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Physical Properties Of Metals And Non-Metals

Metals and non-metals exhibit contrasting physical properties, and these properties help us classify elements into these two categories. Let’s explore each in detail with examples, FAQs, real-life applications, and practice questions.

Physical Properties of Metals

Metals have specific characteristics that distinguish them from non-metals. These properties include malleability, ductility, conductivity, luster, hardness, and sonority.

Malleability

  • Definition: Malleability is the property of metals that allows them to be beaten into thin sheets without breaking.
  • Example: Gold and silver are highly malleable. Gold is used to make thin sheets known as gold leaves, which are used in decoration and jewelry.
  • Applications: Malleability is useful in industries for making sheets of metals like iron, aluminum, and copper, which are used in construction and electrical appliances.

Ductility

  • Definition: Ductility refers to the ability of metals to be drawn into thin wires.
  • Example: Copper and aluminum are excellent examples of ductile metals, making them ideal for use in electrical wiring.
  • Applications: Ductility is essential for manufacturing electrical cables, thin metal wires, and structural components.

Conductivity

  • Definition: Metals are good conductors of heat and electricity due to the presence of free electrons.
  • Example: Silver is the best conductor of electricity, followed by copper. Silver is used in high-end electrical applications, and copper is widely used in household electrical wiring.
  • Applications: Metals’ conductivity makes them suitable for making electrical components, heating elements, and thermal conductors.

Luster

  • Definition: Metals have a shiny appearance, which is known as metallic luster.
  • Example: Pure metals like silver, gold, and platinum have a characteristic shine, which is why they are used in jewelry.
  • Applications: Metallic luster makes metals desirable for aesthetic purposes in jewelry, decoration, and utensils.

Hardness

  • Definition: Most metals are hard, though their hardness varies.
  • Example: Iron and titanium are very hard, making them suitable for use in construction and tools, while sodium and potassium are soft and can be cut with a knife.
  • Applications: Hard metals are used in building materials, industrial machinery, and tools.

Sonority

  • Definition: Metals produce a ringing sound when struck. This property is called sonority.
  • Example: School bells are made of metals because they produce a clear ringing sound when hit.
  • Applications: Sonorous metals are used in making bells, musical instruments, and gong systems.

Physical Properties of Non-Metals

Non-metals exhibit properties that are opposite to those of metals. These include brittleness, poor conductivity, non-lustrous nature, and varied physical states.

Brittleness

  • Definition: Non-metals are brittle, meaning they break easily when struck or subjected to stress.
  • Example: Sulfur and phosphorus are brittle non-metals.
  • Applications: Brittle non-metals like sulfur are used in the manufacture of matches and fireworks.

Poor Conductivity

  • Definition: Non-metals are poor conductors of heat and electricity.
  • Example: Sulfur and phosphorus are bad conductors of electricity, while graphite (an allotrope of carbon) is an exception, as it conducts electricity.
  • Applications: Graphite is used in making electrodes in batteries, and non-conductive non-metals are used in insulation.

NonLustrous

  • Definition: Non-metals do not have a shiny surface.
  • Example: Sulfur and phosphorus have a dull appearance, while iodine is an exception as it has a shiny surface.
  • Applications: Non-lustrous non-metals are used in various chemical industries.

Physical States

  • Definition: Non-metals exist in different physical states at room temperature—solids, liquids, and gases.
  • Example: Oxygen is a gas, bromine is a liquid, and sulfur is a solid.
  • Applications: Non-metals are used in a wide variety of applications, such as oxygen in respiration and nitrogen in fertilizers.

Real-Life Applications of Metals and Non-Metals

Metals:

  • Copper is used in electrical wiring due to its high conductivity.
  • Aluminum is used to make aircraft bodies because of its lightweight and strength.

Non-Metals:

  • Oxygen is essential for respiration and is used in medical applications.
  • Sulfur is used in making fertilizers and pesticides.

Practice Questions with Answers

Q1: Why are metals malleable and non-metals brittle?

  • Answer: Metals are malleable because of the arrangement of metal ions in a lattice, which allows layers to slide over each other without breaking the structure. Non-metals, on the other hand, have a rigid structure, which makes them brittle and unable to withstand stress without breaking.

Q2: Give two examples of non-metals that are gases at room temperature.

  • Answer: Oxygen and nitrogen are non-metals that exist as gases at room temperature.

Q3: Why is copper used for electrical wiring instead of aluminum?

  • Answer: Copper is used for electrical wiring because it has higher electrical conductivity than aluminum, making it more efficient in conducting electricity.

Q4: What property of metals makes them suitable for use in school bells?

  • Answer: Metals are used in school bells because they are sonorous, meaning they produce a clear ringing sound when struck.

FAQs

Why are electrical wires coated with plastic or rubber?2024-09-20T15:41:40+05:30

Plastic or rubber is used as an insulating material to prevent the electric current from escaping and causing shocks.

What is the most ductile metal?2024-09-20T15:41:12+05:30

Gold is the most ductile metal. A single gram of gold can be drawn into a wire over 2 kilometers long.

Why are non-metals brittle?2024-09-20T15:40:03+05:30

Non-metals are brittle because they have a covalent bond structure, which makes them break easily under stress.

Why are metals good conductors of electricity?2024-09-20T15:40:36+05:30

Metals have free electrons that allow electricity to pass through them easily.

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