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Shivpuri, Fatehpur (U.P)- 212656, (College Code -02003)

Amar Shaheed Kanchan Singh Autonomous P.G. College
Master of Education
Master of Science
Master of Arts
Master of Commerce
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Amar Shaheed Kanchan Singh Autonomous P.G. College

Shivpuri, Fatehpur (U.P)- 212656,
(College Code -02003)
  • +91 8382058300

Master of Science

Physics (PHY501)
About the Programme The Master of Science in Physics is a two-year postgraduate program designed to deepen students’ understanding of fundamental and advanced concepts in physics. This program emphasizes both theoretical knowledge and practical application, preparing students for careers in research, academia, and industry. Students will explore key areas such as classical mechanics, quantum physics, electrodynamics, and statistical mechanics. The curriculum also includes advanced laboratory techniques and research methodologies, fostering critical thinking and problem-solving skills. Graduates of the M.Sc. in Physics program will be well-equipped for roles in scientific research, technical development, and higher education, with a strong foundation in both theoretical principles and experimental practices. Vision To be a leading center of excellence in physics education and research, inspiring innovation and scientific inquiry. Mission
  1. To provide a robust curriculum that integrates theoretical knowledge with practical application.
  2. To foster a dynamic research environment encouraging innovation and discovery.
  3. To prepare graduates to address real-world challenges and contribute to the global scientific community.
Program Objectives (POs)
  1. PO1: Fundamental Knowledge: Graduates will possess a thorough understanding of core concepts in classical mechanics, quantum mechanics, statistical mechanics, and electromagnetism.
  2. PO2: Analytical Skills: Graduates will develop strong analytical and problem-solving skills to tackle complex physical problems and apply theoretical concepts to practical scenarios.
  3. PO3: Experimental Skills: Graduates will gain proficiency in designing, conducting, and analyzing experiments using advanced laboratory equipment and techniques.
  4. PO4: Research Proficiency: Graduates will be able to engage in scientific research, demonstrating the ability to formulate hypotheses, design experiments, analyze data, and present results effectively.
  5. PO5: Communication Skills: Graduates will effectively communicate complex scientific ideas and findings through written reports, oral presentations, and collaborative discussions.
  6. PO6: Ethics and Professionalism: Graduates will demonstrate a commitment to ethical practices, professional integrity, and continuous learning in their field.
Course Outcomes (COs)
  1. CO1: Students will understand and apply the principles of classical mechanics to solve problems involving motion, forces, and energy.
  2. CO2: Students will comprehend the fundamental principles of quantum mechanics and apply them to systems at the atomic and subatomic levels.
  3. CO3: Students will analyze systems using statistical mechanics to understand macroscopic properties from microscopic behaviors.
  4. CO4: Students will grasp the concepts of electromagnetism and solve problems related to electric and magnetic fields, circuits, and electromagnetic waves.
  5. CO5: Students will understand the properties of solid materials, including crystal structures, electronic properties, and lattice vibrations.
Program Specific Outcomes (PSOs)
  1. PSO1: Graduates will be skilled in using advanced experimental techniques and instrumentation to investigate physical phenomena.
  2. PSO2: Graduates will be able to develop and apply theoretical models to describe and predict the behavior of physical systems.
  3. PSO3: Graduates will apply their knowledge of physics to interdisciplinary fields such as materials science, nanotechnology, and biophysics.
  4. PSO4: Graduates will be proficient in using computational tools and methods for simulating physical systems and analyzing complex data.
Program Educational Objectives (PEOs)
  1. PEO1: Graduates will be prepared for successful careers in academia, research institutions, industry, and governmental agencies, contributing to advancements in science and technology.
  2. PEO2: Graduates will engage in lifelong learning, continuously updating their knowledge and skills to keep pace with advancements in the field of physics.
  3. PEO3: Graduates will exhibit innovative thinking and problem-solving abilities, capable of addressing contemporary scientific and technological challenges.
  4. PEO4: Graduates will demonstrate leadership skills and the ability to work collaboratively in multidisciplinary teams, contributing to the advancement of knowledge and society.
Chemistry (CHE501)
About the Programme The Master of Science in Chemistry is a two-year postgraduate program designed to deepen students’ understanding of chemical principles and enhance their research skills. This program builds a strong foundation in advanced chemistry topics, equipping students with the knowledge to tackle complex scientific problems. Students will gain expertise in various branches of chemistry, including organic, inorganic, physical, and analytical chemistry. The curriculum emphasizes laboratory work, research methodologies, and critical analysis, preparing students for both academic and industrial careers. Graduates will be well-prepared for roles in research, pharmaceuticals, environmental science, and education, with a comprehensive understanding of chemical processes and their applications in real-world scenarios. Vision To excel in chemical sciences education and research, fostering innovation, sustainability, and leadership. Mission
  • To deliver a rigorous and comprehensive chemistry curriculum, preparing students for successful careers in academia, industry, and research.
