Grade 9
  1. Matter and its nature  1.1. Introduction to matter  1.2. Physical and chemical properties of matter  1.3. States of matter  1.3.1. Solid state  1.3.2. Fluid state  1.3.3. Gaseous state  1.3.4. Plasma and Bose–Einstein condensate  1.4. Changes in the states of matter  1.4.1. Melting and freezing  1.4.2. Evaporation and Condensation  1.4.3. Sublimation and deposition  1.5. Classification of matter  1.6. Elements, Compounds, and Mixtures  1.7. Pure substances and impurities  1.8. Separation Techniques  1.8.1. Filtration  1.8.2. Distillation  1.8.3. Crystallization  1.8.4. Chromatography  1.8.5. Centrifugation  1.8.6. Sublimation  1.8.7. Decantation and sedimentation
  2. Atomic Structure  2.1. Discovery of atoms  2.2. Dalton's atomic theory  2.3. Structure of the atom  2.4. Subatomic particles  2.5. Atomic number and mass number  2.6. Isotopes and Isobars  2.7. Electronic configuration  2.8. Bohr's atomic model  2.9. Modern Atomic Model (Quantum Mechanical Model - Introduction)  2.10. Valency and chemical bonding
  3. C hemical reactions and equations  3.1. Introduction to Chemical Reactions  3.2. Chemical Equation Formulation  3.3. Balancing Chemical Equations  3.4. Types of Chemical Reactions  3.4.1. Combination Reactions  3.4.2. Decomposition reactions  3.4.3. Displacement reactions  3.4.4. Double displacement reactions  3.4.5. Redox reactions  3.4.6. Endothermic and Exothermic Reactions  3.5. Effects of chemical reactions  3.6. Energy Changes in Chemical Reactions  3.7. Catalysts and their role in reactions
  4. Periodic table and periodicity  4.1. History of Periodic Classification  4.2. Mendeleev's periodic table  4.3. Modern Periodic Table  4.4. Periods and groups in the periodic table and periodicity  4.5. Trends in the Periodic Table  4.5.1. Atomic size  4.5.2. Ionization Energy  4.5.3. Electron affinity  4.5.4. Electronegativity  4.5.5. Metallic and Non-Metallic Properties  4.6. Noble gases and their properties
  5. Chemical bond  5.1. Introduction to Chemical Bonding  5.2. Types of chemical bonds  5.2.1. Ionic bond  5.2.2. Covalent bond  5.2.3. Metallic bond  5.2.4. Hydrogen bonding  5.2.5. Van der Waals force  5.3. Properties of Ionic and Covalent Compounds  5.4. Molecular Structure and Geometry (VSEPR Theory - Basics)
  6. Acids, Bases and Salts  6.1. Introduction to Acids and Bases  6.2. Properties of Acids  6.3. Properties of bases  6.4. pH scale and its importance  6.5. Indicators and their uses  6.6. Neutralization reactions  6.7. Strength of Acids and Bases (Strong vs. Weak)  6.8. Preparation of salts  6.9. Uses of acids, bases and salts in daily life
  7. Metals and Nonmetals  7.1. Physical Properties of Metals  7.2. Physical Properties of Nonmetals  7.3. Chemical properties of metals  7.4. Chemical Properties of Nonmetals  7.5. Reactivity Series of Metals  7.6. Extraction of metals  7.7. Corrosion and its prevention  7.8. uses of metals and nonmetals
  8. Carbon and its compounds  8.1. Introduction to Carbon  8.2. Allotropes of carbon (diamond, graphite, fullerene)  8.3. Hydrocarbons  8.3.1. Hydrocarbons  8.3.2. Alkene  8.3.3. Alkynes  8.4. Functional groups in organic chemistry  8.5. Isomerism in organic compounds  8.6. Alcohols and Carboxylic Acids  8.7. Soaps and detergents  8.8. Polymers (Introduction to Natural and Synthetic Polymers)
  9. Solutions and Mixtures  9.1. Types of mixtures  9.2. Homogeneous and Heterogeneous Mixtures  9.3. Concentration of solutions  9.4. Solubility and factors affecting solubility  9.5. Suspensions and Colloids  9.6. Saturated, unsaturated and supersaturated solutions
  10. Air and atmosphere  10.1. Composition of air  10.2. Role of gases in the atmosphere  10.4. Acid rain and its effects  10.5. Greenhouse effect and global warming  10.6. Ozone layer and its depletion  10.7. Air pollution control measures
  11. Water and its importance  11.1. Composition and properties of water  11.2. Hardness of water (temporary and permanent hardness)  11.3. Causes of water pollution  11.4. Effects of Water Pollution  11.5. Water purification methods (filtration, boiling, chlorination)
  12. Industrial Chemistry  12.1. Introduction to Industrial Chemistry  12.2. Important industrial chemicals (sulfuric acid, ammonia, sodium hydroxide)  12.3. Chemical processes in industry  12.4. Uses of Industrial Chemistry in Daily Life  12.5. Environmental impact of industrial chemical processes

Grade 9Periodic table and periodicity


Noble gases and their properties


The noble gases are a group of chemical elements that play a special role in the periodic table due to their unique properties. They are found in group 18 of the periodic table and are known for their lack of reactivity. In this detailed exploration, we will examine each of the noble gases, their properties, uses, and the reasons why they are so important in terms of chemistry.

