Jntuafirst Year Syllabusapplied Physics

Posted By admin On 23/08/21

Applied Physics Detailed Syllabus for B.Tech first year second sem is covered here. This gives the details about credits, number of hours and other details along with reference books for the course.

Jul 23, 2013 JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD I Year B. APPLIED PHYSICS. BONDING IN SOLIDS: Introduction – Types of bonding in solids – Estimation of cohesive energy – Madelung constant. G.C.E (Advanced Level) Physics syllabus is designed as a two year course to provide the basic background in physics that would be required by those intending to proceed to higher studies as well as by those who would utilize the knowledge of physics in. Ktu new updated 2019 syllabus for s1 s2, download ktu new syllabus pdf for all 2019 regulation subjects. Mat101 linear algebra and calculus, pht100 engineering physics, pht 110 engineering physics, cyt100 engineering chemistry, est100 engineering mechanics, est110 engineering graphics, est120 basics of civil & mechanical engineering, est130 basics of electrical & electronics engineering. For all other B.Tech 1st Year 2nd Sem syllabus go to JNTUH B.Tech Applied Physics Year 2ns Sem Course Structure for (R18) Batch. All details and yearly new syllabus will be updated here time to time. Subscribe, like us on facebook and follow us on google plus for all updates. Jan 15, 2021 JNTU Syllabus for Engineering Physics JAWAHARLAL NEHRU TECHNOLOGICAL UNIVERSITY HYDERABAD. L T/P/D C 2 1/-/- 4 ENGINEERING PHYSICS. Bonding in Solids: Ionic Bond, Covalent Bond, Metallic Bond, Hydrogen Bond, Vander-Waal’s Bond, Calculation of Cohesive Energy.

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The detailed syllabus for EnApplied Physics B.Tech 2016-2017 (R16) first year second sem is as follows.

B.Tech. I Year II Sem. L T/P/D C
Course Code: ME205ES 3 0/0/0 3
Prerequisites: None

Course Objectives:

  • To understand the elastic behavior of materials.
  • To understand basic principles of acoustics and architecture of buildings.
  • To study production and applications of ultrasonics.
  • To understand magnetic, dielectric and superconducting properties. Course Outcomes: after completion of this course the student is able to
  • Realize the importance of elastic behavior of materials.
  • Learn Sabine’s formula for reverberation time and apply in architecture of buildings.
  • Learn various methods of producing ultrasonics and their uses.
  • Learn magnetic, dielectric and superconducting properties of materials and their applications.

UNIT – I Elastic properties:

stress and strain, Hooke’s law, elastic behavior of a material, factors affecting elasticity, three modulii of elasticity, work done for unit volume in deforming a body, relation between three modulii of elasticity, determination of rigidity modulus – torsional pendulum.

UNIT – II Acoustics of buildings and acoustic quieting:


Introduction, basic requirement for the acoustically good halls, reverberation and time of reverberation, transmission of sound and transmission loss, factors affecting the architectural acoustics and their remedy, sound absorbing materials, sabine formulae, absorption coefficients, stadium seating, movie theater, acoustic quieting,

UNIT – III Ultrasonics:

Introduction, production of ultrasonic waves, magnetostriction method, piezo electric method, detection of ultrasonic waves, properties of ultrasonic waves, use of ultrasonics for nondestructive testing, applications of ultrasonics.

Text books:

  • Solid State Physics, A. J. Dekkar, MacMillan publishers
  • Fundamentals of Physics, Alan Giambattisa, BM Richardson and Robert C Richardson, Tata McGraw hill Publishers
  • Fundamentals of Acoustics, Kinster and Frey, John Wiley and Sons.

Reference Books:

  • Solid state physics, Charles Kittel, Wiley student edition
  • University Physics, Francis W. Sears, Hugh D. Young, Marle Zeemansky and Roger A Freedman, Pearson Education.
  • Introduction to Magnetic Materials, B.D. Cullity, C.D.Graham, A John Wiley & Sons, Inc., Publication.
  • Elastic and Inelastic Stress Analysis, Irving H. Shames, Francis A. Cozzarelli, Taylor, & Francis Group

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Here you can download the free lecture Notes of Engineering Physics Pdf Notes materials with multiple file links to download. The Engineering Physics Notes Pdf book starts with the topics covering Ionic Bond, Covalent Bond, Metallic Bond, Basic Principles, Maxwell-Boltzman, Electron in a periodic Potential, Fermi Level in Intrinsic and Extrinsic Semiconductors, ElectricSusceptibility, Applications of Superconductors, QuantumConfinement, Etc.

Engineering Physics Pdf Notes 1st Year

Note : According to the JNTUH – R13 Syllabus these Engineering Physics Notes 8 units are compressed into 5 units.

Complete Notes

Link: Complete Notes

Unit 1

Link: Unit 1

Unit 2

Link: Unit 2

Jntuafirst Year Syllabusapplied Physics

Unit 3

Link: Unit 3

Unit 4

Link: Unit 4

Unit 5

Link: Unit 5

Unit 6

Link: Unit 6

Unit 7

Jntu First Year Syllabus Applied Physics Syllabus

Link: Unit 7

Unit 8

Link: Unit 8


UNIT-I – Engineering Physics Notes
1. Bonding in Solids: Ionic Bond, Covalent Bond, Metallic Bond, Hydrogen Bond,
Vander-Waal’s Bond,
Calculation of Cohesive Energy.
2. Crystallography and Crystal Structures: Space Lattice, Unit Cell, Lattice
Parameters, Crystal Systems,Bravais Lattices, Miller Indices, Crystal Planes and
Directions, Inter Planar Spacing of Orthogonal CrystalSystems, Atomic Radius, Coordination
Number and Packing Factor of SC, BCC, FCC, Diamond and hcp
Structures, Structures of NaCl, ZnS, CsCl.

