3 States of Matter
- SOLID
· has a definite shape (rigid)
· definite volume
· particles vibrate around fixed positions
- LIQUID
· No definite shape (takes the shape of its container)
· Has definite volume
· Particles are free to move over each other, but are still attracted to each other
- GAS
· No definite shape (takes the shape of its container)
· No definite volume
· Particles move in random motion with little or no attraction to each other
· Highly compressible
Matter can be sub-divided into mixtures and pure substances.
1. MIXTURE – has variable composition, the proportions that make up the mixture vary and can be separated by physical methods.
Mixtures can be classified as homogeneous or heterogeneous.
A. HOMOGENEOUS – it has only one phase; having visibly (to the naked eye) indistinguishable parts.
Example: red wine in a glass
B. HETEROGENEOUS – it has two or more phases; having visibly distinguishable parts.
Example: fruit salad in a bowl
| Appearance | Clear, transparent and homogeneous | Cloudy, heterogeneous, at least two substances visible | Cloudy but uniform and homogeneous | |
| Particle Size | molecule in size | larger than 10,000 Angstroms | 10-1000 Angstroms | |
Effect of Light Tyndall Effect | none -- light passes through, particles do not reflect light | variable | light is dispersed by colloidal particles | |
| Effect of Sedimentation | none | particles will eventually settle out | none | |
A solution is always transparent, light passes through with no scattering from solute particles which are molecule in size. The solution is homogeneous and does not settle out. A solution cannot be filtered but can be separated using the process of distillation.
Example: A mixture of salt and water.
Example: A mixture of salt and water.
A suspension is cloudy and heterogeneous. The particles are larger than 10,000 Angstroms which allows them to be filtered. If a suspension is allowed to stand the particles will separate out.
Example: Milk in a glass of water
Example: Milk in a glass of water
A colloid is intermediate between a solution and a suspension. While a suspension will separate out a colloid will not. Colloids can be distinguished from solutions using the Tyndall effect. Light passing through a colloidal dispersion, such as smoky or foggy air, will be reflected by the larger particles and the light beam will be visible.
- PURE SUBSTANCES – have constant composition and can only be separated by chemical reactions.
Elements and compounds are pure substances.
ELEMENTS - substances that cannot be decomposed into simpler substances by chemical or physical means.
COMPOUNDS – substance with constant composition that can be broken down into elements by chemical processes.
Pure substances get broken down in the process of chemical changes. Chemical changes involve a change in color, change in temperature, change in odor, or a gas is given off.
Mixtures can be separated by physical changes. A physical change may change the form of a substance, but not its chemical compositions
METHODS FOR SEPARATING MIXTURES
- Distillation – process of separating a mixture by differences in boiling point.
- Filtration – process of separating a solid and a liquid.
- Chromatography – a method of separation that requires 2 phases, a stationary phase and a mobile phase.
- STATIONARY PHASE – a solid
- MOBILE PHASE - a liquid or gas
Example: Paper Chromatography
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