The pH of a single raindrop is measured to be 5.6. There are three major species...

Rainwater is acidic because CO2(g) dissolves in the water, creating carbonic acid, H2CO3 (Ka1=4.3×10−7,Ka2=5.6×10−11). If the...

Rainwater is acidic because CO2(g) dissolves in the water, creating carbonic acid, H2CO3 (Ka1=4.3×10−7,Ka2=5.6×10−11). If the rainwater is too acidic, it will react with limestone and seashells (which are principally made of calcium carbonate, CaCO3). Part A Calculate the concentrations of carbonic acid, bicarbonate ion (HCO3−) and carbonate ion (CO32−) that are in a raindrop that has a pH of 5.80, assuming that the sum of all three species in the raindrop is 1.0×10−5M. Express your answers using two significant...

For a closed aqueous solution at pH 8.4, the bicarbonate species concentration is measured as 10-2.9...

For a closed aqueous solution at pH 8.4, the bicarbonate species concentration is measured as 10-2.9 M. Calculate the concentrations of all carbonate system species, and the total dissolved inorganic carbon concentration in the system in moles/L, mg/L, and mg C/L.

Calculate the pH and concentrations of the following species in a 0.025M carbonic acid solution. (Given...

Calculate the pH and concentrations of the following species in a 0.025M carbonic acid solution. (Given Ka1=4.3x10^-7 and Ka2=5.6x10^-11 a) H2CO3 b)HCO3- c)CO32- d)H+ e)OH-

The interaction between carbon dioxide and water results in formation of carbonic acid, H2CO3, which lowers...

The interaction between carbon dioxide and water results in formation of carbonic acid, H2CO3, which lowers the pH of water through the reactions H2CO3(aq)+H2O(l) <---> HCO3-(aq) + H3O+(aq) Ka1= 4.3*10^-7 HCO3-(aq) +H2O(l) <---> CO3 2- (aq) + H3O+ (aq) Ka2=5.6*10^-11 This dissocociation causes "normal" rainwater to have a pH of approximately 5.7. However, H3O+(aq) can also come from other sources, particularly from acids resulting from interactions of water with industrial pollutants. Scientists studying a particular lake found that its pH...

Calculate the concentrations of the molecular and ionic species and the pH in aqueous solution that...

Calculate the concentrations of the molecular and ionic species and the pH in aqueous solution that has a formal composition of 0.2350 M KH2PO4 + 0.4300 M K2HPO4. ((Ka1 = 6.2*10^-8) What is the pH of this solution? What is the concentration of the molecular species H3PO4? What is the concentration of K+ in molarity? 1.09 What is the concentration of OH−? What is the concentration of PO4−3 in molarity? (use Ka3=4.2x10-13) What is [HPO4−2]? 0.430 What is [H2PO4−]? 0.2350

Consider a solution of 0.36 M C2H5NH2 (Kb = 5.6×10-4). Decide if each of the following...

Consider a solution of 0.36 M C2H5NH2 (Kb = 5.6×10-4). Decide if each of the following is a major or minor species in the solution, and calculate the pH. OH− H2O C2H5NH3+ C2H5NH2 H+ AND pH?

A groundwater is being considered for use as a domestic supply. The water has a temperature...

A groundwater is being considered for use as a domestic supply. The water has a temperature of 15°C and the following chemical analysis: Concentration g/m3 Ca2+ 100 Mg2+ 55 HCO3- 23 CO32- 50 a. Determine the hardness of the water, in mM. b. Calculate the sample pH, using the carbonate species present in the water sample c. Determine the total alkalinity of the water, in mM. (At 15°C, Kw = 4.46 x 10–15) d. Would the water be an acceptable...

Find the pH and the concentrations of all species in the following solutions, each of 0.02...

Find the pH and the concentrations of all species in the following solutions, each of 0.02 M concentration. Solve numerically and show all calculations. Assume a closed system. a. HNO3 b. HCl c. NH4ΝΟ3 d. H2O2

Analysis of treated water from a drinking water supply that originates from runoff of a relatively...

Analysis of treated water from a drinking water supply that originates from runoff of a relatively clean watershed yielded the following species concentrations: Species Mass conc. (g m-3) SiO2 8.3 Ca2+ 39 Mg2+ 9 CO32- 6.4 SO42- 22 pH = 9.0 Total dissolved solids (TDS) = 216 g m-3 (a) Use electroneutrality to check if any major species are missing from the analysis. (b) Determine the molar concentration of bicarbonate in this water and recheck the electroneutrality relationship. (c) Determine...

Rainwater is naturally slightly acidic due to the dissolved carbon dioxide. Acid rain results when acidic...

Rainwater is naturally slightly acidic due to the dissolved carbon dioxide. Acid rain results when acidic sulfur and nitrogen oxides produced during the combustion of coal and oil react with rainwater (see Box 12.1). (a) The partial pressure of CO2 in air saturated with water vapor at 25 C and 1.00 atm is 3.04 104 atm. Henry’s constant for CO2 in water is 2.3 102 molL1atm1; and, for carbonic acid, pKa1 6.37. Assuming that all the dissolved CO2 can be...