UNIT-II – Engineering Physics Notes
3. X-ray Diffraction: Basic Principles, Bragg’s Law, Laue Method, Powder Method,
Applications of X- ray
4. Defects in Crystals: Point Defects: Vacancies, Substitutional, Interstitial, Frenkel
and Schottky Defects;Qualitative treatment of line (Edge and Screw Dislocations)
Defects, Burger’s Vector, Surface Defects andVolume Defects.

UNIT-III – Engineering Physics Notes
5. Elements of Statistical Mechanics: Maxwell-Boltzman, Bose-Einstein and
Fermi-Dirac Statistics(Qualitative Treatment), Photon gas , Wein’s Law, Rayleigh-
Jeans law, Planck’s Law of Black BodyRadiation, Concept of Electron Gas, Fermi
Energy, Density of States.
6. Principles of Quantum Mechanics: Waves and Particles, de Broglie Hypothesis
, Matter Waves,Davisson and Germer’s Experiment, G. P. Thomson Experiment,
Heisenberg’s Uncertainty Principle,Schrödinger’s Time Independent Wave Equation
– Physical Significance of the Wave Function – Particle in
One Dimensional Potential Box.

Engineering physics pdf free download

UNIT-IV – Engineering Physics Notes
7. Band Theory of Solids: Electron in a periodic Potential, Bloch Theorem, Kronig-
Penny Model (Qualitative Treatment), Origin of Energy Band Formation in Solids,
Classification of Materials into Conductors, Semi Conductors & Insulators, Concept
of Effective Mass of an Electron and Hole.

UNIT-V – Engineering Physics Notes
8. Semiconductor Physics: Fermi Level in Intrinsic and Extrinsic Semiconductors,
Intrinsic Semiconductors
and Carrier Concentration, Extrinsic Semiconductors and Carrier Concentration,
Equation of Continuity,Direct & Indirect Band Gap Semiconductors, Hall Effect.
9. Physics of Semiconductor Devices: Formation of PN Junction, Open Circuit PN
Junction, EnergyDiagram of PN Diode, I-V Characteristics of PN Junction, PN Diode
as a Rectifier (Forward and ReverseBias), Diode Equation, LED, LCD and Photo

UNIT-VI – Engineering Physics Notes

10. Dielectric Properties: Electric Dipole, Dipole Moment, Dielectric Constant,
Polarizability, ElectricSusceptibility, Displacement Vector, Electronic, Ionic and
Orientation Polarizations and Calculation ofPolarizabilities – Internal Fields in Solids,
Clausius – Mossotti Equation, Piezo-electricity, Pyro-electricity and
Ferro- electricity.
11. Magnetic Properties: Permeability, Field Intensity, Magnetic Field Induction,
Magnetization, MagneticSusceptibility, Origin of Magnetic Moment, Bohr Magneton,
Classification of Dia, Para and Ferro MagneticMaterials on the basis of Magnetic
Moment, Domain Theory of Ferro Magnetism on the basis of HysteresisCurve, Soft
and Hard Magnetic Materials, Properties of Anti-Ferro and Ferri Magnetic Materials,
Ferrites andtheir Applications, Concept of Perfect Diamagnetism, Meissner Effect,
Magnetic Levitation, Applications of Superconductors.


UNIT-VII` – Engineering Physics Notes
12. Lasers: Characteristics of Lasers, Spontaneous and Stimulated Emission of
Radiation, Meta-stableState, Population Inversion, Lasing Action, Einstein’s
Coefficients and Relation between them, Ruby Laser,Helium-Neon Laser, Carbon
Dioxide Laser, Semiconductor Diode Laser, Applications of Lasers.
13. Fiber Optics: Principle of Optical Fiber, Acceptance Angle and Acceptance
Cone, Numerical Aperture,Types of Optical Fibers and Refractive Index Profiles,
Attenuation in Optical Fibers, Application of OpticalFibers.

UNIT-VIII – Engineering physics lecture notes

14. Acoustics of Buildings & Acoustic Quieting: Basic Requirement of
Acoustically Good Hall,Reverberation and Time of Reverberation, Sabine’s Formula
for Reverberation Time(Qualitative Treatment),Measurement of Absorption
Coefficient of a Material, Factors Affecting The Architectural Acoustics and
theirRemedies. Acoustic Quieting: Aspects of Acoustic Quieting, Methods of
Quieting, Quieting for SpecificObservers, Mufflers, Sound-proofing.
15. Nanotechnology: Origin of Nanotechnology, Nano Scale, Surface to Volume
Ratio, QuantumConfinement, Bottom-up Fabrication: Sol-gel, Precipitation,
Combustion Methods; Top-down Fabrication:Chemical Vapour Deposition, Physical
Vapour Deposition, Pulsed Laser Vapour Deposition Methods

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Frequently Asked Question

Q1: What is Bonding and what are its types?

Jntu First Year Syllabus Applied Physics 14th Edition

A1: Physical state of existing in a bound form of two or more atoms together is called Bonding. Dissociation is the external energy required to get back the bonded atoms to free state as energy is needed to break the bonds. Type of bonding in solids are,

Jntu First Year Syllabus Applied Physics O Level

  • Primary bonds which include iconic, covalent and metallic bonding
  • Secondary bonds which have Vander waal’s and hydrogen bonds.

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