What is the boiling and freezing point of koolaid?!
What is the boiling and freezing point of koolaid?
Answers:
Colligative properties
Not surprisingly, when you dissolve something in a liquid, it has different properties than the pure liquid. Any properties that change when the concentration of a solution changes are called colligative properties.
People always list boiling point elevation, melting point depression, and osmotic pressure as the main colligative properties of liquids. We're going to do it a little differently - after all, I'm not trying to sell you guys a textbook, so I don't have to use the confusing words that school districts like to see.
Think about Kool Aid. Let's make a weak Kool Aid solution by dissolving one grain of Kool Aid in a glass of water. Let's also make a strong Kool Aid solution by dissolving a cup of Kool Aid powder in a glass of water. The properties that are different between the two glasses of Kool Aid are "colligative properties".
In our example, we would find that:
Strong Kool Aid is darker than weak Kool Aid. As a result, we would say that "color" is a colligative property of liquids. This is the basis for a field called spectophotometry, where you can figure out how concentrated a solution is by looking at the color.
Strong Kool Aid is a lot sweeter than weak Kool Aid. To make it a little broader, we can say that "taste" is a colligative property of liquids. True, but it's usually not all that handy in the lab. They say that sodium cyanide tastes like almonds, but I wouldn't test the concentration of a cyanide solution by taste! (Who figured that out, anyway?)
Strong Kool Aid is thicker and goopier than weak Kool Aid. Texture is a colligative property.
Strong Kool Aid is denser than weak Kool Aid. Density is a colligative property.
Strong Kool Aid boils at a higher temperature than weak Kool Aid. Boiling point is a colligative property.
Strong Kool Aid freezes at a lower temperature than weak Kool Aid (if you've ever tried to make homemade popsicles, you know this to be true). Melting / freezing point is a colligative property.
Now that you know what colligative properties are, let's look at the ones that your textbook probably focuses on:
Boiling point: As the molarity of a solution increases, the boiling point increases. This is because the solute lowers the vapor pressure of the solution and solutions don't boil until the vapor pressure of the solution is equal to atmospheric pressure. If this doesn't make any sense, just remember that strong solutions boil at higher temperatures than weak ones.
Melting point: As the molarity of a solution increases, the melting point decreases. This is because the solute keeps the solvent molecules from forming a nice solid lattice. Think of this: Ocean water doesn't freeze very easily - this is because it's got salt dissolved in it.
Osmotic pressure: You should have heard about this one in your biology class somewhere along the road. Basically, if you've got a solution that's separated from a pure solvent by a semi-permeable membrane, the pure solvent likes to move across the membrane to decrease the concentration of the solution. The pressure that the solvent pushes across the membrane with is called osmotic pressure. Not surprisingly, the more concentrated the solution, the more the pure solvent likes to push across the membrane and the higher the osmotic pressure.
OK. That's it for solutions. I hope this has helped. If so, tell all your friends to come visit and learn about solutions. If not, then keep it to yourself because I don't need the bad publicity. If you have questions, email me at misterguch@chemfiesta.com. You can even ask me stupid questions if you'd like - I may laugh when I read them, but I'll still email you back. I'm that kind of guy. If you email me your homework questions, I'll know and make fun of you in my response. I'll still email you, though.
Source(s):
http://misterguch.brinkster.net/molarity...
Koolaid is made from water, so the boiling point would be 212 degrees and the freezing point would be 32 degrees.
Same as water, 212F for boiling, 32F for freezing. The sugar and Koolaid mix wont affect it much.
Now if it was salt, then it would be different, a lower freezing temperature, < 32F.
212f and 32f.