Physics
The B.Sc.-Hons. (Physics) program at Monark University offers an in-depth exploration of fundamental and advanced concepts in physics, providing students with a strong foundation in both theoretical knowledge and practical skills. The curriculum is meticulously designed to cover key areas like classical mechanics, electromagnetism, quantum mechanics, and thermodynamics, while also incorporating cutting-edge research and experimental techniques. With a focus on critical thinking, problem-solving, and innovation, the program equips students to tackle real-world challenges in physics and related fields. The highly qualified faculty, modern laboratories, and emphasis on research-driven learning ensure that graduates are well-prepared for higher studies or careers in academia, industry, or research.
Program Outcomes
Develop a strong understanding of core concepts in physics, including mechanics, electromagnetism, quantum mechanics, and thermodynamics.
Gain hands-on experience with experimental techniques and modern laboratory practices to complement theoretical learning.
Cultivate problem-solving, analytical, and critical thinking skills essential for addressing complex scientific challenges.
Prepare for advanced studies or careers in academia, research, or industry by fostering independent research and innovation.
Enhance communication and teamwork skills through collaborative projects and presentations in both academic and professional settings.
Understand the applications of physics in real-world contexts, with a focus on technological advancements and interdisciplinary connections.
Develop a solid foundation for pursuing further studies in specialized fields of physics or related scientific disciplines.
Career Opportunities
Research Scientist (Physics)
Laboratory Technician
Physics Educator/Teacher
Data Analyst
Quality Control Analyst
Technical Consultant
Course Details
Course Duration
4 Years (8 Semesters) – Multiple Entry & Multiple Exit Enabled
Eligibility Criteria
Completion of higher secondary education (12th grade) or equivalent from a recognized board.A minimum of 35% aggregate marks in the qualifying examination, with a strong background in Physics, Mathematics, and Chemistry.
Laboratories
Solid State Physics Laboratory
Four-Point Probe: Used to measure the electrical conductivity of materials, particularly thin films.
Hall Effect Measurement System: To measure carrier concentration, mobility, and conductivity of semiconductor materials.
Cryostat: Provides low-temperature environments for studying materials and their properties at cryogenic temperatures.
Scanning Electron Microscope (SEM): For high-resolution imaging and analysis of material surfaces and microstructures.
Impedance Analyzer: For investigating the electrical properties of materials, including dielectric constants and conductivity.
Optical Microscope: For visualizing the microstructures of materials and conducting basic analysis.
LCR Meter: Used to measure inductance (L), capacitance (C), and resistance (R) of materials in various conditions.
Temperature Controller: To precisely regulate the temperature during material property testing.
Electronics Laboratory
Oscilloscope – Used for observing and analyzing waveforms in electronic circuits
Function Generator – Generates various types of waveforms for testing and simulation purposes
Multimeter – Measures electrical properties like voltage, current, and resistance
Power Supply – Provides adjustable DC voltage for powering electronic circuit
Signal Analyzer – Used for analyzing and characterizing electrical signals
Spectrum Analyzer – Measures the frequency spectrum of signals, helpful in RF (radio frequency) applications
Soldering Station – Used for assembling and repairing electronic components
Digital Storage Oscilloscope (DSO) – Captures and stores waveforms for detailed analysis
PCB Fabrication Tools – For designing and manufacturing printed circuit boards.
Signal Analyzers – Used for testing, troubleshooting, and analyzing complex signals.Electronic Components (Resistors, Capacitors, Transistors, ICs) – Fundamental parts for building various circuits.
