WebTranscribed Image Text: a) Why CHC13 boil at 61 C and CHBr3 at 150°C? b) For the noble gases the dispersion forces decrease while the boiling points increase as you go down … WebCHCl3 (61 oC) and CHBr3 (150 oC) c. Br2 (59 oC) and ICl (97 oC) This problem has been solved! You'll get a detailed solution from a subject matter expert that helps you learn …
Rationalize the difference in boiling points in each pair: (a) HF …
WebApr 30, 2013 · chloroform (chcl3) has a Hvap of 29.6 kj/mol and its boiling point occurs at 61.7c. the specific heat capacity of liquid chloroform is 0.622 J/gC while that of the gas is … Webb) CHBr3 has more dispersion forces than CHCl3 as there are more electrons present. The greater the dispersion forces, the more energy requires to break them and the higher the boiling thus the reason why CHBr3 has a higher boiling point than CHCl3. c) Br2 is a non polar while ICl is polar. hanson gorian bradford \u0026 hanich murrieta
Answered: A chemist combined chloroform (CHCl3)… bartleby
WebDec 16, 2024 · Previous Answers Correct HF has a much higher boiling point than HCl, indicating that it contains strong intermolecular forces. Specifically, it contains hydrogen … WebA chemist combined chloroform (CHCl3) and acetone (C3H6O) to create a solution where the mole fraction of chloroform, ?chloroform, is 0.155. The densities of chloroform and acetone are 1.48 g/mL and 0.791 g/mL, respectively. Calculate the MOLARITY of the solution. (M) Calculate the MOLALITY of the solution. WebRationalize the difference in boiling points in each pair: (a) HF (20°C) and HCl (-85°C); (b) CHCl3 (61°C) and CHBr3 (150°C); (c) Br2 (59°C) and ICl (97°C). 3. Identify the type of types of intermolecular forces present in each substance and then select the substance in each pair that has the higher boiling point: (a) propane C3H8 or n ... hanson grant martin county