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Interpretation:
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(b)
Interpretation:
Mass percentage of
Concept Introduction:
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(c)
Interpretation:
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Mass percentage of solute:
Mass percent of solute is given by,
(d)
Interpretation:
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Chapter 8 Solutions
EBK GENERAL, ORGANIC, AND BIOLOGICAL CH
- What is the concentration of B expressed in terms of A if the Kd is 33.0 uM, and the concentration of AB is 56.0 uM? A + B AB OB= 1850/A OB= 23 - A OB=23+ A OB= 0.589/Aarrow_forwardYou are asked to prepare HEPES buffered saline with the following constituents: НЕРES 10mM KCI 5mM NaCl 135mM CaCl2 1mM M9SO4 0.6mM Glucose 6mM You have previously made up 100 mM stock solutions of HEPES, KCI, CaCl2, and M9SO4 and a 1M stock of NaCl. The MW of glucose is 180.16 g/mol What volume of HEPES would you require to make up 400ml of buffer?arrow_forwardAt 39.9ºC, a solution of ethanol (XetOH = 0.9006, P * etOH = 130.4 Torr) and isooctane (P * iso = 43.9 Torr) forms a vapor phase with YetOH = 0.6667. The total pressure is 185.9 a. Calculate the activity and the activity coefficient of each component.b. Calculate the total pressure the solution would have if it were ideal.c. Comparing the ideal pressure to the actual pressure, what does this indicate about the molecular interactions?arrow_forward
- Consider a buffer solution of acetate. The volume is 500 ml, the concentration is 200 mM, and the pH is 5.0. a. How many total moles of acetate plus acetic acid are present in the solution? Express answer as x.y with one digit before and one after the decimal place. b. What is the ratio of acetate ions (Ac-) to acetic acid ions (HAc) in the buffer solution (pH 5.0) if the pka is 4.76? Express the answer as x.yz with one digit before and two after the decimal place. c. How many moles of acetate are present in the solution? Express your answer to one decimal place. d. How many moles of acetic acid are present in the solution? Express your answer to one decimal place.arrow_forward1. What is the molality of the following solutions? a. 171.9 g of Sr(NO3)2 is dissolved in 1.44 kg of water. b. 0.883 g of K3PO4 is dissolved in 40.0 g of water. 0.250M=0.250mcl kF IL scl i80.anilio (6250 mcl 0.500M=0.500md wO IL Somarrow_forwardCalculate the concentration of an EDTA solution of which 24.22 mL were needed to titrate the Ca2+ions present in a 50.00 mL solution containing 246.7 mg CaCO3. Express your answer in terms of (a) molar concentration of EDTA (b) Ca Titer (mg Ca per mL of EDTA) MM Ca= 40.078 solve it in a way that it is in one equation already and cancelling all the values just like given in th epicturearrow_forward
- The conversion of glucose-1-phosphate to glucose-6-phosphate by the enzyme phosphoglucomutase has a △G°' of -7.6 kJ/mol. Calculate the equilibrium constant for this reaction at 298 K and a pH of 7. (R = 8.315 J/K-mol) A. 0.003 B. 0.047 C. 1.00 D. 21arrow_forwardPhosphate buffered saline (PBS) is a physiological buffer often used in biology experiments. Because the concentrations are very low and small amounts are difficult to weigh out, it is often prepared as a 10X stock solution meaning that it is prepared at 10 times the working concentration which is 1X. 1X PBS is made up of Na2HPO4 10 mM (MW 141.9 g.mol-1); KH2PO4 8 mM (MW 136.08 g.mol-1), NaCl 137 mM (MW 58.44 g.mol-1) and KCl 74.5 mM (MW 74.5 g.mol-1). You decide to prepare a 1 L 10X solution of PBS. What is the Molar (M) concentration of each of the components in you 10X stock. Write your answers in the table below. How much of each of the components should you weigh out to prepare 1L of the 10X stock solutions. Write your answers in the table below.arrow_forwardConsider a buffer solution that contains 0.55 M NH2CH2CO2H and 0.35 M NH2CH2CO2Na. pKa(NH2CH2CO2H)=9.88. a. Calculate its pH. b. Calculate the change in pH if 0.155 g of solid NaOH is added to 250 mL of this solution. c. If the acceptable buffer range of the solution is ±0.10 pH units, calculate how many moles of H3O+ can be neutralized by 250 mL of the initial buffer.arrow_forward
- B. You will need approximately 1 ml of the 100 µg/ml bromophenol blue (which is your most concentrated standard) to generate your standard curve. Calculate how much bromophenol blue stock solution and how much water you will combine to accomplish this. Make 1 ml of this solution using a 100-1000 μl micropipetter. Use the equation C₁V1=C2V2 μl of 1 mg/ml stock + μl of water = 1 ml of 100 µg/ml bromophenol bluearrow_forwardConsidering the values in the following table, what relationship can be observed between the amount of sucrose and the water potential? What would you expect to happen if the amount of sucrose continues to increase? saccharose (M) solution (MPa) 0 0.1 0.15 0.2 0.25 0.3 0.35 0.4 0.45 0.5 0.6 0 -0.2478 -0.3717 -0.4956 -0.6195 -0.7434 -0.8673 -0.9912 -1.1151 -1.239 -1.4868 test mass differential 1 (g) 0.0333 0.0201 0.0143 0.0126 -0.0127 -0.0432 -0.0756 -0.0951 -0.0985 -0.1278 -0.1535 test mass differential 2 (g) 0.05555 0.0355 0.0275 0.015 0.002 -0.0295 -0.0755 -0.093 -0.124 -0.148 -0.1765arrow_forwardPaclitaxel is used to treat ovarian cancer by infusion at a concentration of 0.6 mg/mL over 24 hours. A dose of 135 mg/m² has been prescribed for Sero. Sero is 1.06 m tall and weighs 92 kg. Paclitaxel comes in vials of 150 mg/25 mL. Calculate the volume of 5%w/v glucose solution that would be required to dilute the concentrated solution to prepare an paclitaxel solution of the required strength.arrow_forward
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