Determine the theoretical oxygen demand for 1,4 dioxane C4H8O2 the concentration is 16 micrograms/liter

A pond’s water contains 25.0 mg/l of algae. Find the theoretical carbonaceous oxygen demand (CBOD) of...

A pond’s water contains 25.0 mg/l of algae. Find the theoretical carbonaceous oxygen demand (CBOD) of water in the pond Find the total theoretical (carbonaceous plus nitrogenous ) oxygen demand (BOD) on water in the pond Note: algae can be represented by the chemical formula C6H15O6N. Theoretically oxygen in pond can be consumed following equations 1 and 2. C6H15O6N + 6O2 → 6CO2 + 6H2O + NH3                     (1) NH3 + 2O2 → NO3- + H+ + H2O                                               (2)

Calculate the theoretical oxygen demand and TOC of 250 mg/L THC (in mg/mg and mg/L). THC:C21H30O2

Calculate the theoretical oxygen demand and TOC of 250 mg/L THC (in mg/mg and mg/L). THC:C21H30O2

find the theoretical oxygen demand for the following solutions: (A) 200 mg/L of acetic acid, CH3COOH...

find the theoretical oxygen demand for the following solutions: (A) 200 mg/L of acetic acid, CH3COOH (B) 30 mg/L of ethanol, C2H5OH (C) 50 mg/L of glucose, C6H12O6 please show all work!

Let x be a random variable that represents micrograms of lead per liter of water (µg/L)....

Let x be a random variable that represents micrograms of lead per liter of water (µg/L). An industrial plant discharges water into a creek. The Environmental Protection Agency (EPA) has studied the discharged water and found x to have a normal distribution, with σ = 0.7 µg/L. † Note: For degrees of freedom d.f. not in the Student's t table, use the closest d.f. that is smaller. In some situations, this choice of d.f. may increase the P-value a small...

Using Interpolation methods derive a predictive equation for dissolved oxygen concentration for a chloride concentration of...

Using Interpolation methods derive a predictive equation for dissolved oxygen concentration for a chloride concentration of 10 g/L. Determine what the DO is at T= 8 C and 18 C. You must use a minimum of 4 data points. Dissolved Oxygen (mg/L) for Temperature (C) and Concentration of Chloride (g/L) T(C) Cl=0g/L Cl=10g/L Cl=20g/L 0 14.6 12.9 11.4 5 12.8 11.3 10.3 10 11.3 10.1   8.96 15 10.1   9.03 8.08 20 9.09 8.17 7.35 25 8.26 7.46 6.73 30 7.56...

1)Oxygen demand is a term biologists use to describe the oxygen needed by fish and other...

1)Oxygen demand is a term biologists use to describe the oxygen needed by fish and other aquatic organisms for survival. The Environmental Protection Agency conducted a study of a wetland area. In this wetland environment, the mean oxygen demand was μ = 9.7 mg/L with 95% of the data ranging from 6.3 mg/L to 13.1 mg/L. Let x be a random variable that represents oxygen demand in this wetland environment. Assume x has a probability distribution that is approximately normal....

Consider a 1 liter solution in which silver (Ag+) has a concentration of 10^-2.94 moles/L. Then...

Consider a 1 liter solution in which silver (Ag+) has a concentration of 10^-2.94 moles/L. Then if 0.53g of NaCl is added to the solution and it comes to equillibrium, show that AgCl will precipitate. Determine the weight in grams of AgCl that will precipitate from the 1L solution. The solution is ideal. The Ksp of AgCl is 10^-9.75. Assume the NaCl completely dissolves.

a 1000 gal vessel, containing air, is to be vacuum purged to a limiting oxygen concentration...

a 1000 gal vessel, containing air, is to be vacuum purged to a limiting oxygen concentration of 1 ppm. Determine the number of purge cycles required. T = 75 F Initial pressure 760 torr max vacuum 20 mm Hg Final pressure 1 atm Purge gas nitrogen Answer must be the number of purge cycles needed.

Keq for this reaction is 56. Determine the concentration at equilibrium if you start with 2.3...

Keq for this reaction is 56. Determine the concentration at equilibrium if you start with 2.3 grams of Hydrogen and 200 grams of Iodine in a 2.3 liter container. If you now add an extra .25M of H2(g) after equilibrium, calculate Qc. Recalculate now what the concentrations should be at equilibrium. H2(g) +   I2(g)    <----> 2HI(g)     Kc = 56

In the presence of aqueous ammonia, cobalt(III) forms the complex ion Co(NH3)63+. Determine the molar concentration...

In the presence of aqueous ammonia, cobalt(III) forms the complex ion Co(NH3)63+. Determine the molar concentration of free cobalt(III) ion in solution when 0.170 mole of Co(NO3)3 is dissolved in a liter of 2.50 M aqueous ammonia.