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Ethane (molar mass 30.07 g/mol) boils at-88.6℃ Methanol has almost the same molar mass (32.04 g...
-What is the molar mass of methanol if 1.555 mol methanol has a mass of 48.25...
-What is the molar mass of methanol if 1.555 mol methanol has a mass of 48.25 g? in g/mol -The active ingredient in a common treatment for upset stomach is sodium bicarbonate, NaHCO3. Calculate the percent, by mass, of hydrogen in sodium bicarbonate. -Calculate the formula mass of dibromomethane, CH2Br2 in amu -Determine the percent of water in MgSO4 · 6 H2O to three significant figures. -What is the percent by mass (mass percent) of potassium in potassium borohydride, KBH4?...
Liquid Molar Mass (g/mol) Polarity (P, NP) Strongest type of Intermolecular Force Molecular structure Methanol Po...
Liquid Molar Mass (g/mol) Polarity (P, NP) Strongest type of Intermolecular Force Molecular structure Methanol Polar hydrogen bonds Ethanol Ipolar 1-Propanol polar 11-Butanol Ipolar n-Hexane Inon- polar n-Heptane Inon- I polar n-octane non- polar Acetone Polar 2- propanol polar 1. Which liquid tested has the strongest intermolecular forces? Justify your answer. (pt) Table 2 (15pes total) Minimum AT Initial Liquid temperature (°C) Methanol 17.8°C Ethanol 20+C |- Propanol 19.5°C 1-Butanol 19.8°C In-Hexane 18.4°C n-Heptane 20.7°C In-octane 19.4°C | Acetone 20.1.0...
A 13. (a) Which would have the stronger intermolecular force, CHA or Cla? Briefly explain your...
A 13. (a) Which would have the stronger intermolecular force, CHA or Cla? Briefly explain your answer. V (b) CHa boils at 111 k while Cola boils at 350 K. Does this data support or contradict your answer to part (a)? Briefly explain eng point 14. Why does ethane (CH) have a higher boiling point (184 K) than methane (CH 111 K)? 163 Model III: Another set of boiling point data Substance Boiling point Boiling point HF Substance HO H...
Pure benzene, C6H6, has a molar mass of 78.114 g mol-1, a density of 0.8765 g...
Pure benzene, C6H6, has a molar mass of 78.114 g mol-1, a density of 0.8765 g mL-1, a freezing point of 5.45°C, and a boiling point of 80.2°C. Its freezing point depression and boiling point elevation constants are: Kf = 5.07°C m-1; Kb = 2.53oC m-1. A solution was made by taking 33.88 g of an unknown nonelectrolyte and dissolving it in 175.0 g of benzene. The measured freezing point of the solution was 1.65oC. Calculate the molar mass of...
3a. Calculate the molar mass (in g/mol) of an unknown 1:1 electrolyte if 0.482 g dissolved...
3a. Calculate the molar mass (in g/mol) of an unknown 1:1 electrolyte if 0.482 g dissolved in 223.1 mL of water at 74.75 °C has an osmotic pressure of 54.4 mmHg. R = 0.082058 L⋅atm⋅mol−1⋅K−1. 1.00 atm = 760 mmHg. Report your answer to THREE significant figures. 3b. Calculate the required mass of an unknown nonelectrolyte (ℳ = 131.5599 g/mol) dissolved in 140.1 g of solvent that gives a solution that boils at 36.04 °C. The boiling point of the...
5) Consider the phase diagram for carbon dioxide(10). Supercritical fluid Solid Liquid Pressure (atm) -78.5 -56.4...
5) Consider the phase diagram for carbon dioxide(10). Supercritical fluid Solid Liquid Pressure (atm) -78.5 -56.4 Temperature (°C)— a) What is the critical temperature for carbon dioxide? b) What is the critical pressure for carbon dioxide? c) What phase(s) is/are present at -10°C and 30 atm. d) What phase(s) is/are present at -60°C and 10 atm. - e) What phase(s) is/are present at-78.5°C and 1 atm. f) What phase(s) is/are present at-56.4°C and 5.11 atm. g) What is the normal...
Glycerol, C3H2O3, has the following properties: molar mass = 92.09 g/mol melting point = 17.0°C boiling...
Glycerol, C3H2O3, has the following properties: molar mass = 92.09 g/mol melting point = 17.0°C boiling point = 287 °C AH fus = 18.3 kJ/mol AHvap = 91.7 kJ/mol Cs of C3H2O3(s) = 1.63 J/g °C Cs of C3H2O3(1) = 2.41 J/g °C How much energy is required to warm 25.2 g of C3H2O3(s), initially at -10.0°C, to C3H2O3(l) at 99.0 °C? A. 16.2 kJ C. 7.28 kJ B. 11.1kJ D. 2.93 kJ
Lysozyme extracted from chicken egg white has a molar mass of 13,930 g/mol. Exactly 0.1 g...
