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AMORPHOUS and CRYSTALLINE SOLIDS.pptx
- 2. LEARNING COMPETENCIES •Describe the structure of crystalline and amorphous solid.
- 4. WHAT ARE THE TWO GENERAL TYPES OF SOLIDS? •What features can be used to distinguish a crystalline solid from an amorphous solid? The differences in properties of these two groups of solids arise from the presence or absence of long range order of arrangements of the particles in the solid.
- 5. ARRANGEMENT of PARTICLES The components of a solid can be arranged in two general ways: CRYSTALLINE SOLID • they can form a regular repeating three-dimensional structure called a crystal lattice, thus producing a crystalline solid’ AMORPHOUS SOLID • they can aggregate with no particular long range order, and form an amorphous solid (from the Greek ámorphos, meaning “shapeless”).
- 6. Crystalline solids are arranged in fixed geometric patterns or lattices. Examples of crystalline solids are ice and sodium chloride (NaCl), copper sulfate (CuSO4), diamond, graphite, and sugar (C12H22O11). The ordered arrangement of their units maximizes the space they occupy and are essentially incompressible.
- 7. EXAMPLES
- 8. Crystalline Solids (vocabulary) Lattice • is a three-dimensional system of points designating the positions of the components (atoms, ions, or molecules) that make up a crystal Unit cell • is the smallest repeating unit of a lattice
- 10. COMMON UNIT CELLS and LATTICES
- 11. Amorphous solids have a random orientation of particles. Examples of amorphous solids are glass, plastic, coal, and rubber. They are considered super-cooled liquids where molecules are arranged in a random manner similar to the liquid state.
- 12. EXAMPLES
- 13. Differences between AMORPHOUS and CRYSTALLINE SOLIDS AMORPHOUS SOLIDS CRYSTALLINE SOLIDS a. Arrangement of Particles Particles are randomly arranged and have no ordered structure. Particles (atoms, molecules or ions) are closely packed and have an ordered three- dimensional structure. b. Melting Point Do not have sharp melting points; they melt over a wide range of temperatures Sharp melting points c. Examples Glass, rubber, and plastics Diamond, graphite, NaCl, CuSO4*5H2O, and sugar
- 14. FOR MORE INFORMATION… More than 90% of naturally occurring and artificially prepared solids are crystalline. Minerals, sand, clay, limestone, metals, alloys, carbon (diamond and graphite), salts (e.g. NaCl and MgSO4), all have crystalline structures.
- 15. • They have structures formed by repeating three dimensional patterns of atoms, ions, or molecules. • The repetition of structural units of the substance over long atomic distances is referred to as long-range order. • Amorphous solids (e.g. glass), like liquids, do not have long range order, but may have a limited, localized order in their structures.
- 17. BEHAVIOR WHEN HEATED- CRYSTALLINE • The presence or absence of long-range order in the structure of solids results in a difference in the behavior of the solid when heated. • The structures of crystalline solids are built from repeating units called crystal lattices. The surroundings of particles in the structure are uniform, and the attractive forces experienced by the particles are of similar types and strength.
- 21. BEHAVIOR WHEN HEATED- AMORPHOUS • Amorphous solids soften gradually when they are heated. They tend to melt over a wide range of temperature. • This behavior is a result of the variation in the arrangement of particles in their structures, causing some parts of the solid to melt ahead of other parts.
Editor's Notes
- Who can describe the two pictures or compare the two images. The first one infer that the circles are not in particular order. They are scattered in any position or located in any position. The second one looks like in particular order. The first rows are all big circles and the second row are small circles. These two images represents two structures of one matter which is solid. They are to types of structures of solid: Amorphous and Crystalline
- What are the two general types of solids? They are your amorphous and crystalline solids. How are we going to distinguish or differentiate these two types of solid? We are going to use some features to distinguish or differentiate the two types of solids. Specifically, the arrangements of the particles in the solid.
- Amorphous: no definite shape
- In other words, Amorphous solids are solids with no ordered structure.
- NaCl
- Fixed temperature is attained when the crystalline solid reached its melting point wherein all the bonds would break the moment the crystalline solid is heated.