PHYSICS

PROFILE

Vision

  • To build a foundation for excellence by igniting interests and passions in the study of Physics


  • To take up minor research projects and to commence UGC sponsored add-on courses

mission

  • The mission of the department of Physics include continuous improvement of the quality of scientific research, the development of innovative curricula and techniques based on research, involving the latest scientific discoveries


  • To equip the students to get employment and make them aware of global trends in science

COURSE OUTCOME

SEMESTER/ TITLE OF THE COURSE LEARNING OUTCOME PROGRAM SPECIFIC OUTCOME
I Semester- PHY 1.1

Physics I
At the end of the course the students will be able to:

• Explain the concepts of Mechanics, Plasma physics, Rocket motion, Waves and Oscillations.

• Explains some of the natural phenomenon’s that occur in everyday life based on Coriolis force and Frictional forces.
At the end of the three year program in History the students will able to:

•Perform critical evaluation of ideas and arguments by collection of relevant information about plants, so as to recognize the position of plants in broad classification and Phylogenetic level.

• Identify problems and independently propose solutions using creative approaches, acquired through interdisciplinary experiences, and acquire knowledge/expertise in the field of Plant Identification
II Semester – PHY 2.1

Physics II
• Discuss theories related to Civil Engineering, Mechanical Engineering, Fluid dynamics, Thermodynamics and Cryogenics.

• Comprehend the basic principles of Architectural Engineering, Aircraft designing, and operation of basic engines and behavior of materials at very low temperatures.
• Accurate interpretation of collected information and use taxonomical information to evaluate and formulate a position of plant in taxonomy

• Identify the major groups of organisms with an emphasis on plants and be able to classify them within a phylogenetic framework
III Semester- PHY 3.1

Physics III
• Explain the concepts and terminologies related to Electrical Engineering and Radiation physics.

• Describe eddy currents, Thermoelectricity, Optics, Explain the principle and working of electrical appliances like different types of lamps, microwave, water heater etc.

• Gain insight into the theories of Black body radiation which led to the development of Quantum Physics
• Students will be able to compare and contrast the characteristics of plants, algae, and fungi that differentiate them from each other and from other forms of life

• Access the primary literature, identify relevant works for a particular topic, and evaluate the scientific content of these works
IV Semester- PHY 4.1

Physics IV
• Discuss the concepts of Transient currents, Alternating currents, electrical networks, magnetism, Geometrical optics, polarization, optical fiber, laser and holography

• Explain the design and working of choke coils which have a wide range of applications in communication and industry.
• Explain the ecological interconnectedness of life on earth by tracing energy and nutrient flow through the environment. They will be able to relate the physical features of the environment to the structure of populations, communities, and ecosystems.

• Demonstrate proficiency in the experimental techniques and methods of analysis appropriate for their area of specialization within biology.
V Semester- PHY 5.1

Physics V
• Discuss the concepts of Gravitation, Atmospheric physics, Quantum mechanics(I and II), Solid state physics and Semiconductor like transistors diodes and special diodes, Atomic and Molecular physics.

• Apply the concepts learnt in industry and modern day life.
VI Semester- PHY 6.1

Physics VI
• Discuss the concepts of Statistical physics, Relativity, Astrophysics and Nuclear physics.

• Gain insight into topics like Nanomaterials, Smart materials which make the students aware of the recent developments in science and technology.

• Gain insight into Space science and Nuclear physics to motivate the students to opt for research.
SEMESTER/ TITLE OF THE COURSE LEARNING OUTCOME
I Semester- PHY 1.1

Physics I
At the end of the course the students will be able to:

• Explain the concepts of Mechanics, Plasma physics, Rocket motion, Waves and Oscillations.

• Explains some of the natural phenomenon’s that occur in everyday life based on Coriolis force and Frictional forces.
II Semester – PHY 2.1

Physics II
• Discuss theories related to Civil Engineering, Mechanical Engineering, Fluid dynamics, Thermodynamics and Cryogenics.

• Comprehend the basic principles of Architectural Engineering, Aircraft designing, and operation of basic engines and behavior of materials at very low temperatures.
III Semester- PHY 3.1

Physics III
• Explain the concepts and terminologies related to Electrical Engineering and Radiation physics.

• Describe eddy currents, Thermoelectricity, Optics, Explain the principle and working of electrical appliances like different types of lamps, microwave, water heater etc.

• Gain insight into the theories of Black body radiation which led to the development of Quantum Physics
IV Semester- PHY 4.1

Physics IV
• Discuss the concepts of Transient currents, Alternating currents, electrical networks, magnetism, Geometrical optics, polarization, optical fiber, laser and holography

• Explain the design and working of choke coils which have a wide range of applications in communication and industry.
V Semester- PHY 5.1

Physics V
• Discuss the concepts of Gravitation, Atmospheric physics, Quantum mechanics(I and II), Solid state physics and Semiconductor like transistors diodes and special diodes, Atomic and Molecular physics.

• Apply the concepts learnt in industry and modern day life.
VI Semester- PHY 6.1

Physics VI
• Discuss the concepts of Statistical physics, Relativity, Astrophysics and Nuclear physics.

• Gain insight into topics like Nanomaterials, Smart materials which make the students aware of the recent developments in science and technology.

• Gain insight into Space science and Nuclear physics to motivate the students to opt for research.
PROGRAM SPECIFIC OUTCOME
At the end of the three year program in Physics the students will able to:
• Gain a working knowledge of fundamental concepts in basic areas of physics such as classical mechanics, quantum mechanics, and thermodynamics.

• Read, understand and interpret physical information – verbal, mathematical and graphical.

• Acquire need based education in physics of the highest quality at the undergraduate level.

• Analyze physical problems and develop correct solutions using natural laws.

• Become confident and versatile problem-solvers who use physical intuition together with analytic and qualitative skills to study, model and understanding the world around us.

LABORATORY

FACULTY

Mrs. Mamatha B N

Assistant Professor

mamathabn.nmkrv@rvei.edu.in

Mr. Pavan Kumar C S

Assistant Professor

Ms. Gunavathi

Assistant Professor