  • To encourage innovative research, advancing scientific knowledge and addressing global challenges through interdisciplinary collaboration.
  • To promote sustainable and ethical practices in chemistry, emphasizing environmental stewardship and social responsibility.
Program Outcomes (POs)
  1. PO1: Advanced Knowledge: Gain a comprehensive understanding of fundamental and advanced concepts in various branches of chemistry, including organic, inorganic, physical, and analytical chemistry.
  2. PO2: Research Skills: Develop the ability to design and conduct experiments, analyze and interpret data, and contribute to scientific research with innovative solutions to chemical problems.
  3. PO3: Problem-Solving: Cultivate critical thinking and problem-solving skills to address complex chemical issues, both independently and as part of a team.
  4. PO4: Technical Proficiency: Acquire proficiency in the use of modern chemical instrumentation and computational tools essential for professional practice and research in chemistry.
  5. PO5: Communication and Ethics: Enhance the ability to communicate scientific knowledge effectively in written and oral forms, while adhering to ethical standards and responsibilities.
  6. PO6: Lifelong Learning: Foster a commitment to continuous learning and professional development to stay abreast of the latest advancements in the field of chemistry.
Course Outcomes (COs)
  1. CO1: Understand the structure, reactivity, and mechanisms of organic molecules, and apply this knowledge to synthesize and characterize organic compounds.
  2. CO2: Explore the principles and applications of coordination chemistry, solid-state chemistry, and bioinorganic chemistry.
  3. CO3: Master the concepts of thermodynamics, kinetics, quantum chemistry, and spectroscopy, and their applications to chemical systems.
  4. CO4: Develop skills in qualitative and quantitative analysis using classical and modern analytical techniques.
  5. CO5: Learn about the chemical processes in the environment, pollution control, and sustainable practices to mitigate environmental issues.
Program Specific Outcomes (PSOs)
  1. PSO1: Demonstrate advanced laboratory techniques and safety protocols in conducting chemical experiments and research.
  2. PSO2: Gain in-depth knowledge in specialized areas such as polymer chemistry, medicinal chemistry, and materials science.
  3. PSO3: Apply chemical principles and techniques to solve real-world problems in the chemical industry, including pharmaceuticals, petrochemicals, and environmental management.
  4. PSO4: Integrate knowledge from various scientific disciplines to approach chemical problems with a holistic and interdisciplinary perspective.
Program Educational Objectives (PEOs)
  1. PEO1: Prepare graduates to excel in professional careers in academia, industry, or research institutions by applying their advanced knowledge and skills in chemistry.
  2. PEO2: Encourage graduates to engage in research and innovation, contributing to scientific advancements and technological developments in chemistry.
  3. PEO3: Develop graduates who exhibit ethical leadership, social responsibility, and a commitment to sustainable practices in their professional and personal endeavors.
  4. PEO4: Equip graduates with the ability to pursue lifelong learning and adapt to the evolving demands and challenges of the chemical sciences.
Mathematics (MAT501)
About the Programme The Master of Science in Mathematics is a two-year postgraduate program designed to deepen students’ mathematical knowledge and analytical skills. This program covers advanced mathematical concepts, theories, and applications, providing a solid foundation for research and professional practice. Students will explore topics such as algebra, calculus, statistics, and applied mathematics, enhancing their problem-solving abilities and critical thinking. The curriculum emphasizes theoretical understanding and practical applications, preparing graduates for careers in academia, industry, and research. Graduates will be well-equipped for roles that require strong mathematical proficiency and analytical skills, with the capability to contribute to various scientific and technological fields. Vision To be a leading institution in mathematical sciences, fostering excellence in education, research, and innovation, and preparing students to contribute meaningfully to society. Mission
  • To provide a rigorous and comprehensive mathematics curriculum that equips students with the analytical and problem-solving skills needed for academic and professional success.
  • To promote and support cutting-edge research in mathematics, encouraging students and faculty to contribute to advancements in the field and solve real-world problems.
  • To engage with the broader community through outreach and collaboration, using mathematical knowledge to address societal challenges and inspire future generations.
Program Outcomes (POs)
  1. PO1: Advanced Knowledge and Skills: Demonstrate advanced knowledge and understanding of core areas in mathematics, including algebra, analysis, geometry, and applied mathematics.
  2. PO2: Research and Problem Solving: Apply mathematical theories and techniques to solve complex problems and conduct original research in both pure and applied mathematics.
