How Long to Read Applied Science - I

How Long Does it Take to Read Applied Science - I?

It takes the average reader 5 hours and 59 minutes to read Applied Science - I by U. M. Barsode S. A. Kanavade G. S. George

Assuming a reading speed of 250 words per minute. Learn more

Description

Engineering Physics :Interference : Interference of waves, Interference due to thin films of uniform (with derivation) and non-uniform thickness (without derivation) Newton's rings, Michelson's Interferometer, Engineering Applications of Interference (Optical flatness of surfaces, Antireflection coatings, Accurate measurement of dimensions, Cornu's method for determination of Young's modulus).Relativity : Introduction, Postulates of special theory of relativity, Lorentz transformations of space and time, Time dilation, Length contraction, Relativity of mass, Mass and Energy, Doppler effect (qualitative only).Diffraction : Diffraction of waves, classes of diffraction, Fraunhoffer diffraction at a single slit (geometrical method), Conditions for maxima and minima, Diffraction at a circular aperture (results only). Plane diffraction grating, conditions for principal maxima and minima, Diffraction at a circular aperture (results only), Plane diffraction grating, Conditions for principal maxima and minima. Resolving power (R.P), Rayleigh's criterion for resolution of two point objects and R.P. of grating and telescope X-ray diffraction, Laue spots, Bragg's law, Bragg's X-ray spectrometer.Ultrasonics : Ultrasonic waves, Piezo-electric effect, Production of Ultrasonic waves by Piezo-electric Oscillator, Magnetostriction, Production of Ultrasonic waves by Magnetostriction oscillator, Applications of ultrasonic waves. (Echo signaling, Flaw detection etc.)Polarization : Polarization by reflection, Brewster's law, Double refraction, Huygen's theory of double refraction, Positive and negative crystals, Nicol Prism (construction action, working qualitative), Dichroism, Law of Malus, Elliptical and circular polarization, Quarter and half wave plates, Production of polarized light, Analysis of light.Nuclear Physics : Binding energy curve, Q-value of a nuclear reaction, Liquid drop model, Nuclear Fission in natural Uranium, Chain reaction, Four factor formula, Nuclear fuels, Nuclear Fusion, Particle accelerators, Cyclotron, Betatron.Engineering Chemistry :The Solid State : Types of solids - Crystalline and amorphous, Classification of cyrstaline solids based on bonding a) Ionic solids b) Covalent solids c) Molecular solids and d) Metallic solids.Crystallography : Laws of Crystallography, (1) Law of Constancy of Interfacial Angles - (2) Law of Rationality of Indices - Weiss indices and Miller indices of a plane, (3) Law of Constancy of Symmetry, Crystal lattice and Unit cell, Crystal systems and Bravais lattices, Elements of a cubic crystal, Co-ordination number of a cubic lattice, Atomic radius and Atomic packing factor of a cubic lattice, Radius ratio - Numericals, Crystal defects or imperfections : (a) Point defects - Frenkel defects, Schottky defects (b) Line defects (c) Plane defects, Stacking fault, Structure of silicates, Applications, Talc and Mica, Liquid crystals.Environmental Chemistry : Natural cycles of the Environment : The hydrological cycle, The oxygen cycle, The carbon cycle, The nitrogen cycle, The phosphate cycle, The sulphur cycle, Air Pollution Primary pollutants - Carbon monoxide, Oxides of nitrogen, Oxides of sulphur, Hydrocarbons and particulates - Inorganic, Organic, Photochemical smog, Acid rain, Control of air Pollution : (a) Control of gaseous pollutants from industry (b) Control of gaseous pollutants from mobiles source (c) Particulate emission control.Water : Water as a solvent, Chemical analysis of water (chloride content, alkalinity, hardness, sulphate and silica), Water for industry, Boiler feed water - Ion exchange method of water softening, Numerical on - Chemical analysis and ion exchange, Corrosion, Priming and foaming, Caustic embrittlement, Scales and sludge formation. Water Pollution : Sources of water pollution, Causes of pollution, Types of water pollutants, Nature of water pollutants. Particulate or suspended matter, Dissolved substances and dissolved gases. BOD and COD. Water pollution control : Stabilization of the ecosystem, Reutilization and recycling of the waste water. Waste water treatment (a) Domestic - Aerobic and Anaerobic Treatment (b) Industrial - Electro dialysis, Membrane technique and filtration by activated charcoal and synthetic resins, ETP Plant.Polymers : Definition and important terms, Monomer, Polymer, Polymerization, Degree of polymerization(Dp), Glass transition temperature (Tg), Molecular weight, Tacticity, Polymer dissolution. Classification of Polymer on the basis of :a) Origin - (Natural, synthetic and semi synthetic) b) Structure (Linear, branched, cross linked, ladder and semi ladder) c)Polymerization mechanism - (Step and chain polymers). d)Polymerization reactions - (Addition and condensation) e)Thermal behaviour - (Thermoplast and Thermoset) f)Final form - (Plastic, elastomer, fiber liquid resins). g) Backbone composition - (Homochain and heterochain) h)Types of monomers - (Homopolymer and copolymer) i)Presence or absence of carbon in the backbone - (Organic and inorganic). j)Chemical structure - (Saturated, unsaturated, aldehyde, ketones, esters, ethers, etc). Polymerization techniques : Bulk, Solution, Suspension and emulsion polymerization, Polymerization mechanism. Chain polymerization (Free radical, anionic and cationic) step polymerization, Ring opening polymerization. Commercial polymers - Synthesis, Properties and applications of Polyethylene (PE), Polyvinyl chloride (PVC), Polystyrene(PS), Phenol formaldehyde, Epoxy resins, Acrylonitrile butadiene styrene.Compounding of plastics : Rubbers, Definition, Molecular requirements for rubber characteristics, Coagulation, mastication. (a) Natural rubber - structure, Properties and drawback, Vulcanization. (b) Synthetic rubber - Synthesis, Structure, Properties and application. Styrene - Butadiene rubber, Neoprene, butyl rubber, silicone rubber. Speciality polymers - Basic concepts and applications of Conducting, Liquid crystalline, Thermally stable and Biodegradable polymers and Polymer composites.

How long is Applied Science - I?

Applied Science - I by U. M. Barsode S. A. Kanavade G. S. George is 354 pages long, and a total of 89,916 words.

This makes it 119% the length of the average book. It also has 110% more words than the average book.

How Long Does it Take to Read Applied Science - I Aloud?

The average oral reading speed is 183 words per minute. This means it takes 8 hours and 11 minutes to read Applied Science - I aloud.

What Reading Level is Applied Science - I?

Applied Science - I is suitable for students ages 12 and up.

Note that there may be other factors that effect this rating besides length that are not factored in on this page. This may include things like complex language or sensitive topics not suitable for students of certain ages.

When deciding what to show young students always use your best judgement and consult a professional.

Where Can I Buy Applied Science - I?

Applied Science - I by U. M. Barsode S. A. Kanavade G. S. George is sold by several retailers and bookshops. However, Read Time works with Amazon to provide an easier way to purchase books.

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