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Magazine Chapter 12: Problem 76
Classify each of the following as a ceramic, polymer, or
Short Answer
Expert verified
a) Porcelain - Ceramic
b) Polyethylene - Polymer
c) Iron - Metal
d) PVC - Polymer
e) Aluminum - Metal
Step by step solution
01
a) Porcelain
Porcelain is made from clay and other inorganic materials, and it has a high melting point and brittleness. Therefore, porcelain is classified as a ceramic.
02
b) Polyethylene
Polyethylene is a synthetic polymer made of repeating ethylene monomer units. Its properties resemble those of a typical polymer, which classifies it as a polymer.
03
c) Iron
Iron is an element with properties like good electrical and thermal conductivity, ductility, and metallic luster. Hence, it belongs to the category of metals.
04
d) PVC (Polyvinyl Chloride)
PVC is a synthetic polymer made up of repeating vinyl chloride monomer units. Its properties are consistent with those of a polymer material. Therefore, PVC is classified as a polymer.
05
e) Aluminum
Aluminum is an element with a metallic appearance, good thermal and electrical conductivity, and is malleable. As a result, it is classified as a metal.
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Key Concepts
These are the key concepts you need to understand to accurately answer the question.
Ceramics
Ceramics are non-metallic, inorganic materials that are typically made from clay and other mineral compounds. They are known for their high hardness, high melting points, and excellent durability. Ceramics are often used in products that require these properties, such as tiles, plates, and various industrial components. An example provided in the exercise was porcelain, widely recognized for its glossy finish, strength, and use in dinnerware and decorative objects. The brittleness of ceramics is a characteristic trade-off for their hardness, something to remember when handling such materials.
Polymers
Polymers are long, repeating chains of molecules, and they play a significant role in our daily lives. Naturally occurring polymers include materials like rubber and silk, while synthetic polymers, like polyethylene (mentioned in the exercise) and PVC, are made by human processes. Properties such as flexibility, elasticity, and resistance to chemicals make polymers suitable for a wide variety of applications, from packaging materials to clothing and beyond. Polyethylene, for example, is widely used for making plastic bags and containers due to its durability and flexibility.
Metals
Metals are elements known for their shiny appearance, high density, high melting points, and excellent conductors of heat and electricity. They are malleable, ductile, and can form alloys with other metals, providing different mechanical properties fit for various industrial applications. In the exercise, iron and aluminum were discussed as examples of metals. Iron is a core component of steel, an essential material in construction and manufacturing, while aluminum, notable for being lightweight and resistant to corrosion, has widespread use in transportation, packaging, and electronics.
Inorganic Materials
Inorganic materials are substances not containing carbon-hydrogen bonds, excluding those found in certain simple carbon compounds like carbonates and cyanides. They generally have high melting points, low combustibility, and solid at room temperature. Many inorganic materials are fundamental to industries such as ceramics, glass, cement, and metals. The exercise included porcelain as an example of a ceramic inorganic material, exemplifying the rigid and heat-resistant properties that inorganic substances often display.
Synthetic Polymers
Synthetic polymers are a subgroup of polymers that are artificially manufactured through chemical processes. These complex molecules are created by polymerizing smaller units called monomers. The resulting materials can be tailored for specific uses by changing the type and arrangement of the monomers. PVC is a practical example provided in the exercise. Its durability and resistance to environmental factors make it ideal for construction materials like pipes and window frames, highlighting the versatility of synthetic polymers in modern applications.
