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B-SC in Non Medical Physics Chemistry Mathematics at Government College for Women, Hisar
Hisar, Haryana
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About the Specialization
What is Non-Medical (Physics, Chemistry, Mathematics) at Government College for Women, Hisar Hisar?
This B.Sc. Non-Medical program at Government College for Women, Hisar, focuses on building a strong foundation in Physics, Chemistry, and Mathematics. The curriculum, designed by Maharshi Dayanand University, emphasizes analytical thinking, problem-solving, and experimental skills crucial for scientific advancement. It aligns with the growing demand for STEM graduates in India''''s research, technology, and education sectors.
Who Should Apply?
This program is ideal for 10+2 science graduates with a strong aptitude for numerical reasoning and scientific inquiry. it caters to students aspiring for careers in scientific research, engineering, data analysis, or teaching. It also serves as a robust base for those planning to pursue higher studies like M.Sc. or B.Ed. for academic or teaching professions.
Why Choose This Course?
Graduates of this program can expect diverse career paths in India, including roles as research assistants, lab analysts, data scientists, and educators. Entry-level salaries typically range from INR 3-5 LPA, growing significantly with experience and advanced qualifications. The strong analytical and problem-solving skills gained are highly valued in various Indian industries.
Student Success Practices
Foundation Stage
Strengthen Core Concepts with Regular Practice- (Semester 1-2)
Dedicate consistent time to solve problems in Physics, Chemistry, and Mathematics daily. Focus on understanding fundamental principles rather than rote memorization. Actively participate in laboratory sessions to grasp practical applications of theoretical concepts.
Tools & Resources
NCERT textbooks (revisit basics), Reference books like HC Verma (Physics), O.P. Tandon (Chemistry), R.D. Sharma (Mathematics), Online problem-solving platforms like BYJU''''S/Vedantu for basic concepts
Career Connection
A strong foundation ensures clarity for advanced topics and competitive exams (e.g., JEE, NEET, entrance exams for M.Sc.) later, which are vital for research and technical careers.
Develop Effective Study Habits and Peer Learning- (Semester 1-2)
Form study groups to discuss challenging topics, teach each other, and clarify doubts. Utilize college library resources for additional reading and previous year question papers. Attend all lectures and practicals diligently.
Tools & Resources
College Library, Peer study groups, Class notes and lecture recordings (if available)
Career Connection
Collaborative learning enhances problem-solving and communication skills, valuable for teamwork in professional environments.
Explore Basic Coding and Data Analysis Tools- (Semester 1-2)
Even in a non-medical program, basic computational skills are increasingly important. Learn a programming language like Python and basic spreadsheet software for data handling and visualization.
Tools & Resources
Codecademy (for Python basics), NPTEL courses on basic programming, Microsoft Excel tutorials
Career Connection
These skills open doors to data analysis roles in scientific research, making graduates more versatile and employable in diverse fields.
Intermediate Stage
Engage in Mini-Projects and Summer Internships- (Semester 3-5)
Seek opportunities for short-term research projects within college departments or through faculty guidance. Pursue summer internships in local research labs, industries, or educational institutes to gain practical exposure.
Tools & Resources
Faculty advisors, Local research institutes (e.g., various labs in Hisar/Rohtak), Online platforms for internship search
Career Connection
Practical experience and networking during internships can lead to better placement opportunities and clarity on career interests.
Participate in Academic Competitions and Workshops- (Semester 3-5)
Join science fests, quizzes, and competitions at the college or inter-college level related to Physics, Chemistry, or Mathematics. Attend workshops on advanced topics or specialized software relevant to your interests (e.g., LaTeX for scientific writing).
Tools & Resources
College Science Club, University-level competitions, Online course platforms (Coursera, edX) for advanced topics
Career Connection
Showcasing competitive spirit and specialized skills enhances your profile for higher education and specific industry roles.
Develop Strong Scientific Communication Skills- (Semester 3-5)
Practice writing lab reports, research proposals, and presentations. Focus on clear, concise, and accurate scientific language. Participate in seminars to hone public speaking skills.
Tools & Resources
Scientific journals, Grammarly, Presentation software (PowerPoint, Google Slides)
Career Connection
Effective communication is paramount in research, teaching, and any professional scientific role, making you a more impactful professional.
Advanced Stage
Prepare for Higher Education and Entrance Exams- (Semester 6)
Identify target M.Sc. programs (Physics, Chemistry, Math, or interdisciplinary fields) or B.Ed. courses. Begin focused preparation for entrance exams like JAM (Joint Admission Test for M.Sc.), NET (National Eligibility Test), or specific university entrance exams.
