rule of constant
proportions states that the percentage of various ions in seawater remains constant.
Total amount of dissolved salts in seawater.
Surface Salinities of the Oceans
Dissolved compounds in seawater• Inorganic substances (salts, nutrients)• Dissolved gases • Organic compounds (fats, oils, vitamins,
amino acids, proteins)• Nitrates and phosphates (usually in excess as
pollution)• Pollution (DDT, PCBs, chlorinated
hydrocarbons that are synthetic)