Introduction to noble gases

The noble gases are the elements of Group 18 of the periodic table, also called the "inert gases" or "rare gases." Members of this chemical family include helium (He), neon (Ne), argon (Ar), krypton (Kr), xenon (Xe), and radon (Rn). These gases are called "noble" because they are very stable and do not easily form compounds with other elements. Let's look at where each noble gas is located on the periodic table:

,
, 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 |
,
|1 H O |
|2 L B BCNOF NE |
| 3NaMgAlSiPSClAr |
|4k ca ge as to br cr |
|5 RB SR SN SB TE I XE |
|6 CS BA AT RN |

Here, we can see that the noble gases are located in the last column of the table. Their position indicates a complete outer electron shell, due to which there is no tendency to participate in chemical reactions frequently.

Properties of noble gases

There are several characteristics that define the noble gases. Understanding these properties will allow us to see why they are classified separately from other elements.

Electronic configuration

The most defining characteristic of the noble gases is their electron configuration. Each noble gas has a full valence shell, meaning that its outermost shell of electrons is completely filled. It is noted in the table that each gas has exactly eight electrons in its outer shell, except for helium, which has two. This full configuration makes them generally unreactive because they do not try to gain, lose, or share electrons with other elements.

Helium (He): 1s 2
Neon (Ne): 1s 2 2s 2 2p 6
Argon (Ar): 1s 2 2s 2 2p 6 3s 2 3p 6
Krypton (Kr): 1s 2 2s 2 2p 6 3s 2 3p 6 4s 2 3d 10 4p 6
Xenon (Xe): 1s 2 2s 2 2p 6 3s 2 3p 6 4s 2 3d 10 4p 6 5s 2 4d 10 5p 6
Radon (Rn): 1s 2 2s 2 2p 6 3s 2 3p 6 4s 2 3d 10 4p 6 5s 2 4d 10 5p 6 6s 2 4f 14 5d 10 6p 6

Atomic and physical properties

Each noble gas exhibits distinctive atomic and physical properties:

  • Odorless and colorless: Noble gases are invisible and have no odor.
  • Low boiling and melting point: These are gases at room temperature and have very low boiling and melting points.
  • Non-flammable: They do not react with oxygen and are non-combustible, making them safe for use in a variety of applications, such as lighting and blimps.
  • Density: The density of the noble gases increases as you move down the group, from helium, which is the least dense, to radon, which is the densest.

Noble gases in everyday life

Noble gases are more prevalent in everyday life than you might think. Here are some common uses:

Helium

He

Helium is the second most abundant element in the universe. It is less dense than air, so balloons and airplanes are filled with helium, allowing them to float. Helium is also important in cryogenics, which is the study of substances at extremely low temperatures. It is used to cool superconducting magnets in MRI machines and particle accelerators.

Neon

Ne

Neon is commonly seen in flashing signs. When electric current passes through a neon gas tube, it glows with a bright red-orange light. Neon lighting is used in advertising and decoration due to its bright colors and is also used in high-voltage indicators.

Argon

Ar

Argon is used to create an inert atmosphere in welding and incandescent and fluorescent lighting. It prevents oxidation of the metal filament in the bulbs, increasing its life. Argon gas is also used in arc welding processes and in fire extinguishers for electrical fires because it does not conduct electricity.

Krypton

Kr

Krypton is used in fluorescent lamps, especially those used in high-speed photography. When used with a phosphor coating, krypton can emit a bright white light. Krypton is also used in some types of photographic flash for high-speed photography.

Xenon

Xe

Xenon is used in light projection systems, including projectors and high-intensity beam headlights in cars. It is also used in xenon arc lamps and ion propulsion systems for spacecraft.

Radon

Rn

Radon is radioactive and is used in some types of cancer treatment. However, it is usually found underground as a naturally occurring gas. It can accumulate in buildings, especially basements, and is considered a health hazard due to its radioactivity.

Why are the noble gases unique?

The noble gases are distinctive because of their full valence electron shell, inert nature, and the following reasons:

  • Lack of reactivity: This is due to the complete outer shell of electrons, which makes the noble gases chemically stable.
  • Uses in technology: Taking advantage of their non-reactive properties, they are used in sectors such as lighting, welding, aerospace, etc.
  • Environmental impact: These have limited impact on the environment as they do not form compounds easily. However, some, such as radon, require monitoring due to radioactivity.

Conclusion

The noble gases, although sometimes overlooked due to their non-reactive nature, play a fundamental role in both science and industry. Their unique properties allow them to be used in a variety of technologies and processes that benefit from their stability, non-flammability and non-reactivity. Despite their "noble" status, which means isolation or separation, they are actually crucial for understanding chemical behavior and progress in various fields of application.


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