Tools & Resources
Previous year JAM/NET papers, Online coaching platforms, M.Sc. entrance exam guides
Career Connection
Higher degrees are often essential for research, senior academic positions, and specialized roles, boosting long-term career growth and earning potential.
Build a Professional Portfolio and Network- (Semester 6)
Compile a portfolio of academic projects, research work, and any certificates. Attend career fairs and connect with alumni or professionals in your fields of interest. Utilize LinkedIn for professional networking.
Tools & Resources
LinkedIn, Resume/CV building tools, College alumni network
Career Connection
A strong professional network and portfolio are crucial for job hunting, referrals, and discovering unadvertised opportunities in the Indian job market.
Explore Research Opportunities and Project Work- (Semester 6)
Undertake a significant research project under faculty supervision, possibly culminating in a minor thesis or publication. Focus on advanced topics aligned with your career aspirations in physics, chemistry, or mathematics.
Tools & Resources
Faculty mentors, University research facilities, Scholarly databases (e.g., Google Scholar)
Career Connection
Hands-on research experience demonstrates analytical depth and problem-solving capabilities, highly valued in R&D and academic roles, enhancing postgraduate admissions and employability.
Program Structure and Curriculum
Eligibility:
- 10+2 (Intermediate) with Physics, Chemistry, and Mathematics from a recognized board, with a minimum aggregate percentage as per MDU norms.
Duration: 6 semesters / 3 years
Credits: Approx. 132-140 credits Credits
Assessment: Internal: 20%, External: 80%
Semester-wise Curriculum Table
Semester 1
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PHY-101C | Mathematical Physics-I | Core Theory | 4 | Vector Algebra and Calculus, Matrices and Tensors, Differential Equations, Fourier Series, Probability and Statistics |
| PHY-102C | Mechanics | Core Theory | 4 | Laws of Motion, Rotational Dynamics, Gravitation, Elasticity, Fluid Dynamics |
| PHY-103CL | Physics Lab-I | Core Practical | 2 | Error Analysis, Measurements with Vernier, Screw Gauge, Experiments on Elasticity, Viscosity Measurements, Gravitational Acceleration |
| CH-101 | Inorganic Chemistry-I (Chemistry of s-Block Elements and p-Block Elements) | Core Theory | 4 | Atomic Structure, Chemical Bonding, S-Block Elements, P-Block Elements, Periodic Table |
| CH-102 | Organic Chemistry-I (Fundamentals of Organic Chemistry and Stereochemistry) | Core Theory | 4 | Hybridization, Reaction Mechanisms, Alkanes and Alkenes, Stereoisomerism, Conformational Analysis |
| CH-103 | Physical Chemistry-I (States of Matter and Ionic Equilibrium) | Core Theory | 4 | Gaseous State, Liquid State, Solid State, Colloidal State, Ionic Equilibria |
| CH-104L | Chemistry Lab-I | Core Practical | 2 | Volumetric Analysis, Organic Preparations, Inorganic Preparations, Physical Chemistry Experiments, Crystallization Techniques |
| MATH-101C | Calculus | Core Theory | 4 | Successive Differentiation, Partial Differentiation, Asymptotes and Curvature, Reduction Formulae, Beta and Gamma Functions |
| MATH-102C | Differential Equations | Core Theory | 4 | First Order Differential Equations, Homogeneous Equations, Exact Differential Equations, Linear Differential Equations, Orthogonal Trajectories |
| AECC-I | Environmental Science | AECC | 2 | Ecosystems, Biodiversity, Pollution, Natural Resources, Environmental Protection |
Semester 2
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PHY-201C | Mathematical Physics-II | Core Theory | 4 | Complex Numbers, Special Functions, Partial Differential Equations, Laplace Transforms, Gamma and Beta Functions |
| PHY-202C | Electricity and Magnetism | Core Theory | 4 | Electrostatics, Magnetostatics, Electromagnetic Induction, AC Circuits, Maxwell''''s Equations |
| PHY-203CL | Physics Lab-II | Core Practical | 2 | Measurements of Resistance, Ohm''''s Law Verification, Capacitor Charging/Discharging, Magnetic Field Measurements, Resonance in LCR Circuits |
