0.20 grams of a small protein is dissolved in 100.0 mL water. The osmotic pressure of the solution at 25 degrees Celsius is 0.0129 atm. What is the molecular weight of the protein?
0.20 grams of a small protein is dissolved in 100.0 mL water. The osmotic pressure of...
Calculate the molecular weight of a small protein if a 7.0-g sample of the protein dissolved in enough water to make 7.00 x 10 2 mL of solution has an osmotic pressure of 3.8 mmHg at 25.0°C.
How many grams of glucose must be dissolved in 300.0 ml of water at 25 degrees celsius to give an osmotic pressure of 9.05atm
A protein solution containing 80.0 mg of the protein (dissolved in water) displays an osmotic pressure of 319.88 Pa at 310.15 K. If the volume of the protein solution is 16.0 mL, what is the molar mass of the protein
A protein solution containing 90.0 mg of the protein (dissolved in water) displays an osmotic pressure of 319.88 Pa at 310.15 K. If the volume of the protein solution is 18.0 mL, what is the molar mass of the protein?
A protein solution containing 90.0 mg of the protein (dissolved in water) displays an osmotic pressure of 319.88 Pa at 310.15 K. If the volume of the protein solution is 13.0 mL, what is the molar mass of the protein? g/mol
You want to measure the molecular weight of a protein molecule so you measure the osmotic pressure of a protein solution you make. If 0,10 g of protein is dissolved in 5.0 ml. of solution, n = 0.05 atm at 25°C. What is the molecular weight of the protein? 820 g/mol Anamn
A 5.00-gram sample of a compound is dissolved in enough water to form 100.0 mL of solution. This solution has an osmotic pressure of 25 torr at 25
0.0140 grams of Cr(NH3)sCls was dissolved in 25.00 mL of water to give an osmotic pressure of 128.28 mmHg at 298.0 K. How many ions were produced per molecule? Note: R - 0.0806 L atm/mol K, MM Cr(NHs)Clh 243.5 g/mol alculate the osmotic pressure as if Cr(NH3)sCls did not ionize then use the relationship t: C true vapor pressure nonionized vapor pressure
1. When 0.713 grams of a protein were dissolved in 72.5 mL of solution at 28.5 degrees C, the osmotic pressure was found to be 35.6 torr. Calculate the molar mass of the protein. 2. Calculate the molality of an aqueous solution that is 8.1% by mass calcium chloride. You might need to know that the density is 1.20 g/mL.
When 0.885 grams of a protein were dissolved in 94.4 mL of benzene at 23.7 degrees C, the osmotic pressure was found to be 49 torr. Calculate the molar mass of the protein.