The basic ideas of microeconomics and macroeconomics in developing economy. Theory of firms, theory of production, consumption, costs, pricing and distribution of income, markets and their equilibrium. Comparative economy system, input-output, analyzing. Allocation of resources. Employment, Inflation, economic indicators of development, market economy. Theory of demand and supply.
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Direct current circuits: Laws and theorems. DC network analysis. Alternating current circuits: AC quantities and waveform. Phasors, AC circuit analysis with series and parallel branches of RL, RC and RLC. Balanced three-phase system. Electronics: Principle of semiconductors, P-N junction. Diode and rectifiers, Transistor and its biasing technique. Concept of FET, MOSFET, CMOS etc. Introduction to Silicon Controlled Rectifiers (SCR) and its applications. Introduction to operational amplifier and its applications.
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Introduction, Instruments and their uses. 2D Drawing: First and third angle projections; Orthographic drawings; 3D Drawing: Isometric views, Missing lines, and views; Sectional views and conventional practices; Auxiliary views
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Practical experiments based on Chem1123.
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Practical experiments based on Phy1123.
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Atomic structure, periodic table. Properties and uses of noble gases. Different types of chemical bonds and their properties. Different types of solutions and their compositions. Properties of dilute solutions. Thermochemistry, chemical kinetics, chemical equilibrium. Electrolytic conductance, Emf, Electrochemical cells.
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Structure of Matter: States of Matter, Solid, liquid and gas; Classification of solids; amorphous and crystalline ceramics and polymers. Atomic arrangements in solids, different types of bonds in solids; metallic, Vander Walls, Covalent and ionic bond; Packing in solid; Inter atomic distances and forces of equilibrium, x-ray diffraction, Bragg's law, Plasticity and electricity. Distinction among metal, insulator and semiconductor. Electricity and Magnetism: Electric charge, Coulomb's law, The electric field: calculation of electric flux and Gauss's law, some applications of Gauss's law, electric potential V, relation between E and V, electric potential energy, Capacitors; capacitance, dielectrics and atomic view, dielectrics and Gauss's law; current and resistance; current and current density, Ohm's law, resistivity an atomic view, Ampere's law. Faraday's law, Lenz's law, self-inductance and mutual inductance. Magnetic properties of matter; magnetomotive force, magnetic field intensity, permeability, susceptibility, classifications of magnetic materials, magnetization curves. Atomic Physics: Bohr atom model, Photo-electric effect, Compton Effect, De Broglie waves. Nuclear Physics: Nuclear force and nuclear binding Energy, isotopes, Radioactive Decay, Half Life, Mean Life, Alpha, Beta and Gamma decay.
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Differential calculus: Limit, Continuity, differentiation and successive differentiation on various types of functions, Leibnitz’s theorem, Expansion of functions; Rolle’s theorem, Mean value theorem, Taylor's theorem, Partial differentiation, Determination of maximum and minimum values of functions point of inflection and its applications. Indeterminate form; L. Hospital rule, Curvature, curve tracing. Integral calculus: Review of elementary technique (Integration by the method of substitution, Integration by parts, Successive reduction, and standard integrals), Improper integrals; Beta Gamma and error function, deferential inside integral, Applications: Area length of curves, volume. Deferential Equations: Basic concept and ideas of differential equation, Solution of first order differential equations by various methods, Solution of general linear equations of second and higher order with constant coefficients, Solutions in series by Frobenious method, Bessel function, Legendre polynomials and their properties.
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