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Manav Bharti University BTECH Syllabus
Hey I am student of the Manav Bharti University and I require the Syllabus of BTECH Biotechnology will you please provide me ??

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#2




Re: Manav Bharti University BTECH Syllabus
Ok you are demanding for the Syllabus of BTECH Biotechnology of Manav Bharti University as under:
BTECH Biotechnology 1st Semester Theory Papers BT101 Foundation course in PhysicoInorganic Chemistry – I BT102 Foundation course in Physics I BT103 Life Sciences –I BT104 Mathematics – I BT105 Concepts in Biotechnology BT106 Introduction to Computers Practicals : BT107 Chemistry  I Lab BT108 Physics – I Lab BT109 Life Sciences –I Lab BT110 Biotechnology Lab BT 111 Computer Lab 2nd SEMESTER Theory Papers BT112 Foundation course in PhysicoInorganic Chemistry –II BT113 Foundation course in PhysicsII BT114 Life Sciences –II BT115 Mathematics II BT116 Laboratory Techniques in Biotechnology BT 117 Electrical Science Practicals : BT118 Physics  II Lab BT119 Chemistry – II Lab BT120 Life Sciences  II Lab BT121 Laboratory Techniques of Biotechnology in Lab BT 122 Electrical ScienceLab BTECH Biotechnology syllabus IST SEMESTER BT1O1 FOUNDATION COURSE IN PHYSICO INORGANIC CHEMISTRY  I 1. Chemical Bonding: Ionic bond ; energy changes, lattice energy Born Haber Cycle, Covalent bondenergy changes, Potential energy curve for H2 Molecule, characteristics of covalent compound, coordinate bond  Werner's Theory, effective atomic numbers, isomerism in coordinate compounds. Hydrogen bonding, Vander Waal's forces, hybridisation and resonance, Valance Shell Electron Repulsion theory (VSEPR). Discussion of structures of H2O, NH3, SiF4. Molecular orbital theory, Linear combination of atomic orbitals (LCAO) method. Structure of simple homo nuclear diatomic molecule like H2, N2, O2, F2. 2. Thermochemistry: Hess's Law, heat of a reaction, effect of temperature on heat of reaction, at constant pressure (Kirchoff's Equation) heat of dilution, heat of hydration, heat of neutralization and heat of combustion, Flame temperature. 3. Reaction Kinetics: Significance of rate law and rate equations, order and molecularity, Determinations of order of simple reactionsexperimental method, Equilibrium constant and reaction ratesLindemann, collision and activated complex theories, complex reactions of Ist order characterstics of consecutive, reversible and parallel reactions Steady state and nonsteady state approach. 4. Catalysis: Criteria for Catalysis  Homogeneous Catalysis, acidbase, Enzymatic catalysis, Catalysis by metal salts, Heterogeneous catalysis  concepts of promoters, inhibitors and poisoning, Physiosorption, Chemisorption, Surface area, Industrially important process. Theories of Catalysis. 5. Polymers: Basic concepts & Terminology, such as monomers, Polymers, Functionality, Thermoplastics, Thermosets Linear, Branched, cross linked polymers etc. different definitions of molecular weight viz., Mw, Mn, Mv and then determinations, Industrial applications of polymers, Addition, condensation and Ionic polymerization's, solutions of polymers, good solvents, & bad solvent, solubility parameter, solutions viscosity and determination of intrinsic viscosity. 6. Colloids: Collidal state, classification of colloidal solution, true solution, colloidal solution and suspensions, preparation of sol, Purification of colloidal solutions, General properites and optical properites, stability of colloids, coagulation of lyphobic sols, electrical properties of sols, kinetic properties of colloids: Brownion movement, size of colloidal particle, emulsions, gels, colloidal electrolytes and applications of colloids. Text / Reference Books 1. Inorganic Chemistry by J.D. Lee. 2. Physical Chemistry by Lewis. BT102 FOUNDATION COURSE IN PHYSICS  I 1. Optics. Interference: Coherence and coherent sources, Interference by division of wavefront (Young's double slit experiment, Fresnels' biprism), Interference by division of amplitude (Thin films, Newton's rings,Michelson's Interferrometer,Fabry Perot Interferrometer 2. Diffraction: Fresnel and Fraunhoffer types of diffraction, Fraunhofer diffraction: Single slit, double slit, circular aperture and Nslit. Diffraction grating  wavelength determination, resolving power and dispersive power. Resolving power of optical instruments – Rayleigh criterion. Fresnel Diffraction: zone plate, circular aperture, opaque circular disc, narrow slit. 3. Polarization: Types of polarization, elliptically and circularly polarized light Brewster's law, Malu's law, Nicol prism, double refraction, quarterwave and halfwave plates, optical activity, specific rotation, Laurent halfshade polarimeter. 