Chemistry Jamb Syllabus For 2022

This composition is about Jamb’s rearmost syllabus for Chemistry. Originally, what’s Syllabus? This syllabus is a document that outlines everything that will be covered in an examination or class and this Jamb Syllabus is a list of outlined motifs that Students are needed to read to get set for the Unified Tertiary Matriculation Examination.

JAMB Chemistry Syllabus If you’re getting prepared for the Unified Tertiary Matriculation Examination conducted by the Joint Admission Matriculation Board also you have nothing to fear . This information will give all the necessary attendants that will help the students to come out in flying colors banning expositions.

And still, you need the Jamb Chemistry outlined content that needs to be read for the preparation of the Jamb Examination, also I guess this composition is for you…

If you’re sharing in the forthcoming UTME (Unified Tertiary Matriculation Examination).

Steps to take ahead carrying the 2022/2023 Jamb Form;

  • You should choose a course
  • You Should enquire about the  course
  • You should hunt for the O’level demand for the course
  • Also Incipiently, Check the Jamb Subject combination of the course. If Chemistry is among the subject combinations of the course you wish to study also you’re good to go.

Jamb Chemistry Syllabus 2022/2023 General Objective

The end of the Unified Tertiary Matriculation Examination (UTME) syllabus in Chemistry is to prepare the candidates for the Board’s examination. And that’s designed to test their achievement of the course objects, which are to:

  • Apply the introductory principles governing scientific styles in new situations;
  •  Interpret scientific data;
  • Conclude the connections between chemistry and other sciences;
  • Apply the knowledge of chemistry to assiduity and everyday life.

The Jamb Syllabus for Chemistry (2022/2023)

1. Separation of Fusions and Sanctification of Chemical Substance:

  •  (a) Pure and impure substances
  •  (b) Boiling and melting points.
  •  (c) Rudiments, composites, and fusions
  •  (d) Chemical and physical changes.
  •  (e) The ”’Separation processes evaporation, simple and fractional distillation, sublimation, filtration, crystallization, paper and column chromatography, simple and fractional crystallization”’.

2. The Chemical Combination

The ”’Stoichiometry, laws of definite and multiple proportions, the law of conservation of matter, Gay Lussac’s law of combining volumes, Avogadro’s law; chemical symbols, formulae, equations and their uses, relative infinitesimal mass grounded on 12C = 12, the operative conception, and Avogadro’s number”’.

3. Kinetic Proposition of Matter & Gas Law

  • (a) A ”’figure of the kinetic proposition of matter, melting, vaporization and rear processes; melting and boiling explained in terms of molecular stir and Brownian movement”’.
  • (b) The ”’laws of Boyle, Charles, Graham and Dalton ( law of partial pressure); concerted gas law, molar volume and atomicity of feasts”’.

4. The Atomic Structure & Bonding

  • (a) (i) The ”’conception of titles, motes and ions, the workshop of Dalton, Millikan, Rutherford, Mosely, Thompson and Bohr. Simple hydrogen diapason, Ionization of feasts illustrating the electron as an abecedarian flyspeck of matter”’.
  •  (ii) An ”’Infinitesimal structure, electron configuration, infinitesimal number, mass number and isotopes; specific examples should be drawn from rudiments of infinitesimal number 1 to 20. Shapes of s and p orbitals”’.
  • (b) The ”’periodic table and periodicity of  rudiments, donation of the periodic table with a view to fitting families of rudiments.g. alkali essence, halogens, the noble feasts, and transition essence. The variation of the following parcels should be noticed: ionization energy, ionic diameters, electron affinity, and electronegativity”’.
  • (c) The ”’Chemical relating Electrovalency and covalency, the electron configuration of rudiments, and their tendency to attain the noble gas structure. Hydrogen cling and metallic cling as special types of electrovalency and covalency independently; coordinate bond as a type of covalent bond as illustrated by complexes like (Fe (CN) 6) 3-, (Fe (CN) 6) 4-, (Cu (NH3) 4) 2 and (Ag (NH3) 2); van der Waals’ forces should be mentioned as a special type of relating forces”’.
  • (d) The ”’Shapes of simple motes direct ( (H2, 02, C12, HCI and CO2),non-linear (H2O) and  tetrahedral; (CH4)”’.
  • (e) The ”’Nuclear Chemistry””
  • (i) The ”’Radioactivity ( abecedarian treatment only)”’.
  • (ii)The ”’Nuclear responses. Simple equations, uses and operations of natural and artificial radioactivity”’.

5. The Air

The usual gassy ingredients – ”’nitrogen, oxygen, water vapor, carbon (IV) oxide and the noble feasts (argon and neon), the proportion of oxygen in the air”’ e.g. by burning phosphorus or by using ”alkaline pyrogallol, air as a admixture, and some uses of the noble gas”.

6. The Water

This ”’Composition by volume Water as a detergent, atmospheric feasts dissolved in water, and their natural significance”’. And this water is a product of the combustion of hydrogen.

The hard and soft water Temporary and endless hardness and styles of softening hard water. And Sanctification of city water inventories with the water of crystallization, efflorescence, deliquescence, and hygroscopy. The exemplifications of the substances flaunting these parcels and their uses.

7. The Solubility

  • (a) The “unsaturated, impregnated and supersaturated results. Solubility angles and simple deductions from them, (solubility defined in terms of operative per dm3) and simple computations”.
  • (b) The “Detergents for fats, canvas, and maquillages and the use of similar detergents for the junking of stains”.

Download the Complete Chemistry Jamb Syllabus HERE


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