------------------------- water table -------------------------
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Transcript of ------------------------- water table -------------------------
Salt water Oceans – (contain ~97% of all water on earth; also responsible for weather, redistribution of energy)
Fresh water Polar ice caps, glaciers, Lakes, streams, ground water, soil water
Brackish water Water whose salinity is intermediate between that of fresh water and salt water
Soil W ater
In term edia te zone Aeration zone
------------------------- water table -------------------------
Zone of saturation (or ground water zone)
The Green Revolution -- based on modern, high yielding plant varieties, requiring high inputs of fertilizer and water -- has led to increases in world food production at a pace that outstripped population growth. Food prices have declined markedly. Increased water use in irrigated agriculture has benefited farmers and the poor. But increased water and chemical use that fueled the Green Revolution has contributed to environmental degradation, and threatened the resource base upon which we depend for food and livelihoods.
Molarity = Moles of solute/Liters of Solution (M)
Molality = Moles of solute/Kg of Solvent (m)
Mole Fraction = Moles solute/total number of moles
Mass % = Mass solute/total mass x 100
Volume % = volume solute/total volume x 100
ppm = parts per million *ppb = parts per billion *
Chemical concentrations
* mass for solutions, volume for gasses
Molarity = Moles of solute/Liters of Solution (M)
Molality = Moles of solute/Kg of Solvent (m)
Mole Fraction = Moles solute/total number of moles
Mass % = Mass solute/total mass x 100
Volume % = volume solute/total volume x 100
ppm = parts per million *ppb = parts per billion *
Chemical concentrations
* mass for solutions, volume for gasses
Molarity = Moles of solute/Liters of Solution (M)
Molality = Moles of solute/Kg of Solvent (m)
Mole Fraction = Moles solute/total number of moles
Mass % = Mass solute/total mass x 100
Volume % = volume solute/total volume x 100
ppm = parts per million *ppb = parts per billion *
Chemical concentrations
* mass for solutions, volume for gasses
Assuming the density of water to be 1 g/mL we approximate the density of a dilute aqueous solution to be 1 g/mL
1 ppm = 1 μg/mL = 1 mg/L
1 ppb = 1 ng/mL = 1 μg/L
1 g1 ppm =
1 g
1 g 1 g
1
1 g
1 ml g 1 ml
Determine the ppm of a NaCl solution if 58.5 grams of NaCl was dissolved in 50.0 ml of water (assume the density of water to be 1 g/ml)
Convert ml of water to grams
Determine total mass of solution
Mass of solution = mass of solute + mass of solvent = 58.5 + 50.0 = 108.5 g
Apply the definition of ppm
58.5 (106) / 108.5 = 5.39 x 105 ppm NaCl
50 ml 50 gram1
s water g
1 ml
http://www.qualitylogoproducts.com/lib/different-types-of-plastic.htm
Contaminants in Ground Water
Organic:
• Chlorinated solvents• Pesticides• BTX component of gasoline• MTBE component of gasoline
Inorganic:
• Nitrates (animal waste, fertilizers, atmospheric deposition, sewage)• Phosphates (detergents, fertilizers, sewage)
Biological:
• Bacteria (e.g., E. coli)