Departments - Physics
The Department of Physics was established in this college with affiliation of B.Sc.(MPCs,MPC). courses to Kakatiya University in the year 2017 with a view to provide Science education along with imparting the computer knowledge to the tribal students. Eminent and well experienced faculty served at this department. All the courses were produced many eminent scholars with knowledge and skills and the department of Physics played important role in its part. Alumni members of this department achieved greater positions in their lives.
Strengths:
One Regular faculty with rich and varied experience in teaching.
Well-equipped Computer Lab and Digital Classroom for ICT teaching.
Well ventilated and spacious classrooms.
Availability of CCTV Cameras for safety and security.
Opportunities:
There is lot potential increase the admissions in the days to come.
P.G Course i.e., M.Sc. Physics, can be introduced to cater to demands of this region students.
More number of Certificate and Value-Added Courses can also be introduced in future.
Campus interviews are present.
Details of Teaching Faculty:
Year |
Name of the Teaching Faculty |
Educational Qualification |
Designation |
Teaching Experience |
2022-23 |
J. Satheesh Goud |
M.Sc., B.Ed., NET, (Ph.D.) |
Degree Lecturer |
6 Years |
B. Ramesh |
M.Sc., Ph.D. |
Degree Lecturer |
8 years |
|
2021-22 |
J. Satheesh Goud |
M.Sc., B.Ed., NET, (Ph.D.) |
Degree Lecturer |
5 Years |
B. Ramesh |
M.Sc., Ph.D. |
Degree Lecturer |
7 years |
|
2020-21 |
J. Satheesh Goud |
M.Sc., B.Ed., NET, (Ph.D.) |
Degree Lecturer |
4 Years |
G. Mahender |
M.Sc. SET. |
Degree Lecturer |
5 years |
|
2019-20 |
J. Satheesh Goud |
M.Sc., B.Ed., NET, (Ph.D.) |
Degree Lecturer |
3 Years |
G. Mahender |
M.Sc. SET. |
Degree Lecturer |
4 years |
|
2018-19 |
J. Satheesh Goud |
M.Sc., B.Ed., NET, (Ph.D.) |
Degree Lecturer |
2 Years |
G. Mahender |
M.Sc. SET. |
Degree Lecturer |
3 years |
|
2017-18 |
J. Satheesh Goud |
M.Sc., B.Ed., NET, (Ph.D.) |
Degree Lecturer |
1 Years |
R. Vinay |
M.Sc, B.Ed. SET. |
Degree Lecturer |
1year |
Programme Outcomes (POs)
Students having an academic background of science at 10+2 level can pursue B.Sc. programme in various branches. After the completion of the B.Sc. degree there are various options available for the science students, they can pursue master’s degree in science (M.Sc.), work in research related fields and can even look for professional job-oriented courses. Often, in some reputed universities or colleges the students are recruited directly by big MNC’s after the completion of the course. The student is also eligible for the job of a Medical Representative. The student after graduating will be eligible for various government exams conducted by UPSC, SSC etc.
Statements of Programme Specific Outcomes (PSOs)
By the end of the course, the students will be able to:
PSO1: Students are expected to acquire knowledge in physics, including the major branches of physics like classical mechanics, quantum mechanics, electromagnetic theory, electronics, optics, special theory of relativity and modern physics.
PSO2: Students are also expected to develop written and oral communication skills in communicating physics-related topics.
PSO3: Students should learn how to design and conduct an experiment (or series of experiments) demonstrating their understanding of the scientific method and processes. Not only that they are expected to understand the analytical methods required to interpret and analyze results and draw conclusions as supported by their data.
PSO4: Students will develop the proficiency in the acquisition of data using a variety of laboratory instruments and in the analysis and interpretation of such data.
PSO5: Students will learn the applications of numerical techniques for modeling physical systems through problems solving for which analytical methods are inappropriate or of limited utility.
PSO6: Students will realize and develop an understanding of the impact of physics and science on society.
PSO7: Apply conceptual understanding of the physics to general real-world situations.
