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DATE
WISE LECTURE PLAN & PROGRESS
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Name
of the Teacher
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K. Ramanjaneyulu
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Subject
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Physics
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Course Outcomes
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CO
1
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To know the theory behind heat engine and various applications
of in Heat in motion which is helpful in learning core department subjects
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CO
2
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To understand the Mechanism of the various Electro magntic
devices and concept of Electric field and Magnetic field in detail and
helpful in understanding core subjects in Electrical and Electronics
Departments.
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CO
3
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To know the basic concepts of interference, Diffraction and
polarisation and their applications
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CO
4
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To understand the theory behind the Laser and optical fibre and
its advancement in communications and various fields. To know more about appiicatins of
Ultrasonics and its uses in daily life and to understand quantum mechanics
role in Nano Technology and
advancement in super conductivity.
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Ref to Books
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Engineering Physics by R.K. Gour and S.D. Gupta
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Modern Engineering Physics by A.S.
Vasudeva
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LECTURE NO.
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TOPIC
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PLAN
DATE
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CO
SET UP
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1.
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Basic concepts f Heat and
definition of Heat Capacity
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17-12-18
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CO1
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2.
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Specific Heat, Heat capacity, Heat
and work
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18-12-18
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CO1
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3.
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First Law of thermodynamics
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20-12-18
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CO1
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4.
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applications
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21-12-18
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CO1
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5.
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Reversible and irreversible processes
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22-12-18
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CO1
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6.
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Carnot’s cycle and its efficiency
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24-12-18
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CO1
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7.
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Second law of thermodynamics,
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25-12-18
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CO1
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8.
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Third law of thermodynamics
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27-12-18
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CO1
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9.
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Entropy and Disorder,
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28-12-18
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CO2
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10.
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Revision
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29-12-18
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CO2
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11.
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ELECTROMAGNETISM Concept of
electric flux,
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31-12-18
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CO2
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12.
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gauss law and some of its
applications.
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01-01-19
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CO2
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13.
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Electric potential and Electric
Dipole
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03-01-19
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CO2
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14.
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B for a circular current loop
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04-01-19
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CO2
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15.
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The Biot – Savart’s law and
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05-01-19
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CO2
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16.
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Ampere’s law, B for a solenoid,
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07-01-19
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CO2
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17.
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hall effect
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09-01-19
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CO2
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18.
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Faraday laws of electromagnetic
induction
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10-01-19
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CO2
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19.
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Lenz’s law, inductance
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11-01-19
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CO2
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20.
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L-R circuit, induced magnetic fields,
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21-01-19
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CO2
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21.
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Displacement current
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22-01-19
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CO2
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22.
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Maxwell’s equations(both
differential and integral forms)
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24-01-19
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CO2
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23.
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Magnetic materials: Classification
of magnetic materials and its properties
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25-01-19
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CO2
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24.
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Assignment questions to be given
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28-01-19
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CO2
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25.
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Revision
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29-01-19
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CO2
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26.
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Interference: principle of
superposition
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31-01-19
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CO3
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27.
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Young’s experiment-Coherence
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01-02-19
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CO3
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28.
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Diffraction: Single Slit (Qualitative and Quantitative
treatment)
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02-02-19
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CO3
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29.
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Polarisation: Polarisation by
reflection, refraction
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04-02-19
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CO3
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30.
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Double refraction in Uniaxial
crystals,
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05-02-19
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CO3
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31.
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Nicol Prism
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07-02-19
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CO3
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32.
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Quarter wave plate and Half wave
plate,
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08-02-19
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CO3
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33.
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Circular and Elliptical
Polarization and Detection
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09-02-19
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CO3
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34.
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Assignment Questions to be given
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11-02-19
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CO3
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35.
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Revision
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13-02-19
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CO3
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36.
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Lasers: Introduction,
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14-02-19
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CO3
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37.
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Spontaneous and Stimulated Emission
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15-02-19
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CO3
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38.
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Population inversions,
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16-02-19
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CO3
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39.
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Ruby laser,
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18-02-19
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CO3
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40.
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Gas laser (He – Ne laser)
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20-02-19
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CO3
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41.
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Semiconductor laser,
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21-02-19
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CO3
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42.
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Assignment Questions to be given
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22-02-19
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CO3
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43.
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Applications of Lasers.
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23-02-19
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CO3
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44.
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Revision
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25-02-19
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CO3
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45.
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Optical Fibre
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27-02-19
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CO4
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46.
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Total Internal Reflection Acceptance angle
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28-02-19
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CO4
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47.
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Cone of a fibre,
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01-03-19
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CO4
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48.
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Numerical Aperture
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02-03-19
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CO4
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49.
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Fibre optics in Communications,
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28-02-19
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CO4
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50.
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Optical parts in fibre and .
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01-03-19
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CO4
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51.
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Assignment Questions to be given
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02-03-19
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CO4
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52.
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Applications of Optical Fibres
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05-03-19
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CO4
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53.
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Ultrasonics: Introduction,
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05-03-19
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CO4
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54.
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Production of Ultrasonics by
Magnetostriction method
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07-03-19
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CO4
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55.
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Production of ultrasonics by Piezoelectric effect method
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08-03-19
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CO4
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56.
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Ultrasonics and Diffraction pattern, Applications of
Ultrasonics
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09-03-19
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CO4
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57.
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Assignment questions
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09-03-19
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CO4
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58.
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Revision
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11-03-19
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CO4
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59.
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Schrodinger time independent wave
equation
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12-03-19
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CO4
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60.
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Application to a particle in a box
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12-03-19
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CO4
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61.
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Free electron theory of metals,
Kronig-Penny model (Qualitative Treatment)
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14-03-19
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CO4
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62.
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Origin of formation of bands in
solids,
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15-03-19
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CO4
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63.
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classification of materials into
conductors, semi-conductors and insulators
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16-03-19
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CO4
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64.
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16-03-19
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CO4
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65.
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Superconductivity:
Superconductivity, Meissner’s effect
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18-03-19
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CO4
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66.
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classification of materials
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19-03-19
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CO4
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67.
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Types of superconductors
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21-03-19
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CO4
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68.
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into conductors, semi-conductors
and insulators
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22-03-19
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CO4
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69.
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applications of superconductors
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23-03-19
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CO4
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70.
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Synthesis – Chemical vapour
deposition method
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25-03-19
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CO4
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71.
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Nanophase materials: introduction,
properties and
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26-03-19
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CO4
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72.
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applications
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28-03-19
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CO4
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73.
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Sol- Gel methods
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29-03-19
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CO4
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74.
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Applications of Nano materials
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30-03-19
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CO4
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