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Solutions Intro
cava s2d18 chem 303 2.01 Solutions
| Question | Answer |
|---|---|
| [-geneous] mixtures LOOK like they're all the same thing, but aren't. | Homogeneous mixtures LOOK like they're all the same thing, but aren't. |
| [-geneous] mixtures LOOK like they're mixtures of different things and they are. | Heterogeneous mixtures LOOK like they're mixtures of different things and they are. |
| Milk is an example of a [-geneous] mixture; it LOOKS like it's all just white fluid, but its actually made of many different substances. | Milk is an example of a homogeneous mixture; it LOOKS like it's all just white fluid, but its actually made of many different substances. |
| A solution is a homogeneous [...] of two or more substances in the same physical state. | A solution is a homogeneous mixture of two or more substances in the same physical state. |
| The two parts of a solution are the [sol-] and the solUTE. | The two parts of a solution are the solVENT and the solUTE. |
| In a solution, the [sol-] is dissolved in the solVENT. | In a solution, the solUTE is dissolved in the solVENT. |
| If you are discussing the amount of solute and the amount of solvent, you are talking about the [...] of a solution. | If you are discussing the amount of solute and the amount of solvent, you are talking about the concentration of a solution. |
| A solution with a smaller amount of solute is a [d-] solution. | A solution with a smaller amount of solute is a dilute solution. |
| A solution with a greater amount of solute is called a [c-] solution. | A solution with a greater amount of solute is called a concentrated solution. |
| The terms dilute and concentrated are [...] (not absolute); they describe greater or lesser concentrations, but not any actual numbers. | The terms dilute and concentrated are relative (not absolute); they describe greater or lesser concentrations, but not any actual numbers. |
| [...] terms describe actual measurements; relative terms just say something is more or less than something else. | Absolute terms describe actual measurements; relative terms just say something is more or less than something else. |
| For chemistry work, the concentration of a solute in a solvent is often expressed in terms of a [p-]. | For chemistry work, the concentration of a solute in a solvent is often expressed in terms of a percentage. |
| Solutions with a liquid solute and a liquid solvent are described by [...]/volume ratios. | Solutions with a liquid solute and a liquid solvent are described by volume/volume ratios. |
| A [-ed] solution is one in which the solution cannot possibly dissolve more solute under the existing conditions. | A saturated solution is one in which the solution cannot possibly dissolve more solute under the existing conditions. |
| The two parts of a solution are the solVENT and the [sol-]. | The two parts of a solution are the solVENT and the solUTE. |
| In a solution, the solUTE is dissolved in the [sol-]. | In a solution, the solUTE is dissolved in the solVENT. |
| In a solution, the [sol-] is dissolved in the [sol-]. | In a solution, the solUTE is dissolved in the solVENT. |
| Absolute terms describe actual measurements; [...] terms just say something is more or less than something else. | Absolute terms describe actual measurements; relative terms just say something is more or less than something else. |
| Solutions with a liquid solute and a liquid solvent are described by volume/[...] ratios. | Solutions with a liquid solute and a liquid solvent are described by volume/volume ratios. |
| Solutions with a liquid solute and a liquid solvent are described by [...]/[...] ratios. | Solutions with a liquid solute and a liquid solvent are described by volume/volume ratios. |
Created by:
mr.shapard
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