4. Lasers: Introduction, Coherence, Einstein A and B coefficients, population inversion, Basic principle and operation of a laser, Types of lasers, HeNe laser, Ruby laser, semiconductor laser, holography  theory and applications 5. Introduction to Optical fibre: Types of optical fibres and their characteristics, (Attenuation and Dispersion) step index and graded index fibres, principle of fibre optic communicationtotal internal reflection, Numerical aperture, Fibre optical communication network its advantages. Fibre optic sensors (qualitative) 6. Nature of light and matter: Particle nature of radiation The Photoelectric effect, Compton effect. Xrays (continuous and characteristic), xray diffraction Bragg's law. The origin of quantum theory Planck's hypothesis, the wave nature of matter waveparticle duality, matter waves (de Broglie hypothesis). Basic postulates of quantum mechanics  the wave function  its physical interpretation, the Schrodinger equation. 7. The electromagnetic spectrum: Sources of light, emission and absorption spectra, Brief introduction to spectroscopy (optical, magnetic resonance). Text / Reference Books 1. Modern Physics by A. Beiser. 2. Optics by A.K. Ghetak. 3. Modern Physics by Hallday & Resvik. 4. Introduction to Physical Optics by Jenkin & White. BT1O3 LIFE SCIENCES  I 1. Origin of Life : History of earth, theories of origin of life nature of the earliest organism. 2. Varieties of life : Classification, Five kingdoms, viruses (TMV, HIV, Bacteriophage), Prokaryote (Bacteriacell structure, nutrition, reproduction), Protista, Fungi, Plantae and Animalia. 3. Chemicals of life : (Biomolecules) Carbohydrates lipids, amino acids, proteins, nucleic acids, identification of biomolecules in tissues. 4. Cell : The cell concept, structure of prokaryotic and eukaryotic cells, plant cells and animal cells, cell membrances, cell organelles and their function. Structure and use of compound microscope. 5. Plant and Tissue Culture : Isolation of protoplast, purification, culture, regeneration of plants; protoplast fussion and somatic hybridization; cytoplasmic hybrids (cybrids). 6. Nutrition: Autotrophic (Photosynthesis) Pigment systems, Chloroplast, light absorption by chlorophyll and transfer of energy, two pigment systems, photosynthetic unit, phosphorylation and electron transport system, CalvinBenson Cycle (C3), Hatch Slack Pathway (C4), Crassulacan Acid Metabolism (CAM), factors affecting photosynthesis; Mineral Nutrition in plants. Heterotrophic  Forms of heterotrophic nutrition, elementary canal in humans, nervous and hormonal control of digestive systems, fate of absorbed food materials; Nutrition in humans, Reference values. 7. Energy Utilization: (Respiration)  Structure of mitochondria, cellular respiration, relationship of carbohydrate metabolism to other compounds, Glycolysis, fermentation, formation of acetyl coA, Kreb cycle, Electron Transport System and Oxidative Phosphorylation, ATP, factors affecting respiration. 8. Transport: Plant water relationships, properties of water, diffusion, osmosis, imbibition, movement of water in flowering plants, uptake of water by roots, the ascent of water in xylem, apoplast symplast theory, Transpirationstructure of leaf and stomata in plants opening and closing mechanisim of stomata factors affecting transpiration, significance of transpiration General characteristics of blood vascular system, development of blood systems in animals, Composition of blood, circulation in blood vessels, formation of tissue fluids, the heart, functions of mammalian blood, the immune system. BT104 MATHEMATICS  I 1. Differentiation: Successive Differentiation, Leibnitz’s theorem (without proof). Lagrange’s Theorem, Cauchy mean value theorem, Taylor’s theorem (without proof), Remainder Term, Asymptotes, Curvature, Curve Tracing 2. Infinite Series : Convergence, divergence, Comparison test, Ratio test, Cauchy’s nth root test test, Leibnitz’s test (without proof), Absolute and Conditional Convergence. Taylor and Meclaurin series, Power series, Radius of convergence 3. Integral Calculus : Reduction Formulae of trignometric functions, Properties of definite Integral, Applications to length, area, volume, surface of revolution, Definition of improper integrals, BetaGamma functions. 4. Calculus of Functions of Several Variables : Partial derivatives, Chain rule, Differentiation of Implicit functions, Exact differentials. Maxima, Minima and Saddle points. Method of Lagrange multipliers. Differentiation under integral sign. Jacobians and transformations of coordinates. Double and Triple integrals, Simple applications to areas, volumes etc 5. Vector Calculus : Scalar and vector fields. Curves, Arc length, Tangent, normal, Directional Derivative, Gradient of scalar field, divergence and curl of a vector field. Line integrals (independent of path), Green’s theorem, Divergence theorem and Stoke’s theorem (without proofs), Surface Integrals. Text / Reference Books 1. G.B. Thomas and R.L. Finney, “Calculus and Analytic Geometry”, 6th edition, Addision Wesley/Narosa, 1985. 2. Shanti Narayan, “Differential Calculus”, S. Chand & Co. 3. Shanti Narayan, “Integral Calculus”, S.Chand & Co. 4. Grewal B.S., “Higher Engineering Mathematics”, Khanna Publication. 5. E. Kreyszig, “Advanced Engineering Mathematics”, 5th Edition, Wiley Eastern, 1985. Contact Address: Manav Bharti University Manav Bharti University Campus Rd, Laddo, Solan, Himachal Pradesh 173229 Phone: 01792 268 279 more BTECH Biotechnology syllabus detail attached a pdf file; 