Explained: . Nature of Oxides, Diagonal relationship.
Explained: Electronegativity, Pauling scale, Ionic character of elements, Allred equation, Metallic and nonmetallic properties, Nature of Oxides
Explained: Period & Groups - IE, Electron gain enthalpy.
Explained: Atomic size, Atomic radius, Ionic radius, Ionization energy
Explained: d block & f block
Explained: Trans Urenic elements, S block elements, Periodic table arrangements
Explained: Position of hydrogen, Position of Isotopes, Modern periodic table
Explained: Dobereiner's classification, Mendeleev's classification, 8th group, position of hydrogen
Explained: Schrodinger's wave mechanical model, Spectrum, Lyman, Balmer & Pascher lines, Numericals
Explained : Planks quantum theory, Dual nature, de Broglie wave equation, Heisenberg's uncertainty principle, Schrodinger's wave mechanical mode
Explained : Quantum Numbers & Magnetic QN.
Explained: Quantum Numbers, Magnitic QN, Spin QN
Explained: Quantum numbers, Magnetic QN
Explained: Basic concepts of orbitals & electrons, Counting of the unpaired electron, Paramagnetic elements, Diamagnetic elements
Explained: Basic concepts of orbitals & electrons, Counting of the unpaired electron, Paramagnetic elements, Diamagnetic elements.
Explained: d orbitals, f Orbitals, Electronic configuration, Hund's rule, Paulies exclusion principle.
Explained: Bohr burry electron distribution rule, Sommerfields model, Shape of Orbitals, P orbital, d orbitals
Explained: Rutherford's model, Analysis of Rutherfords model, Quantized energy level, Bohr's atomic model, Atomic radius
Explained: Subatomic particles, Atomic models, Rutherford's nuclear model of the atom, Isotope and Isobars, Isotones, Isostere.