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Chemistry 15.3 Slide 1 of 21
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15.3 Suspensions Suspensions What is the difference between a suspension and a solution?
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15.3 Suspensions A suspension is a mixture from which particles settle out upon standing. A suspension differs from a solution because the particles of a suspension are much larger and do not stay suspended indefinitely.
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15.3 Suspensions Suspensions are heterogenous because at least two substances can be clearly identified. A suspension is a heterogeneous mixture. Suspended particles can be removed by filtration. Comparing and Contrasting How does the filtration of a suspension compare with the filtration of a solution?
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15.3 Colloids Colloids What distinguishes a colloid from a suspension and a solution?
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15.3 Colloids A colloid is a heterogeneous mixture containing particles that range in size from 1 nm to 1000 nm. The particles in a colloid are spread throughout the dispersion medium.
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15.3 Colloids Colloids have particles smaller than those in suspensions and larger than those in solutions.
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15.3 Colloids
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15.3 Colloids The Tyndall Effect The scattering of visible light by colloidal particles is called the Tyndall effect. The path of light is visible only when the light is scattered by particles. a) Fog or mist is a colloid and thus exhibits the Tyndall effect. b) Particles in colloids and suspensions reflect or scatter light in all directions. Solutions do not scatter light.
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15.3 Colloids Particles in colloids and suspensions reflect or scatter light in all directions. Solutions do not scatter light. The path of light is visible only when the light is scattered by particles. a) Fog or mist is a colloid and thus exhibits the Tyndall effect. b) Particles in colloids and suspensions reflect or scatter light in all directions. Solutions do not scatter light.
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15.3 Colloids Brownian Motion The chaotic movement of colloidal particles, which was first observed by the Scottish botanist Robert Brown (1773–1858), is called Brownian motion. Brownian motion is caused by collisions of the molecules of the dispersion medium with the small, dispersed colloidal particles.
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15.3 Colloids Coagulation A colloidal system can be destroyed, or coagulated, by the addition of ions having a charge opposite to that of the colloidal particles. The added ions neutralize the charged colloidal particles. The particles can clump together to form heavier aggregates and precipitate from the dispersion.
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15.3 Colloids Emulsions An emulsion is a colloidal dispersion of a liquid in a liquid. An emulsifying agent is essential for the formation of an emulsion and for maintaining the emulsion’s stability.
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15.3 Colloids Mayonnaise is heterogeneous mixture of oil and vinegar. Such a mixture would quickly separate without the presence of egg yolk, which is the emulsifying agent. The addition of an egg yolk to a mixture of oil and vinegar produces mayonnaise, a stable emulsion.
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15.3 Colloids
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15.3 Section Quiz. 15.3.
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15.3 Section Quiz. 1. One characteristic that is unique to a suspension is that the particles in it settle due to gravity. are too small to be seen. cannot be filtered. produce the Tyndall effect.
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15.3 Section Quiz. 2. Homogenized milk contains finely divided particles that do not settle out rapidly and are not readily filtered. Thus, homogenized milk is a colloid. substance. suspension. solution.
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15.3 Section Quiz. 3. The scattering of light known as the Tyndall effect can be seen in emulsions and solutions. colloids and suspensions. solutions and suspensions. colloids and solutions.
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Concept Map 15 Concept Map 15 Solve the Concept Map with the help of an interactive guided tutorial.
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