Dr A.P.J. Abdul Kalam Technical University, UP (AKTU), Computer Engineering Semester 1, Physics Syllabus

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Unit - 1 RELATIVISTIC MECHANICS

1.1 FRAME OF REFERENCE

1.2 INERTIAL NONINERTIAL FRAMES

1.3 GALILEAN TRANSFORMATIONS

1.4 MICHELSON MORLEY EXPERIMENT

1.6 LORENTZ TRANSFORMATION

1.7 LENGTH CONTRACTION

1.8 TIME DILATION

1.9 VELOCITY ADDITION THEOREM

1.10 VARIATION OF MASS WITH VELOCITY

1.11 EINSTEIN’S MASS ENERGY RELATION

1.12 RELATIVISTIC RELATION BETWEEN ENERGY AND MOMENTUM

1.13 MASSLESS PARTICLE

Unit - 2 ELECTROMAGNETIC FIELD THEORY

2.1 CONTINUITY EQUATION FOR CURRENT DENSITY

2.2 DISPLACEMENT CURRENT

2.3 MODIFYING EQUATION FOR THE CURL OF MAGNETIC FIELD TO SATISFY CONTINUITY EQUATION

2.4 MAXWELL’S EQUATIONS IN VACUUM AND IN NONCONDUCTING MEDIUM

2.5 ENERGY IN AN ELECTROMAGNETIC FIELD

2.6 POYNTING VECTOR AND POYNTING THEOREM

2.7 PLANE ELECTROMAGNETIC WAVES IN VACUUM AND THEIR TRANSVERSE NATURE

2.8 RELATION BETWEEN ELECTRIC AND MAGNETIC FIELDS OF AN ELECTROMAGNETIC WAVE

2.9 ENERGY AND MOMENTUM CARRIED BY ELECTROMAGNETIC WAVES AND RESULTANT PRESSURE

2.10 SKIN DEPTH

Unit - 3 QUANTUM MECHANICS

3.1 BLACK BODY RADIATION

3.2 STEFAN’S LAW

3.3 WIEN’S LAW

3.4 RAYLEIGHJEANS LAW AND PLANCK’S LAW

3.5 WAVE PARTICLE DUALITY

3.6 MATTER WAVES

3.7 TIMEDEPENDENT AND TIMEINDEPENDENT SCHRODINGER WAVE EQUATION

3.8 BORN’S INTERPRETATION OF WAVE FUNCTION

3.9 SOLUTION TO STATIONARY STATE SCHRODINGER WAVE EQUATION FOR ONEDIMENSIONAL PARTICLE IN A BOX

3.10 COMPTON EFFECT

Unit - 4 WAVE OPTICS

4.1 COHERENT SOURCES

4.2 INTERFERENCE IN UNIFORM AND WEDGE SHAPED THIN FILMS

4.3 NECESSITY OF EXTENDED SOURCES

4.4 NEWTON’S RINGS

4.5 FRAUNHOFFER DIFFRACTION AT SINGLE SLIT AND AT DOUBLE SLIT

4.6 ABSENT SPECTRA

4.7 DIFFRACTION GRATING

4.8 SPECTRA WITH GRATING

4.9 DISPERSIVE POWER

4.10 RAYLEIGH CRITERION OF RESOLUTION

4.11 RESOLVING POWER OF GRATING

Unit - 5 Fibre Optics & Laser

5.1 INTRODUCTION TO OPTICAL FIBRE

5.2 ACCEPTANCE ANGLE NUMERICAL APERTURE NORMALIZED FREQUENCY

5.3 CLASSIFICATION OF FIBRE

5.4 ATTENUATION AND DISPERSION IN OPTICAL FIBRES

5.5 LASER ABSORPTION OF RADIATION SPONTANEOUS AND STIMULATED EMISSION OF RADIATION

5.6 EINSTEIN’S COEFFICIENTS

5.7 POPULATION INVERSION

5.8 VARIOUS LEVELS OF LASER

5.9 RUBY LASER

5.10 HENE LASER

5.11 LASER APPLICATIONS

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Other Subjects of Semester-1

Basic electrical engineering

Programming for problem solving

Artificial intelligence for engineers

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