Inorganic Chemistry Bsc 3rd Year Syllabus 2024

You will get the inorganic chemistry bsc 3rd year syllabus 2024 in this post for the exam. 

This syllabus is not being given by targeting any one university. 

This will be a common syllabus of 3rd year inorganic chemistry through which you students will

know which chapter you have to read to prepare for your exam. 

Match this syllabus with your university's inorganic chemistry syllabus. 

You can also study based on the 3rd year inorganic chemistry syllabus for your exam preparation. 

The topics in this syllabus are shown in sequence so that you can know which points to focus on in that topic. 

The subjects of Inorganic Chemistry are tough, but if you study them with interest, they will become easy for you. 

Instruction Given For Bsc 3rd Year Inorganic Chemistry Syllabus - (Not Mandatory) - Five questions will have to be answered selecting at least one question and not more than two from each of the three groups.

Four questions will be set for each group. 

Follow the given steps in the syllabus and complete your study in a stipulated time. 

You have to also focus on the revision. 

As you know BSC 3rd year inorganic chemistry is the main subject. 

Its study is a bit difficult if you do not understand the subject from a basic level.

For accurate study of this subject, the BSC 3rd year syllabus is keeping you updated, here are the topics that should be there in the BSC 3rd year inorganic chemistry syllabus.

This will give you the right guidance to prepare for the exam.

Let's start.

Inorganic Chemistry Syllabus
Inorganic Chemistry Bsc 3rd Year Syllabus

Inorganic Chemistry Syllabus

Inorganic Chemistry Bsc 3rd Year Syllabus



  • Atomic Structure: Idea of de Broglie waves, Schrodinger equation, and its derivation. Significance of wave function, normal and orthogonal wave functions.Probability density pattern for H-atom (qualitative idea only and no derivation reqd.), radial and angular wave functions, a sign of wave functions.
  • Bonding Models in Inorganic Chemistry: (a) Molecular orbital method (qualitative treatment only). LCAO combinations of s-s, s-p, p-p, p-d orbitals rules of L.C.A.O. bonding, antibonding and non-bonding orbital, simple MO diagrams of homonuclear diatomic molecules, calculation of bond order. (b) Factors affecting radii of ions, the radius of polyatomic ions, the efficiency of packing, radius ratio, Idea of structures ionic compounds of AX (ZnS, NaCl, CsCl) and AX2 (CaF3, TiO2, SiO2) types the idea of delocalization of electrons, the structure of CO3(2-), NO3-, SO3, CO2, and O3 molecules.
  • (a) Co-ordination Chemistry: C.F.T, C.F.S.E. calculations, effects of C.F. splitting, chelates. (b) Metallic Bonding: M.O. method of explanation of bonding in metals, the outline of the structure of interstitial alloys and substitutional alloys. superconductivity and its applications.
  • Nuclear Chemistry: Ground state properties of the nucleus- constituents of the nucleus, nuclear properties binding energy per nucleon and stability of the nucleus, α and β emissions and their properties, the concept of the potential barrier, radioactive decay law, partial decay constant, half-life and mean life periods. Features of 4n, 4n + 2, 4n + 3, and 4n +1 radioactive series, nuclear fusion and stellar energy, the idea of the theory of the origin of elements, and nucleosynthesis of lighter elements.


  • Complex formation in d-block elements.
  • General chemistry of the following elements with reference to their periodic position, important compounds, their structures, and uses: (a ) Nitrogen, phosphorus, arsenic, antimony, and bismuth. (b) Oxygen, sulfur, selenium, and tellurium.
  • Comparative chemistry of the following transition metals with reference to their P.T. Position, oxidation states, complex formation, and formation of organometallic compounds: (a) Chromium, molybdenum, and tungsten. (b) Manganese, (c) Platinum metals.
  • General Chemistry of f-block elements: Electronic configuration and periodic position of lanthanides and actinides, lanthanide contraction and consequences, magnetic properties of lanthanide s.

Inorganic Chemistry Bsc 3rd Year Syllabus
Syllabus Of Inorganic Chemistry Topic


  • Organometallic Chemistry: Definitions, the idea of nomenclature of a simple organometallic compound, E.A.N. rule, ionic and electron-deficient compounds, metal alkyls of group 1, 2, and 13 elements. Elementary idea of carbonyls, nitrosyls, and ferrocenes.
  • Inorganic Chemistry in Biological Systems: Elementary idea of the role of the following metals in biological systems: Na, K, Mg, Ca, Fe and Co.
  • Spectroscopy: Elementary idea of principles and simple applications of the following: (a) Raman spectroscopy and (b) Mossbauer spectroscopy.
  • Inorganic Chains, Rings, Cages, and Clusters: Elementary idea of the terms involved with examples, the idea of catenation and intercalation chemistry and hetero polyanions, borazines, boranes, and metal-metal bonding.


Question - What is the topic of BSc chemistry 3rd year?

Answer - These are the topic of Chemistry third year - Atomic Structure, Bonding Models, Co-ordination Chemistry, Metallic Bonding, Nuclear Chemistry, d-block elements, f-block elements, Organometallic Chemistry, Inorganic Chemistry in Biological Systems, Spectroscopy, Inorganic Chains, Rings, Cages and Clusters.

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