12. Imagine that you have two samples, compound “A" and compound “B", both are liq at -250°C. You begin to slowly heat the samples and the temperature rises (-250 °C ... C ... -230 °C ...). If compound “A" has a boiling point of -70 °C and compound “B" has a poiling point of -110 °C, which will begin to boil first? What do the boiling points allow co conclude about the strength of the intermolecular forces (the attractions between molecules) in compound “A" versus the attractions between the molecules in compour B"? Explain you answer with sound reasoning.

Number 12

Transcribed Image Text:

Sure! Here's the transcription of the text that appears in the image: --- 12. Imagine that you have two samples, compound “A” and compound “B”, both are liquid at -250ºC. You begin to slowly heat the samples and the temperature rises (-250ºC ... -240ºC ... -230ºC ...). If compound “A” has a boiling point of -70ºC and compound “B” has a boiling point of -110ºC, which will begin to boil first? What do the boiling points allow you to conclude about the strength of the intermolecular forces (the attractions between molecules) in compound “A” versus the attractions between the molecules in compound “B”? Explain your answer with sound reasoning. 13. What is meant by the term hydrogen bonding? What are the specific requirements for hydrogen bonding? Hydrogen bonding is considered to be a special case of what type of intermolecular force? --- There are no graphs or diagrams in the image.