Respuesta :
Answer:
1) -COOH
2) -NH2
3) hydrogen bonds
4) dispersion forces
5) -CH3
6) hydrogen bonds
7) negative
8) negative
9) positive
Explanation:
Alanine has a -COOH and a -NH2 group available to form hydrogen bonds with water molecules.
Although there are some potential dispersion forces between the terminal -CH3 group of alanine and hexane molecules, we expect the hydrogen bonds between alanine and water to be stronger.
Stronger intermolecular attractive forces between alanine and water lead to a more negative ΔHmix and more negative (smaller positive) ΔHsoln for water than for hexane.
Alanine has a -COOH and a -NH2 group available to form hydrogen bonds with water molecules.
Although there are some potential dispersion forces between the terminal -CH3 group of alanine and hexane molecules, we expect the hydrogen bonds between alanine and water to be stronger.
The answer of the following fill in the blanks as follows:-
- Alanine has a COOH
- and a NH2
- Group available to form hydrogen bonds
- with water molecules. Although there are some potential dispersion forces
- between the terminal CH3
- group of alanine and hexane molecules, we expect the hydrogen bonds
- between alanine and water to be stronger. Stronger intermolecular attractive forces between alanine and water lead to a more negative
- ΔH mix and more negative
- (smaller positive) ΔHsoln for water than for hexane
Stronger intermolecular attractive forces between alanine and water lead to a more negative ΔHmix and more negative (smaller positive) ΔHsoln for water than for hexane.
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https://brainly.com/question/2817451