  3. PO3: Critical Thinking: Develop critical thinking and analytical skills to evaluate and synthesize mathematical information from diverse sources.
  4. PO4: Technology Integration: Utilize modern computational tools and software to model, simulate, and solve mathematical problems efficiently.
  5. PO5: Communication Skills: Communicate mathematical ideas, both orally and in writing, to a variety of audiences, including academics, professionals, and the public.
  6. PO6: Ethical Awareness and Lifelong Learning: Demonstrate an understanding of ethical principles in mathematics and commit to lifelong learning to stay updated with the latest developments in the field.
Course Outcomes (COs)
  1. CO1: Understand the structure of groups, rings, and fields and their applications in various areas of mathematics and science.
  2. CO2: Develop a deep understanding of the fundamental concepts of real analysis, including sequences, series, continuity, differentiation, and integration.
  3. CO3: Gain proficiency in the analysis of complex functions, including analytic functions, contour integration, and series expansions.
  4. CO4: Apply numerical methods for solving mathematical problems that arise in real-world applications, including numerical integration, differentiation, and solution of differential equations.
  5. CO5: Analyze and solve ordinary and partial differential equations using various techniques and understand their applications in scientific and engineering problems.
Program Specific Outcomes (PSOs)
  1. PSO1: Develop and analyze mathematical models for real-life phenomena, providing solutions to practical problems in fields such as physics, engineering, and economics.
  2. PSO2: Apply computational techniques and algorithms to solve complex mathematical problems using programming languages and software tools.
  3. PSO3: Integrate mathematical knowledge with other scientific disciplines, enhancing the ability to work on interdisciplinary research and projects.
  4. PSO4: Demonstrate a thorough understanding of advanced mathematical theories and their applications in research and industry.
Program Educational Objectives (PEOs)
  1. PEO1: Graduates will achieve success in advanced studies, research, and professional careers in mathematics and related fields.
  2. PEO2: Graduates will contribute to the advancement of mathematical knowledge through innovative research and development.
  3. PEO3: Graduates will exhibit ethical and social responsibility in their professional and personal lives, contributing positively to society.
  4. PEO4: Graduates will engage in lifelong learning, continuously updating their knowledge and skills to keep pace with the evolving field of mathematics.
Zoology (ZOO501)
About the Programme The Master of Science in Zoology is a two-year postgraduate program focused on the study of animal biology. This program provides in-depth knowledge of animal physiology, genetics, ecology, and evolution, fostering a comprehensive understanding of the animal kingdom. Students will engage in practical and theoretical learning, developing skills in research, data analysis, and scientific communication. The curriculum covers key areas such as animal behavior, environmental biology, and conservation, preparing graduates for careers in research, environmental management, and education. Graduates will be well-prepared for advanced studies or professional roles that require expertise in zoology and a strong foundation in scientific principles and methodologies. Vision To be a center of excellence in zoological sciences, advancing knowledge, conservation, and sustainable practices through high-quality education and innovative research. Mission
  • To provide a rigorous zoology curriculum that prepares students for successful careers in research, academia, and industry.
  • To foster innovative research in animal biology, biodiversity, and conservation.
  • To promote sustainable practices and conservation efforts, equipping students to address global environmental challenges.
Program Objectives (POs)
  1. PO1: Advanced Knowledge – To provide students with advanced theoretical and practical knowledge in various disciplines of Zoology.
  2. PO2: Research Skills – To develop research skills necessary for conducting independent scientific research in Zoology.
  3. PO3: Problem-Solving – To enhance critical thinking and problem-solving skills applicable to biological and ecological challenges.
  4. PO4: Professional Development – To prepare students for careers in academia, research, industry, and government by enhancing their professional competencies.
  5. PO5: Ethical Practices – To instill a strong sense of ethics and responsibility towards biodiversity conservation and sustainable use of biological resources.
  6. PO6: Lifelong Learning – To foster a commitment to lifelong learning and staying updated with the latest advancements in the field of Zoology.
Course Outcomes (COs)
  1. CO1: Students will understand the core concepts and principles of Zoology, including taxonomy, physiology, and genetics.
  2. CO2: Students will be able to design, conduct, and interpret research using appropriate methodologies and statistical tools.
  3. CO3: Students will apply knowledge of Zoology to address real-world problems in areas such as environmental management, wildlife conservation, and public health.
  4. CO4: Students will develop effective communication skills to present scientific findings to both specialist and non-specialist audiences.
  5. CO5: Students will gain proficiency in using modern laboratory techniques and bioinformatics tools essential for Zoological research.
Program Specific Outcomes (PSOs)
  1. PSO1: Ability to classify and understand the biodiversity of various animal groups, their evolutionary relationships, and ecological significance.
