For example, only 16 kJ/mol is required to overcome the intermolecular attractions between HCl molecules in liquid HCl in order to vaporize it. 0.254 M: What is the molarity of a solution made by dissolving 34.0 g sodium chloride ( NaCl ) in enough water to make 500 mL of solution? 2. Indicate the kinds of intermolecular forces that would occur between the solute and the solvent in which the molecule is more soluble. S = kP S = solubility k = Henry's Law constant P = partial pressure of the gas. Lithium iodide, on the other hand, would be described as being "ionic with some covalent character". These compare well to the literature values of 117 oC and 47.4 kJ/mol. Intermolecular interactions in the solvent were found at 3.02 Å (C⋯O), 4.22 Å (S⋯C), 4.62 Å (S⋯O) and 5.25 Å (S⋯S). Find the heat of solution for lithium iodide and determine how much heat is evolved or absorbed when 15.0 g of lithium iodide completely dissolves in water. Answer: Silicon is giant covalent structure while phosphorous is simple molecular, strong covalent bonds throughout the whole structure but weak intermolecular forces in phosphorous which takes lower energy to overcome. intermolecular forces, it is therefore reasonable to expect that we could use the properties of methanol, ethanol and 1-propanol to predict those of 1-butanol. What is the molarity of a solution made by dissolving 17.0 g lithium iodide ( LiI ) in enough water to make 500 mL of solution? Lithium iodide has a lattice energy of -7.3 * 102 kJ>mol and a heat of hydration of -793 kJ>mol. • Explain why silicon has a much higher melting temperature than sulfur. hydrogen-bonds, and several other weak intermolecular forces that act between molecules. When strengths of intermolecular forces are similar in solvent and solute, solution can form. 36) When lithium iodide (LiI) is dissolved in water the solution becomes hotter. Hydrogen bonding is important in the case of: (choose one answer) A) CH3OH B) CH4 C) CF4 D) CHF3 4. The strengths of intermolecular forces of different substances vary over a wide range. Intermolecular forces of attraction are weak and require little energy to break. Henry's Law. In this case, the pair of electrons has not moved entirely over to the iodine end of the bond. ... 6 a Lithium chloride b Lithium nitride cLithium sulfate a) Is the dissolution of lithium iodide endothermic or exothermic? These iodide-containing electrolytes were specifically formulated for molecular electronic transducer (MET) sensors that rely on the electrochemical reactions between iodide (I −) and the triiodide (I 3 −) redox couple. 11.2 Intermolecular Forces. Oleg Borodin,, Grant D. Smith, and, Richard Douglas. 1.16 M The predominant intermolecular force in CH3CH2CH3 (propane, a hydrocarbon) is: A) Dipole-Dipole B) Ion-dipole C) Hydrogen-bonding D) London Dispersion forces 3. iodide solution 2 a Mixture b Mixture c Element ... 3 When carbon dioxide sublimes, only intermolecular forces of attraction are broken. Solubility and Pressure of Gases. Lithium iodide, for example, dissolves in organic solvents like ethanol - … Langmuir 2003, 19 (22) , 9357-9372. The overall coordination number (the sum of Li–O and Li–I coordination numbers) for lithium is 4.1 and the one for iodide (the sum of I–C and Li–I coordination numbers) is 8, in agreement with earlier findings. The vapor pressure of any substance at its normal boiling point is: A) 1 KPa The solubility of a gas in a liquid is directly proportional to the gas pressure. Nanoscale Intermolecular Interactions between Human Serum Albumin and Low Grafting Density Surfaces of Poly(ethylene oxide). See attached plots that predict the values in bold above. DOI: 10.1021/la034057l. However, they are generally much weaker than ionic or covalent bonds (Figure 11.2).