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Class 10 Exam  >  Class 10 Notes  >  Science Class 10  >  Important Diagrams: Metals & Non-Metals

Important Diagrams: Metals & Non-Metals | Science Class 10 PDF Download

Heat conductance or metal

Heat conductance is the ability of a material to allow heat to pass through it. Metals are good conductor of heat 
Order of conductivity: Silver > Copper > Gold > Aluminium > Iron 

Important Diagrams: Metals & Non-Metals | Science Class 10

Electricity conductance of metals 

Electrical conductance is the ability of a material to allow electric current to pass through it.

Conductivity order (high to low): Silver > Copper > Gold > Aluminium > Iron > Lead

Important Diagrams: Metals & Non-Metals | Science Class 10

Reaction of metals with water

Metals react with water and produce a metal oxide and hydrogen gas. However all metals do not react with water.

Important Diagrams: Metals & Non-Metals | Science Class 10Action of steam on a metal 

Reaction of Metals with Solutions of other Metal Salts 

Metal A + Salt solution B → Salt solution A + Metal B
Reactive metals can displace less reactive metals from their compounds in solution form.

Important Diagrams: Metals & Non-Metals | Science Class 10

The Reactivity Series

The reactivity series is a list of metals arranged in the order of their decreasing activities.

Important Diagrams: Metals & Non-Metals | Science Class 10

Corrosion

The surface of some metals gets corroded when they are exposed to moist air for a long period. This is called corrosion.

Important Diagrams: Metals & Non-Metals | Science Class 10

Ionic Bonding in NaCl

Important Diagrams: Metals & Non-Metals | Science Class 10

  • Sodium (Na): Atomic number 11 → Electron configuration: 2, 8, 1

  • Chlorine (Cl): Atomic number 17 → Electron configuration: 2, 8, 7

Atoms aim to achieve a stable octet by transferring electrons.

  • Sodium (Na) wants to lose 1 electron → forms Na⁺

  • Chlorine (Cl) wants to gain 1 electron → forms Cl⁻

Electron Transfer:

  • Na → Na⁺ + 1e⁻

  • Cl + 1e⁻ → Cl⁻

This gain and loss of electrons results in ionic bond formation.

Ionic Bonding in MgCl2

Important Diagrams: Metals & Non-Metals | Science Class 10

  • Magnesium (Mg): Atomic number 12 → Electron configuration: 2, 8, 2

  • Chlorine (Cl): Atomic number 17 → Electron configuration: 2, 8, 7

Atoms gain or lose electrons to achieve a stable octet (like noble gases).

  • Magnesium wants to lose 2 electrons → forms Mg²⁺ ion.

  • Each Chlorine atom wants to gain 1 electron → forms Cl⁻ ion.

Atoms gain or lose electrons to achieve a stable octet (like noble gases).

  • Magnesium wants to lose 2 electrons → forms Mg²⁺ ion.

  • Each Chlorine atom wants to gain 1 electron → forms Cl⁻ ion.

This gain and loss of electrons results in ionic bond formation.

Salt Solution conductance 

A salt solution conducts electricity because it contains ions

  • These ions are charged particles that move and carry current in solution.

  • When voltage is applied, positive ions move to the negative electrode and negative ions move to the positive electrode.

Important Diagrams: Metals & Non-Metals | Science Class 10

Occurrence of Ore

An ore is a naturally occurring rock or mineral from which a metal can be profitably extracted

  • Most metals occur in combined form

  • Reactivity of metal determines how it occurs (native or combined)

  • Extraction depends on the cost and feasibility.

Important Diagrams: Metals & Non-Metals | Science Class 10

Extraction of Ore Steps

Important Diagrams: Metals & Non-Metals | Science Class 10

Electrolytic Refining of Copper

Important Diagrams: Metals & Non-Metals | Science Class 10

(i) Anode: Impure copper
(ii) Cathode: Strip of pure copper
(iii) Electrolyte: Solution of acidified copper sulphate

  • On passing the current through the electrolyte, the impure metal from the anode dissolves into the electrolyte.
  • An equivalent amount of pure metal from the electrolyte is deposited at the cathode.

    The insoluble impurities settle down at the bottom of the anode and are called anode mud.

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FAQs on Important Diagrams: Metals & Non-Metals - Science Class 10

1. What is the reactivity series and how does it help in predicting the reactions of metals with other metal salts?
Ans. The reactivity series is a list of metals arranged in order of decreasing reactivity. It helps predict how metals will react with each other, particularly when they are in solution as salts. For example, a more reactive metal can displace a less reactive metal from its salt solution. This principle is crucial in applications such as metal extraction and electroplating.
2. What are the main steps involved in the extraction of ores?
Ans. The extraction of ores typically involves several key steps: 1. <b>Mining</b>: Locating and extracting the ore from the earth. 2. <b>Concentration</b>: Removing impurities and concentrating the metal content from the ore. 3. <b>Reduction</b>: Converting the concentrated ore into the metal through chemical reactions, often involving heat or chemical agents. 4. <b>Refining</b>: Purifying the extracted metal to achieve the desired quality, which may include electrolytic refining or other methods.
3. How does corrosion occur in metals, and what are some methods to prevent it?
Ans. Corrosion is the gradual destruction of metals due to chemical reactions with their environment, particularly with oxygen and moisture. It can lead to significant material degradation. To prevent corrosion, methods such as painting, galvanization (coating with a more reactive metal), and using corrosion inhibitors can be employed. Regular maintenance and the use of stainless steel or other resistant alloys can also help reduce corrosion.
4. How is ionic bonding demonstrated in sodium chloride (NaCl) and magnesium chloride (MgCl₂)?
Ans. Ionic bonding occurs when electrons are transferred from one atom to another, resulting in the formation of ions. In sodium chloride (NaCl), sodium (Na) donates one electron to become Na⁺, while chlorine (Cl) accepts the electron to become Cl⁻, forming NaCl through electrostatic attraction. In magnesium chloride (MgCl₂), magnesium (Mg) donates two electrons to become Mg²⁺, and two chlorine atoms each accept one electron to form two Cl⁻ ions, resulting in the compound MgCl₂.
5. What is electrolytic refining of copper and why is it important?
Ans. Electrolytic refining of copper is a process used to purify copper obtained from ores. In this method, impure copper is made the anode in an electrolytic cell, while pure copper is used as the cathode. An electrolyte solution, often containing copper sulfate, facilitates the transfer of copper ions. During electrolysis, pure copper is deposited on the cathode while impurities fall off, resulting in high-purity copper. This process is important for producing copper with the necessary electrical conductivity for use in electrical applications.
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Sep 25, 2025 Last updated
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