PSO8: Describe the methodology of science and the relationship between observation and theory.
PSO9: Learn to minimize contributing variables and recognize the limitations of equipment.
PSO10: Discover of physics concepts in other disciplines such as mathematics, computer science, engineering, and chemistry.
PSO11: Develop the following experimental tools: Numerically model simple physical systems using Euler's method, curve fitting, and error analysis.
PSO12: Analyze physical problems and develop correct solutions using natural laws.
PROGRAMME: B.Sc.
Statement of Course Outcomes (COs)
B.Sc. Sem-I Paper – I : Mechanics
By the end of this course, Students will be able to:
- Students can understand vector analysis,
- Study the collisions, behavior of rigid body dynamics
- Understand the concept of central forces.,
- Understand the negative result of Michelson Morley experiment, Galilean and Lorentz transformation
B.Sc. Sem-I Paper – I : Mechanics : Laboratory Course
By the end of this course, Students will be able to:
- Students can determine the acceleration due to gravity at their place,
- Students will be able to investigate Young’s modulus and rigidity modulus
- Students can understand various properties of liquids i.e., surface tension, refractive index, viscosity
B.Sc. Sem-II Paper – II: Thermodynamics
By the end of this course, Students will be able to:
- Understand the concepts kinetic theory of gases and Thermodynamics.
- Understand the concept of Maxwell’s Equations and Low temperature physics
- Understand the theory of thermal radiation, measurement of solar temperature.
- Understand the statistical methods in physics.
B.Sc. Sem-II Paper – II : Laboratory Course
By the end of this course, Students will be able to:
- Understand thermal conductivity of a bad conductor by Lee’s method.
- Understand Specific heat of a liquid by applying Newton’s law of cooling correction.
B.Sc. Sem-III: Paper- III (Electromagnetic Theory)
By the end of this course, Students will be able to:
- Study the electric field using Gauss law in electrostatics.
- Study and understand Ampere’s law.
- Understand the Faraday’s laws of electromagnetic induction
- Understand the Maxwell’s laws of electromagnetic waves.
B.Sc. Sem-III: Paper-III Laboratory Course
By the end of this course, Students will be able to:
- Understand the networks Thevenin Theorem, Norton Theorem, Superposition Theorem and maximum power transfer theorem.
- To determine a small resistance by Carey Foster’s bridge.
- To determine the (a) current sensitivity, (b) charge sensitivity, and (c) CDR of a B.G.
B.Sc. Sem-IV Paper-IV OPTICS
By the end of this course, Students will be able to:
- Understand the concept of vibrating in strings and bars.
- Overview of Interference, Diffraction and Polarization.
B.Sc. Sem-IV Laboratory Course
By the end of this course, Students will be able to:
- Understand measurement of wavelength using Newton’s Rings method and minimum deviation, Normal method
- Understand Resolving power of telescope, Dispersive power of prism
- Understand the optical rotation.
B.Sc. Sem-V: Paper-V (Modern Physics)
By the end of this course, Students will be able to:
- Understand the vector atom model, Atomic and molecular Spectra.
- Understand Wave Particle Duality de Broglie hypothesis, Experimental confirmation of matter wave, Davisson Germer Experiment, velocity of de Broglie wave, Schrodinger wave equation.
- Understand Nuclear Physics Size and structure of atomic nucleus, nuclear radiation, and counters.
- Understand the solid-state physics, Bragg’s law.
B.Sc. Sem-VI Laboratory Course
By the end of this course, Students will be able to:
- Understand Photoelectric effect.
- Estimate e/m of electron in different methods.
- Can work with GM Counter.
B.Sc. Sem-VI: Paper- VI (Electronics)
By the end of this course, Students will be able to:
- Understand Band theory of P-N junction, diodes, and transistors.
- Understand the special devices like LED, FET etc.
- Understand the importance of Digital Electronics.
B.Sc. Sem-VI Laboratory Course
By the end of this course, Students will be able to:
- Understand characteristics of diode, and transistor.
- Understand logic gates AND, OR, NAND, NOR etc.