Lysozyme extracted from chicken egg white has a molar mass of 13,930 g/mol. Exactly 0.1 g of this protein is dissolved in 50 g of water at 298 K. Assuming that the protein is a nonelectrolyte, calculate the following: a. Vapor-pressure lowering (Pvap, H₂O = 23.76 mmHg at 298 K). b. Boiling-point elevation (Kb of H₂O=0.512 °C/m) c. Freezing-point depression (Kf of H₂O= 1.86 °C/m) d. Osmotic pressure
1a. Please review Data Table #2 and check the information that has been filled in for...
1a. Please review Data Table #2 and check the information that
has been filled in for accuracy/fill in the remaining information
that has not been completed.
1b. Based on your temperature measurements, which molecule seems
to have the strongest intermolecular forces? What is/are the
force(s) in that particular molecule? Use your data to explain your
reasoning.
1c. Which seems to have the weakest intermolecular forces? What
is/are the force(s) in that particular molecule? Use your data to
explain your reasoning....
INTERMOLECULAR FORCES INTRODUCTION LEARNING OBJECTIVES To relate the effecet of intermolecular fo...
INTERMOLECULAR FORCES INTRODUCTION LEARNING OBJECTIVES To relate the effecet of intermolecular forces on relative melting points and vapour pressures of some organic substances THEORY Weak attractive forces that occur between individual molecules in substances are called intermolecular forces. These include London dispersion forces, dipole-dipole forces and hydrogen-bonding forces. Collectively, the three types of intermolecular forces are referred to as Van der Waals forces. These attractive forces are much weaker than the chemical bonds between atoms in a molecule. Note that...
Liquid Molar Mass (g/mol) Polarity (P, NP) Strongest type of Intermolecular Force Molecular structure Methanol Polar hydrogen bonds Ethanol Ipolar 1-Propanol polar 11-Butanol Ipolar n-Hexane Inon- polar n-Heptane Inon- I polar n-octane non- polar Acetone Polar 2- propanol polar 1. Which liquid tested has the strongest intermolecular forces? Justify your answer. (pt) Table 2 (15pes total) Minimum AT Initial Liquid temperature (°C) Methanol 17.8°C Ethanol 20+C |- Propanol 19.5°C 1-Butanol 19.8°C In-Hexane 18.4°C n-Heptane 20.7°C In-octane 19.4°C | Acetone 20.1.0...
A 13. (a) Which would have the stronger intermolecular force, CHA or Cla? Briefly explain your answer. V (b) CHa boils at 111 k while Cola boils at 350 K. Does this data support or contradict your answer to part (a)? Briefly explain eng point 14. Why does ethane (CH) have a higher boiling point (184 K) than methane (CH 111 K)? 163 Model III: Another set of boiling point data Substance Boiling point Boiling point HF Substance HO H...
5) Consider the phase diagram for carbon dioxide(10). Supercritical fluid Solid Liquid Pressure (atm) -78.5 -56.4 Temperature (°C)— a) What is the critical temperature for carbon dioxide? b) What is the critical pressure for carbon dioxide? c) What phase(s) is/are present at -10°C and 30 atm. d) What phase(s) is/are present at -60°C and 10 atm. - e) What phase(s) is/are present at-78.5°C and 1 atm. f) What phase(s) is/are present at-56.4°C and 5.11 atm. g) What is the normal...
Glycerol, C3H2O3, has the following properties: molar mass = 92.09 g/mol melting point = 17.0°C boiling point = 287 °C AH fus = 18.3 kJ/mol AHvap = 91.7 kJ/mol Cs of C3H2O3(s) = 1.63 J/g °C Cs of C3H2O3(1) = 2.41 J/g °C How much energy is required to warm 25.2 g of C3H2O3(s), initially at -10.0°C, to C3H2O3(l) at 99.0 °C? A. 16.2 kJ C. 7.28 kJ B. 11.1kJ D. 2.93 kJ
1a. Please review Data Table #2 and check the information that
has been filled in for accuracy/fill in the remaining information
that has not been completed.
1b. Based on your temperature measurements, which molecule seems
to have the strongest intermolecular forces? What is/are the
force(s) in that particular molecule? Use your data to explain your
reasoning.
1c. Which seems to have the weakest intermolecular forces? What
is/are the force(s) in that particular molecule? Use your data to
explain your reasoning....
INTERMOLECULAR FORCES INTRODUCTION LEARNING OBJECTIVES To relate the effecet of intermolecular forces on relative melting points and vapour pressures of some organic substances THEORY Weak attractive forces that occur between individual molecules in substances are called intermolecular forces. These include London dispersion forces, dipole-dipole forces and hydrogen-bonding forces. Collectively, the three types of intermolecular forces are referred to as Van der Waals forces. These attractive forces are much weaker than the chemical bonds between atoms in a molecule. Note that...
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