Unit (5): Heredity Chapter: Environmental effects on phenotype Reference: Environmental factors, Siamese cats, Presence of drugs, Temperature Learning objectives To understand the effect of environment on phenotype of organisms by examples Environmental factors Environmental factors such as diet, temperature, oxygen levels, humidity, light cycles, and the presence of mutagens can all impact which of an […]
Unit (5): Heredity Chapter: Non-mendelian genetics Reference: Non-Mendelian genetics, Types of non-mendelian inheritance, Codominance, Incomplete dominance, Multiple alleles, A polygenic trait, Polygenic inheritance, Lethal or lethal genes, Extracellular inheritance Learning objectives To understand about the types of non-mendelian inheritance To learn about polygenic inheritance, lethal genes, and extracellular inheritance Non-Mendelian genetics Non-mendelian genetics involves the […]
Unit (5): Heredity Chapter: Mendelian genetics Reference: Mendel’s law of inheritance, monohybrid cross, dihybrid cross Learning objectives To learn about Mendel’s law of inheritance MENDEL’S LAWS OF INHERITANCE Gregor Mendel, conducted hybridisation experiments on garden peas for seven years (1856-1863) and proposed the laws of inheritance in living organisms. Mendelism: the study of Mendel’s […]
Unit: Heredity Chapter: Meiosis, Meiosis, and genetic diversity Reference: Meiosis, Meiosis-I, Meiosis II (Homotypic division) Significance of meiosis Learning objectives To learn different stages in meiosis To understand how meiosis helps in genetic diversity Meiosis -it is a special type of indirect cell division which occurs only in the diploid cells to form the haploid […]
Reference: AP Course Bio Unit 1, Chemistry of Life, Structure of water, Hydrogen bonding, Atomic structure, Vander-Waals interaction, Polarity of water, Water properties, Cohesion and adhesion of water molecules. Learning objectives To study previous knowledge of chemistry To understand the structure of water and bonding in it CHEMISTRY OF LIFE ATOM-The smallest unit of […]
Unit: Electromagnetism Chapter: Inductance and Maxwell's Equations Reference: AP Physics Electricity and Magnetism, Electromagnetism, Inductance and Maxwell's, Equations, Self-Induction and Self-Inductance, Mutual Induction and Mutual Inductance, Different Types of Generators, LR Circuits, Maxwell's equations in their mathematical form After studying this chapter, you should be able to, state the Magnetic flux, Faraday’s law and Lenz’s […]
Unit: Electromagnetism Chapter: Electromagnetic Induction Reference: AP Physics Electricity and Magnetism, Magnetic Flux, Faraday’s Law, Lenz’s Law, Induced EMF and Induced Current, Induced EMF due to Rotation of a Conducting Rod in a Uniform Magnetic Field, Induced EMF due to Rotation of a Metallic Disc in a Uniform Magnetic Field, Induced EMF, Current and […]
Unit: Magnetic Fields Chapter: Magnetic Systems, Field and Forces Reference: AP Physics Electricity and Magnetism, Magnetic Fields, Magnetic Systems, Field and Forces, Magnetic Field Laws and their Applications, Applications of Biot-Savart’s Law, Applications of Ampere’s Law, Lorentz Force and Cyclotron, Force on a current-carrying conductor in a uniform magnetic field, The force between two parallel […]
Unit: Electric Circuits Chapter: Gauss’s Law Reference: AP Physics Electricity and Magnetism, Electric Circuits, Gauss’s Law, Gauss's Law and its Application After studying this chapter, you should be able to, Understand the concept of Gauss’s Law Gauss's Law and its Application • The flux of the electric field through any closed surface S is times […]
Unit: Electric Circuits Chapter: Steady-state direct-current circuits with batteries and resistors only Reference: AP Physics Electricity and Magnetism, Electric Circuits, Steady-state direct-current circuits with batteries and resistors only, Resistors in Series, Resistors in Parallel After studying this chapter, you should be able to, Know the concept of resistor in series and parallel obtain equivalent resistance […]