| CH-201 | Inorganic Chemistry-II (Chemistry of d-Block Elements, Coordination Chemistry and Bioinorganic Chemistry) | Core Theory | 4 | Transition Elements, Coordination Compounds, Ligands and Isomerism, CFT and VBT, Bioinorganic Chemistry |
| CH-202 | Organic Chemistry-II (Aromatic Hydrocarbons, Alkyl and Aryl Halides, Alcohols, Phenols and Ethers) | Core Theory | 4 | Aromaticity, Electrophilic Substitution, Nucleophilic Substitution, Preparation and Reactions of Alcohols, Ethers and Epoxides |
| CH-203 | Physical Chemistry-II (Chemical Kinetics and Catalysis) | Core Theory | 4 | Rate Laws, Order of Reactions, Activation Energy, Catalysis, Surface Chemistry |
| CH-204L | Chemistry Lab-II | Core Practical | 2 | Kinetic Studies, pH Measurements, Organic Qualitative Analysis, Inorganic Qualitative Analysis, Chromatography Techniques |
| MATH-201C | Real Analysis | Core Theory | 4 | Real Number System, Sequences and Series, Continuity and Differentiability, Uniform Continuity, Riemann Integrability |
| MATH-202C | Algebra | Core Theory | 4 | Group Theory, Subgroups and Cosets, Cyclic Groups, Permutation Groups, Homomorphisms and Isomorphisms |
| AECC-II | English Communication | AECC | 2 | Grammar and Usage, Writing Skills, Speaking Skills, Listening Comprehension, Presentation Techniques |
Semester 3
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PHY-301C | Thermal Physics | Core Theory | 4 | Kinetic Theory of Gases, Laws of Thermodynamics, Entropy, Phase Transitions, Heat Engines |
| PHY-302C | Waves and Optics | Core Theory | 4 | Wave Motion, Superposition of Waves, Interference, Diffraction, Polarization |
| PHY-303CL | Physics Lab-III | Core Practical | 2 | Thermal Conductivity, Specific Heat, Refractive Index, Diffraction Grating, Newton''''s Rings |
| CH-301 | Inorganic Chemistry-III (Metal-Ligand Bonding, Magnetic Properties of Coordination Compounds and Organometallic Chemistry) | Core Theory | 4 | Crystal Field Theory, Magnetic Properties, Thermodynamic Stability, Organometallic Compounds, Catalysis |
| CH-302 | Organic Chemistry-III (Aldehydes, Ketones, Carboxylic Acids and their Derivatives) | Core Theory | 4 | Carbonyl Compounds, Nucleophilic Addition, Carboxylic Acids, Substituted Carboxylic Acids, Amines and Nitriles |
| CH-303 | Physical Chemistry-III (Thermodynamics and Chemical Equilibrium) | Core Theory | 4 | First Law of Thermodynamics, Second Law of Thermodynamics, Gibbs Free Energy, Chemical Equilibria, Phase Rule |
| CH-304L | Chemistry Lab-III | Core Practical | 2 | Thermochemistry Experiments, Distribution Law, Complexometric Titrations, Gravimetric Analysis, Spectrophotometry |
| MATH-301C | Theory of Real Functions | Core Theory | 4 | Limits and Continuity, Differentiability, Mean Value Theorems, Taylor''''s Theorem, Riemann Integration |
| MATH-302C | Group Theory-I | Core Theory | 4 | Groups and Subgroups, Normal Subgroups, Quotient Groups, Isomorphism Theorems, Permutation Groups |
| SEC-I | Skill Enhancement Course (Elective) | SEC | 2 | Computational Physics, Basic Analytical Chemistry, Technical Writing, Web Designing Fundamentals, Data Analysis with Spreadsheets |
Semester 4
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PHY-401C | Analog Systems and Applications | Core Theory | 4 | Semiconductor Diodes, Transistors (BJT, FET), Amplifiers, Oscillators, Operational Amplifiers |
| PHY-402C | Digital Systems and Applications | Core Theory | 4 | Boolean Algebra, Logic Gates, Combinational Circuits, Sequential Circuits, A/D and D/A Converters |
| PHY-403CL | Physics Lab-IV | Core Practical | 2 | PN Junction Characteristics, Transistor Characteristics, Logic Gates Verification, Rectifier Circuits, OP-AMP applications |
| CH-401 | Inorganic Chemistry-IV (Hard & Soft Acids and Bases, Main Group Elements and Non-Aqueous Solvents) | Core Theory | 4 | HSAB Principle, Inert Pair Effect, Noble Gases, Boron and Silicon Compounds, Liquid Ammonia as Solvent |
| CH-402 | Organic Chemistry-IV (Heterocyclic Compounds, Biomolecules and Polymers) | Core Theory | 4 | Five and Six Membered Heterocycles, Carbohydrates, Amino Acids and Peptides, Nucleic Acids, Polymerization Techniques |
