- Engg. Physics Material For 2019 2020 Applied Physics Frq
- Engg. Physics Material For 2019 2020 Applied Physics 14th Edition
The track is offered for both the Physics and Astronomy Masterprogramme.
- Physics Study material: Find all study material of Physics for JEE Main & other engineering Exams preparation at jagranjosh.com.
- Physics Study material: Find all study material of Physics for JEE Main & other engineering Exams preparation at jagranjosh.com.
- New applications of physics can push the boundary of what is possible in electrical engineering, particularly in the areas of materials and devices, both solid-state electronic and optical. Research in applied physics seeks to enable new directions using a combination of theoretical and experimental investigations of novel quantum phenomena.
The Quantum Universe programme consists of four mandatoryphysics courses (20 ECTS), four Quantum Universe courses (20 ECTS),four electives (20 ECTS), and a large master research project of 60ECTS. The core physics courses are mandatory for all physicsstudents, independent of the track that is followed. You willfollow Computational Physics, Advanced Quantum Mechanics,Statistical Mechanics, and Mathematical Methods of Physics. TheQuantum Universe courses are followed by both physics and astronomystudents: General Relativity, Electrodynamics of RadiationProcesses, Particle Physics Phenomenology, and Student SeminarQuantum Universe. The elective courses range in a wide variety ofsubjects, and cover the broad spectrum between theoretical physics,particle physics and astronomy.
Physics Program Highlights. Students choose from interdisciplinary concentrations in astrophysics, geophysics, materials science, biophysics, mathematical physics, and solid-state physics. Undergraduate students can pursue a double degree in physics and electrical engineering.
Your Master's research project is your own individual project,supervised by a staff member from one of the institutes: the VanSwinderen Institute for Particle Physics and Gravity, the KapteynAstronomical Institute, or Kernfysisch Versneller Instituut(KVI-CART). The project is 60 ECTS, will take one year to finish,and is tailor-made to your interests.
For the complete curriculum, please see: https://www.rug.nl/ocasys/rug/vak/showpos?opleiding=6387
ENGINEERING PHYSICS- 1
Unit – I
Relativistic Mechanics
Unit – II
Modern Physics:
- Schrödinger's Wave Equation (Time dependent and time independent)
Unit – III
Wave Optics:
Interference:
Diffraction:
Unit – IV
Polarization and Laser:
Polarization:
- Production and Analysis of Plane
LASER:
Unit – V:
Fiber Optics and Holography:
Fiber Optics:
Holography:
ENGINEERING PHYSICS- II
Unit – I
Crystal Structures and X-ray Diffraction:
- Diffraction of X-rays by Crystal
Unit – II
Dielectric and Magnetic Properties of Materials:
Dielectric Properties:
- Equation of internal fields in liquid and solid ( One- Dimensional)
- Ferro and Piezo electricity (Qualitative)
- Frequency dependence of dielectric constant
Magnetic Properties:
- Langevin's theory for dia and paramagnetic material
Unit-III
Electromagnetic Theory:
- Equation of continuity
- Maxwell's Equations (Integral and Differential Forms)
- Equation of continuity
- EM- Wave equation and its propagation characteristics in free space
- Propagation characteristics in conducting media
- EM – Wave equation and its propagation characteristics in free space, nonconducting and in conducting media
- Energy density of electromagnetic wave
Unit – IV:
Band Theory of Solids:
- Density of states
- Charge carrier density (electrons and holes)
- Carrier concentrations Fermi energy
- Position of Fermi level in intrinsic and in extrinsic semiconductors
- Temperature dependence of conductivity in semiconductors
Unit-V
Physics of some Technologically Important Materials:
Superconductors:
Nano-Materials: Imagineer systems monet crack.
Engg. Physics Material For 2019 2020 Applied Physics Frq
Unit – III
Wave Optics:
Interference:
Diffraction:
Unit – IV
Polarization and Laser:
Polarization:
- Production and Analysis of Plane
LASER:
Unit – V:
Fiber Optics and Holography:
Fiber Optics:
Holography:
ENGINEERING PHYSICS- II
Unit – I
Crystal Structures and X-ray Diffraction:
- Diffraction of X-rays by Crystal
Unit – II
Dielectric and Magnetic Properties of Materials:
Dielectric Properties:
- Equation of internal fields in liquid and solid ( One- Dimensional)
- Ferro and Piezo electricity (Qualitative)
- Frequency dependence of dielectric constant
Magnetic Properties:
- Langevin's theory for dia and paramagnetic material
Unit-III
Electromagnetic Theory:
- Equation of continuity
- Maxwell's Equations (Integral and Differential Forms)
- Equation of continuity
- EM- Wave equation and its propagation characteristics in free space
- Propagation characteristics in conducting media
- EM – Wave equation and its propagation characteristics in free space, nonconducting and in conducting media
- Energy density of electromagnetic wave
Unit – IV:
Band Theory of Solids:
- Density of states
- Charge carrier density (electrons and holes)
- Carrier concentrations Fermi energy
- Position of Fermi level in intrinsic and in extrinsic semiconductors
- Temperature dependence of conductivity in semiconductors
Unit-V
Physics of some Technologically Important Materials:
Superconductors:
Nano-Materials: Imagineer systems monet crack.
Engg. Physics Material For 2019 2020 Applied Physics Frq
Engg. Physics Material For 2019 2020 Applied Physics 14th Edition
- Properties and uses of Fullerene and Carbon nanotubes