Ideal Solution: Understanding Methanol-Water Interactions

What makes the solution between methanol and water behave ideally?

a. Like, unlike
b. Similar, dissimilar
c. Unlike, like
d. Dissimilar, similar

The solution behaves ideally as methanol-water interactions are similar to methanol-methanol and water-water interactions.

Final answer: b. Similar, dissimilar

When we look at the interactions between methanol and water, we observe that both substances have similarities in how they interact with each other and within their own molecules. Methanol and water are both polar liquids that have the ability to form hydrogen bonds. This characteristic plays a crucial role in their interactions and the behavior of their solution.

The interactions between methanol and water are similar to methanol-methanol and water-water interactions. This similarity in interactions leads to the formation of an ideal solution. In an ideal solution, there is no significant change in energy during the mixing process, which supports the principle that 'like dissolves like'.

As both methanol and water are polar substances with hydrogen bonding capabilities, they exhibit similarities in their intermolecular forces. This similarity allows them to mix well with each other, resulting in an ideal solution. The absence of a notable energy change further reinforces the concept that substances with comparable intermolecular forces tend to be miscible or soluble in each other.

← What percentage of heat released by rock was absorbed by water Excess reagent calculation in chemical reaction →