| CH-403 | Physical Chemistry-IV (Electrochemistry and Solutions) | Core Theory | 4 | Electrochemical Cells, Nernst Equation, Conductance, Colligative Properties, Phase Diagrams |
| CH-404L | Chemistry Lab-IV | Core Practical | 2 | Potentiometric Titrations, Conductometric Titrations, Colligative Properties, Organic Synthesis, Qualitative Analysis |
| MATH-401C | Partial Differential Equations | Core Theory | 4 | First Order PDE, Lagrange''''s Method, Charpit''''s Method, Second Order PDE, Boundary Value Problems |
| MATH-402C | Ring Theory and Linear Algebra-I | Core Theory | 4 | Rings and Fields, Ideals and Quotient Rings, Vector Spaces, Subspaces, Linear Transformations |
| SEC-II | Skill Enhancement Course (Elective) | SEC | 2 | Programming with Python, Green Chemistry, Intellectual Property Rights, Disaster Management, Entrepreneurship Skills |
Semester 5
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PHY-501C | Quantum Mechanics and Applications | Core Theory | 4 | Wave-Particle Duality, Schrödinger Equation, Hydrogen Atom, Uncertainty Principle, Quantum Operators |
| PHY-502C | Electromagnetics | Core Theory | 4 | Maxwell''''s Equations, Electromagnetic Waves, Poynting Vector, Wave Propagation, Transmission Lines |
| PHY-503CL | Physics Lab-V | Core Practical | 2 | Photoelectric Effect, Planck''''s Constant, Hall Effect, Zeeman Effect, Optical Fibre Communication |
| CH-501 | Organic Chemistry-V (Organic Spectroscopy and Photochemistry) | Core Theory | 4 | UV-Visible Spectroscopy, IR Spectroscopy, NMR Spectroscopy, Mass Spectrometry, Photochemistry |
| CH-502L | Chemistry Lab-V | Core Practical | 2 | Spectroscopic Analysis, Qualitative Organic Analysis, Synthesis of Organic Compounds, Chromatographic Separations, Titrations |
| MATH-501C | Metric Spaces and Complex Analysis | Core Theory | 4 | Metric Spaces, Cauchy Sequences, Complex Numbers, Analytic Functions, Contour Integration |
| MATH-502C | Linear Algebra | Core Theory | 4 | Vector Spaces, Linear Transformations, Eigenvalues and Eigenvectors, Inner Product Spaces, Orthogonalization |
| DSE-I | Discipline Specific Elective-I (Physics/Chemistry/Mathematics) | Elective | 4 | Numerical Methods, Medical Physics, Polymer Chemistry, Industrial Chemistry, Graph Theory |
| DSE-II | Discipline Specific Elective-II (Physics/Chemistry/Mathematics) | Elective | 4 | Nano Science, Astronomy and Astrophysics, Environmental Chemistry, Biochemistry, Discrete Mathematics |
Semester 6
| Subject Code | Subject Name | Subject Type | Credits | Key Topics |
|---|---|---|---|---|
| PHY-601C | Solid State Physics | Core Theory | 4 | Crystal Structure, Band Theory, Superconductivity, Dielectric Properties, Magnetic Properties of Materials |
| PHY-602C | Statistical Mechanics | Core Theory | 4 | Classical Statistics, Quantum Statistics, Partition Functions, Ideal Fermi Gas, Black Body Radiation |
| PHY-603CL | Physics Lab-VI | Core Practical | 2 | Band Gap Measurement, Ferroelectric Materials, Magnetic Hysteresis, X-ray Diffraction, Microprocessor Interfacing |
| CH-601 | Inorganic Chemistry-V (Transition Elements and Lanthanides & Actinides) | Core Theory | 4 | Chemistry of Transition Elements, Lanthanides and Actinides, Electronic Spectra, Magnetic Properties, Redox Reactions |
| CH-602L | Chemistry Lab-VI | Core Practical | 2 | Inorganic Preparations, Qualitative Inorganic Analysis, Electroanalytical Methods, Chromatography, Instrumental Methods |
| MATH-601C | Probability and Statistics | Core Theory | 4 | Probability Spaces, Random Variables, Probability Distributions, Correlation and Regression, Hypothesis Testing |
| MATH-602C | Riemann Integration and Series of Functions | Core Theory | 4 | Riemann Integral, Fundamental Theorem of Calculus, Uniform Convergence, Power Series, Fourier Series |
| DSE-III | Discipline Specific Elective-III (Physics/Chemistry/Mathematics) | Elective | 4 | Applied Physics, Medical Imaging, Analytical Chemistry, Photochemistry, Financial Mathematics |
| DSE-IV | Discipline Specific Elective-IV (Physics/Chemistry/Mathematics) | Elective | 4 | Material Science, Nuclear Physics, Chemistry of Natural Products, Computational Chemistry, Mathematical Modelling |