  2. PSO2: Proficiency in understanding the physiological and biochemical processes in animals, including human biology.
  3. PSO3: Capability to analyze ecological interactions and environmental impacts on animal populations and ecosystems.
  4. PSO4: Skills to develop and implement strategies for the conservation and management of wildlife and natural habitats.
Program Educational Objectives (PEOs)
  1. PEO1: Graduates will excel in their academic pursuits, achieving higher degrees and contributing to the academic community through research and teaching.
  2. PEO2: Graduates will have successful careers in various sectors including research institutions, government agencies, environmental organizations, and the private sector.
  3. PEO3: Graduates will demonstrate leadership in their professional fields, upholding ethical standards and contributing positively to society.
  4. PEO4: Graduates will engage in lifelong learning, adapting to technological advances and evolving scientific knowledge in the field of Zoology.
Botany (BOT501)
About the Programme The Master of Science in Botany is a two-year postgraduate program designed to provide comprehensive knowledge and research skills in plant sciences. This program emphasizes the study of plant biology, ecology, genetics, and biotechnology. Students will gain in-depth understanding of plant physiology, taxonomy, and the role of plants in environmental sustainability. The curriculum focuses on practical applications, research methodologies, and the latest advancements in botanical sciences. Graduates will be equipped for careers in academia, research, environmental conservation, and biotechnology, with a strong foundation in the biological sciences and an ability to address contemporary challenges in botany. Vision To be a leading institution in botanical sciences, fostering excellence in education, research, and sustainability. Mission
  • To provide a comprehensive and rigorous botany curriculum that equips students with the knowledge and skills needed for careers in research, academia, and industry.
  • To promote cutting-edge research in plant biology, biodiversity, and ecosystem management.
  • To advocate for sustainable practices and conservation efforts, preparing students to address environmental challenges and promote biodiversity.
Program Outcomes (POs)
  1. PO1: Scientific Knowledge: Demonstrate comprehensive understanding of plant biology, including plant physiology, taxonomy, genetics, ecology, and molecular biology.
  2. PO2: Research Proficiency: Develop the ability to design, conduct, and interpret original research in botany, utilizing modern techniques and tools.
  3. PO3: Critical Thinking: Exhibit strong analytical and problem-solving skills to critically evaluate scientific data and literature in botany and related fields.
  4. PO4: Communication Skills: Effectively communicate scientific ideas, research findings, and technical information in both written and oral forms to diverse audiences.
  5. PO5: Ethical Practices: Apply ethical principles in research and professional practices, demonstrating integrity, objectivity, and adherence to scientific standards.
  6. PO6: Environmental Awareness: Understand and appreciate the significance of plants in environmental conservation and sustainability, advocating for the protection and sustainable use of plant resources.
Course Outcomes (COs)
  1. CO1: Explain the biochemical and physiological processes in plants, including photosynthesis, respiration, and nutrient uptake.
  2. CO2: Classify and identify plants using modern taxonomic methods and understand the evolutionary relationships among different plant groups.
  3. CO3: Analyze genetic principles and techniques used in plant breeding, genetic modification, and biotechnology applications.
  4. CO4: Evaluate ecological principles and their application in plant conservation, biodiversity assessment, and ecosystem management.
  5. CO5: Demonstrate proficiency in molecular biology techniques, including DNA extraction, PCR, and gene cloning, and their applications in plant science.
Program Specific Outcomes (PSOs)
  1. PSO1: Develop specialized knowledge and skills in key areas of botany, such as plant pathology, medicinal plants, and plant biotechnology.
  2. PSO2: Apply botanical knowledge in various industries, including agriculture, horticulture, pharmaceuticals, and environmental management.
  3. PSO3: Acquire hands-on experience in fieldwork and laboratory techniques, preparing students for professional roles in research and industry.
  4. PSO4: Integrate knowledge from related disciplines such as microbiology, biotechnology, and environmental science to address complex biological problems.
Program Educational Objectives (PEOs)
  1. PEO1: Equip graduates with advanced knowledge and skills in plant sciences to pursue successful careers in academia, research, and industry.
  2. PEO2: Foster a spirit of inquiry and innovation, encouraging graduates to engage in cutting-edge research and contribute to advancements in botanical sciences.
  3. PEO3: Prepare graduates for leadership roles in scientific, educational, and environmental organizations by developing their professional and interpersonal skills.
  4. PEO4: Promote a culture of lifelong learning and continuous professional development, enabling graduates to stay current with emerging trends and technologies in botany.

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  • Amar Shaheed Kanchan Singh Autonomous P.G. College
  • Shivpuri, Fatehpur (U.P)- 212656, (College Code -02003)

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