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Tuesday, 22 August 2017
Chemistry Notes For Class 11
Chemistry Notes For Class 12
Class 11 Chemistry Topics :-
Chapter 1: SOME BASIC CONCEPTS OF CHEMISTRY :
• understand and appreciate the role of chemistry in different spheres of life
• explain the characteristics of three states of matter
• classify different substances into elements, compounds and mixtures
• define SI base units and list some commonly used prefixes
• use scientific notations and perform simple mathematical operations on numbers
• differentiate between precision and accuracy
• determine significant figures • convert physical quantities from one system of units to another
• explain various laws of chemical combination
• appreciate significance of atomic mass, average atomic mass, molecular mass and formula mass
• describe the terms – mole and molar mass
• calculate the mass per cent of different elements constituting a compound
• determine empirical formula and molecular formula for a compound from the given experimental data
• perform the stoichiometric calculations.
Chapter 2 STRUCTURE OF ATOM :
know about the discovery of electron, proton and neutron and their characteristics
• describe Thomson, Rutherford and Bohr atomic models
• understand the important features of the quantum mechanical model of atom
• understand nature of electromagnetic radiation and Planck’s quantum theory
• explain the photoelectric effect and describe features of atomic spectra
• state the de Broglie relation and Heisenberg uncertainty principle
• define an atomic orbital in terms of quantum numbers
• state aufbau principle, Pauli exclusion principle and Hund’s rule of maximum multiplicity
• write the electronic configurations of atoms.
Chapter 3 :CLASSIFICATION OF ELEMENTS AND PERIODICITY IN PROPERTIES :
• appreciate how the concept of grouping elements in accordance to their properties led to the development of Periodic Table.
• understand the Periodic Law; • understand the significance of atomic number and electronic
configuration as the basis for periodic classification
• name the elements with Z >100 according to IUPAC nomenclature
• classify elements into s, p, d, f blocks and learn their main characteristics;
• recognise the periodic trends in physical and chemical properties of elements;
• compare the reactivity of elements and correlate it with their occurrence in nature;
• explain the relationship between ionization enthalpy and metallic character;
• use scientific vocabulary appropriately to communicate ideas related to certain important properties of atoms e.g., atomic/ionic radii, ionization enthalpy, electron gain enthalpy, electronegativity, valence of elements.
Chapter 4 : CHEMICAL BONDING AND MOLECULAR STRUCTURE :
understand KÖssel-Lewis approach to chemical bonding
• explain the octet rule and its limitations, draw Lewis structures of simple molecules
• explain the formation of different types of bonds
• describe the VSEPR theory and predict the geometry of simple molecules
• explain the valence bond approach for the formation of covalent bonds
• predict the directional properties of covalent bonds
• explain the different types of hybridisation involving s, p and d orbitals and draw shapes of
simple covalent molecules
• describe the molecular orbital theory of homonuclear diatomic molecules
• explain the concept of hydrogen bond.
Chemistry Notes For Class 12
Class 11 Chemistry Topics :-
Chapter 1: SOME BASIC CONCEPTS OF CHEMISTRY :
• understand and appreciate the role of chemistry in different spheres of life
• explain the characteristics of three states of matter
• classify different substances into elements, compounds and mixtures
• define SI base units and list some commonly used prefixes
• use scientific notations and perform simple mathematical operations on numbers
• differentiate between precision and accuracy
• determine significant figures • convert physical quantities from one system of units to another
• explain various laws of chemical combination
• appreciate significance of atomic mass, average atomic mass, molecular mass and formula mass
• describe the terms – mole and molar mass
• calculate the mass per cent of different elements constituting a compound
• determine empirical formula and molecular formula for a compound from the given experimental data
• perform the stoichiometric calculations.
Chapter 2 STRUCTURE OF ATOM :
know about the discovery of electron, proton and neutron and their characteristics
• describe Thomson, Rutherford and Bohr atomic models
• understand the important features of the quantum mechanical model of atom
• understand nature of electromagnetic radiation and Planck’s quantum theory
• explain the photoelectric effect and describe features of atomic spectra
• state the de Broglie relation and Heisenberg uncertainty principle
• define an atomic orbital in terms of quantum numbers
• state aufbau principle, Pauli exclusion principle and Hund’s rule of maximum multiplicity
• write the electronic configurations of atoms.
Chapter 3 :CLASSIFICATION OF ELEMENTS AND PERIODICITY IN PROPERTIES :
• appreciate how the concept of grouping elements in accordance to their properties led to the development of Periodic Table.
• understand the Periodic Law; • understand the significance of atomic number and electronic
configuration as the basis for periodic classification
• name the elements with Z >100 according to IUPAC nomenclature
• classify elements into s, p, d, f blocks and learn their main characteristics;
• recognise the periodic trends in physical and chemical properties of elements;
• compare the reactivity of elements and correlate it with their occurrence in nature;
• explain the relationship between ionization enthalpy and metallic character;
• use scientific vocabulary appropriately to communicate ideas related to certain important properties of atoms e.g., atomic/ionic radii, ionization enthalpy, electron gain enthalpy, electronegativity, valence of elements.
Chapter 4 : CHEMICAL BONDING AND MOLECULAR STRUCTURE :
understand KÖssel-Lewis approach to chemical bonding
• explain the octet rule and its limitations, draw Lewis structures of simple molecules
• explain the formation of different types of bonds
• describe the VSEPR theory and predict the geometry of simple molecules
• explain the valence bond approach for the formation of covalent bonds
• predict the directional properties of covalent bonds
• explain the different types of hybridisation involving s, p and d orbitals and draw shapes of
simple covalent molecules
• describe the molecular orbital theory of homonuclear diatomic molecules
• explain the concept of hydrogen bond.
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