Hello,Welcome to StudentBro.
Hello,Welcome to StudentBro.
Hello,Welcome to StudentBro.
Elements are classified based on the block of the periodic table they occupy, determined by the type of atomic orbital being filled.
s-Block: Groups 1 (Alkali Metals) & 2 (Alkaline Earth Metals), outermost electrons in s-orbital.
p-Block: Groups 13–18, outermost electrons in p-orbital.
NEET emphasizes conceptual trends, reactivity, and periodic properties rather than memorization.
Key Concept: The chemical behavior of an element is mainly determined by its valence electrons.
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1. Chemical Arithmetic |
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2. Structure of Atom |
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3. Chemical Bonding and Molecular Structure |
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4. Solutions |
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5. The Solid State |
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6. Gaseous State |
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7. Nuclear Chemisty |
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8. Chemical Equilibrium |
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9. Ionic Equilibrium |
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10. Thermodynamics |
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11. Chemical Kinetics |
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12. Electrochemistry |
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14. Surface Chemistry |
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15. Chemical Periodicity |
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16. General Principles Of Extraction Of Metals |
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17. Hydrogen |
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18. s and p-Block Elements |
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19. The d-and f-Block Elements |
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20. Co-Ordination Chemistry |
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21. Chemical Analysis |
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22. Purification, Classification & Nomenclature Of Organic Compounds |
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23. Organic Chemistry – Some Basic Principles & Techniques |
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24. Hydrocarbons |
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25. Halogen Containing Compounds |
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26. Alcohols, Phenols and Ethers |
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27. Aldehydes And Ketones |
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28. Carboxylic Acids & Their Derivatives |
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29. Nitrogen Containing Compounds |
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30. Polymers |
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31. Biomolecules |
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32. Chemistry In Action |
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33. Chemistry Formula PDF for Entrance Exam |
Properties:
Soft, low density, metallic luster
Highly reactive, especially with water → form hydroxides and hydrogen
Good reducing agents
Trends:
Reactivity increases down the group
Atomic radius increases; ionization energy decreases
Form ionic compounds
Conceptual Focus: Understand reactivity with water, halogens, and oxygen, and how reactivity relates to low ionization energy.
Properties:
Harder than alkali metals
Less reactive than alkali metals
Form oxides and hydroxides; basic in nature
Trends:
Reactivity increases down the group
Atomic radius increases; ionization energy decreases
Oxides and hydroxides become more basic down the group
NEET Tip: Focus on solubility and basicity trends, important for application-based questions.
Properties:
Tri-valent elements
Boron: metalloid; others: metals
Form covalent compounds with non-metals
Trends:
Metallic character increases down the group
Oxides become more basic down the group
Reactivity: Al is highly reactive due to oxide layer
NEET Focus: Link valency, reactivity, and metallic character conceptually.
Properties:
Tetravalent
C and Si: non-metals; Sn and Pb: metals
Form oxides and hydrides (CH₄, SiH₄)
Trends:
Metallic character increases down the group
Oxides: C and Si form acidic oxides; Sn and Pb form amphoteric oxides
Conceptual Focus: Understand catenation (C > Si > Ge) and bonding trends in group 14.
Properties:
Pentavalent, but show +3 and +5 oxidation states
N and P: non-metals; As and Sb: metalloids; Bi: metal
Nitrogen forms strong triple bond (N₂) → less reactive
Trends:
Metallic character increases down the group
Oxidation states: +5 dominates for light elements; +3 for heavier elements due to inert pair effect
NEET Tip: Conceptually relate oxidation states to stability and inert pair effect.
Properties:
Chalcogens
Form acidic oxides (O₂, S) and amphoteric oxides (Te, Po)
Usually show -2 oxidation state
Trends:
Metallic character increases down the group
Electronegativity decreases down the group
Conceptual Focus: Link oxidation states and acid-base character.
Properties:
Halogens; highly reactive non-metals
Form diatomic molecules (F₂, Cl₂)
React with metals to form halides
Trends:
Reactivity decreases down the group
Electronegativity decreases
Oxidizing power decreases
NEET Tip: Focus on reactivity with metals, halide formation, and oxidizing trends.
Properties:
Noble gases; inert due to stable electronic configuration
Monatomic gases
Very low chemical reactivity
Trends:
Density increases down the group
Melting and boiling points increase
Conceptual Focus: Conceptual understanding of why noble gases are chemically inert and their industrial uses.
| Block | Group | Key Properties | NEET Focus |
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| s-Block | 1,2 | Soft metals, reactive, form hydroxides | Reactivity trends, reducing agents |
| p-Block | 13–18 | Valency varies, metallic/non-metallic character, oxidation states | Oxides, hydrides, periodic trends, reactivity |
| Group 13 | B-Al-Tl | Tri-valent, metallic character ↑ down | Oxide basicity, reactivity of Al |
| Group 14 | C-Pb | Tetravalent, catenation, oxides vary | Bonding trends, amphoteric behavior |
| Group 15 | N-Bi | Pentavalent, oxidation states +3/+5 | Inert pair effect, metallic character |
| Group 16 | O-Po | Chalcogens, acidic/amphoteric oxides | Acid-base trends, electronegativity |
| Group 17 | F-At | Halogens, diatomic, highly reactive | Oxidizing power, halide formation |
| Group 18 | He-Rn | Noble gases, inert, monatomic | Chemical inertness, industrial uses |
The s-Block and p-Block Elements chapter is critical for NEET Chemistry, covering periodic trends, reactivity, metallic/non-metallic character, oxidation states, and properties. Conceptual understanding is crucial:
s-Block → highly reactive metals, reducing agents
p-Block → diverse properties, varying oxidation states, acidic/basic oxides
Group-wise trends help in predicting chemical behavior and reactivity.
StudentBro.in provides structured, fully conceptual notes to help NEET aspirants understand and remember trends efficiently, with H4 bold headings for readability and SEO.
