The average concentration of bacteria in a water sample is 10 bacteria per 100mL. A 2mL...

A bacteriophage is a virus that infects bacteria. In an experiment, if too few bacteriophages are...

A bacteriophage is a virus that infects bacteria. In an experiment, if too few bacteriophages are used for the infection, it may be difficult to detect or measure the response being tested. Therefore, it is important to determine the multiplicity of infection (MOI). The MOI is the ratio between the number of bacteriophages and the number of bacteria (number of bacteriophages/ number of bacteria). 1) A 0.1 ml aliquot of a bacteriophage stock with a concentration of 4 x 109...

A. Calculate the solubility (in grams per 1.00×10^2mL of solution) of magnesium hydroxide in a solution...

A. Calculate the solubility (in grams per 1.00×10^2mL of solution) of magnesium hydroxide in a solution buffered at pH=11 B. Calculate the solubility (in grams per 1.00×10^2mL of solution) of magnesium hydroxide in pure water. C. How does the solubility of Mg(OH)2 in a buffered solution compare to the solubility of Mg(OH)2 in pure water?

A sample of solid Ca(OH)2 was stirred in water at a certain temperature until the solution...

A sample of solid Ca(OH)2 was stirred in water at a certain temperature until the solution contained as much dissolved Ca(OH)2 as it could hold. A 50.7-mL sample of this solution was withdrawn and titrated with 0.0621 M HBr. It required 66.7 mL of the acid solution for neutralization. (a) What was the molarity of the Ca(OH)2 solution? ________ M (b) What is the solubility of Ca(OH)2 in water, at the experimental temperature, in grams of Ca(OH)2 per 100 mL...

A sample of solid Ca(OH)2 was stirred in water at a certain temperature until the solution...

A sample of solid Ca(OH)2 was stirred in water at a certain temperature until the solution contained as much dissolved Ca(OH)2 as it could hold. A 93.5-mL sample of this solution was withdrawn and titrated with 0.0700 M HBr. It required 71.5 mL of the acid solution for neutralization. (a) What was the molarity of the Ca(OH)2 solution? ______________ M (b) What is the solubility of Ca(OH)2 in water, at the experimental temperature, in grams of Ca(OH)2 per 100 mL...

Question (4) [2 Marks] Note: Do not use R, do the calculations by hand. Coliform bacteria...

Question (4) [2 Marks] Note: Do not use R, do the calculations by hand. Coliform bacteria occur in river water with an average intensity of 1 bacteria per 10 cubic centimeters (cc) of water. Find: (a) [1 point] The probability there are no bacteria in a 20cc sample of water which is tested. (b) [1 point] The probability there are 5 or more bacteria in a 50cc sample.

A 2.650×10−2 M solution of NaCl in water is at 20.0∘C. The sample was created by...

A 2.650×10−2 M solution of NaCl in water is at 20.0∘C. The sample was created by dissolving a sample of NaCl in water and then bringing the volume up to 1.000 L. It was determined that the volume of water needed to do this was 999.3 mL . The density of water at 20.0∘C is 0.9982 g/mL. Calculate the mole fraction of salt in this solution.    Calculate the concentration of the salt solution in percent by mass. Calculate the...

atomic absorption spectroscopy was used to analyze a sample of ground water for arsenic concentration following...

atomic absorption spectroscopy was used to analyze a sample of ground water for arsenic concentration following the method of standard additions. First,the sample was measured, and found to have an absorbance of 0.435. Next, 10 ul of a standard solution of arsenic(1000ug/ml) was added to 10ml of the sample. This solution 9which contained sample and the standard addition) was measured, and found to have an absorbance of 0.661. What was the concentration of arsenic in the sample?

The mean number of bacteria per millimeter of a liquid is known to be 4. Assuming...

The mean number of bacteria per millimeter of a liquid is known to be 4. Assuming that the number of bacteria follows a Poisson distribution, find the probability that, in 1 ml of liquid, there will be (a) no bacteria (b) 4 bacteria (c) less than 3 bacteria Find the probability that (i) in 3 ml of liquid there will be less than 2 bacteria (ii) in 0.5 ml of liquid there will be more than 2 bacteria

A 2.250×10^−2 M solution of NaCl in water is at 20.0∘C. The sample was created by...

A 2.250×10^−2 M solution of NaCl in water is at 20.0∘C. The sample was created by dissolving a sample of NaCl in water and then bringing the volume up to 1.000 L. It was determined that the volume of water needed to do this was 999.4 mL . The density of water at 20.0∘C is 0.9982 g/mL. a. Calculate the molality of the salt solution. b. Calculate the mole fraction of salt in this solution. c. Calculate the concentration of...

A 2.650×10?2 M solution of NaCl in water is at 20.0?C. The sample was created by...

A 2.650×10?2 M solution of NaCl in water is at 20.0?C. The sample was created by dissolving a sample of NaCl in water and then bringing the volume up to 1.000 L. It was determined that the volume of water needed to do this was 999.3 mL . The density of water at 20.0?C is 0.9982 g/mL. Part A. Calculate the molality of the salt solution. Part B.Calculate the mole fraction of salt in this solution Part C Calculate the...