A Master of Science (M.Sc) in Mathematics is a postgraduate academic degree that focuses on advanced studies in various areas of mathematics. It is designed to provide students with a deeper understanding of mathematical theories, concepts, and techniques and to equip them with the skills necessary for both academic and practical applications of mathematics.

The structure of the program may vary from one institution to another but generally, it spans over two years of full-time study. The course typically consists of a combination of core subjects, electives and a research project or thesis. The core subjects may include subjects like Real Analysis, Complex Analysis, Algebra, Differential Equations and Probability Theory. 

These topics allow students to specialise in specific areas of mathematics based on their interests and career goals. Moreover, electives included in the course curriculum of M.Sc Mathematics include topics like Topology, Number Theory, Functional Analysis, Numerical Analysis, Mathematical Logic and Mathematical Physics. 

An M.Sc in Mathematics opens doors to a variety of career paths. Graduates can pursue careers in academia as researchers or professors, and work in industries like finance, data analysis, cryptography, software development and so forth. The program equips students with strong analytical and problem-solving skills, making them valuable assets in many sectors. 

Overall, an M.Sc in Mathematics offers a rigorous academic experience for those who are passionate about mathematics and its applications. It provides students with the opportunity to explore advanced topics, engage in research and prepare for careers in academia, industry and beyond.

The core subjects typically covered in an M.Sc in Mathematics program include:

• Real Analysis
• Complex Analysis
• Algebra
• Differential Equations 
• Probability and Statistics 
• Numerical Analysis
• Topology  
• Functional Analysis
• Number Theory 
• Mathematical Logic 
• Geometry 
• Applied Mathematics 

Additionally, these subjects form the core foundation of an M.Sc in Mathematics program, providing students with a broad understanding of mathematical theories and applications. 

Practical learning in an M.Sc in Mathematics program goes beyond theoretical concepts and involves applying mathematical techniques to real-world problems. Here's how practical learning is integrated into the program: 

• Problem Solving
• Computational Skills
• Mathematical Modelling
• Data Analysis
• Lab Work
• Case Studies 
• Research Projects
• Industry Collaborations
• Internships and Practicums
• Software Tools 

Moreover, this course equips students with skills that are valuable in various industries, research settings and problem-solving scenarios, making them well-prepared for diverse career paths after completing their M.Sc in Mathematics.

The course curriculum of an M.Sc in Mathematics can vary between institutions, but here's a general outline of the topics you might encounter during your studies: 

Furthermore, the course curriculum may include advanced subjects semester-wise depending on the institutions.

Here are some of the top institutes in India known for their M.Sc programs in Mathematics:

• Indian Statistical Institute (ISI), Kolkata
• Chennai Mathematical Institute (CMI), Chennai
• University of Delhi, Delhi
• Indian Institute of Technology (IIT) Bombay
• Indian Institute of Technology (IIT) Delhi
• Indian Institute of Technology (IIT) Kanpur
• Indian Institute of Technology (IIT) Madras
• Indian Institute of Technology (IIT) Kharagpur
• Indian Institute of Technology (IIT) Guwahati
• University of Hyderabad, Hyderabad
• Jawaharlal Nehru University (JNU), New Delhi
• St. Stephen's College, Delhi University

Additionally, consider factors such as location, availability of scholarships and the overall environment that aligns with your academic and personal preferences.

The career growth trajectory for individuals with an M.Sc in Mathematics can be quite promising, especially due to the versatile skills they acquire during their studies. Here's how career growth can unfold for M.Sc in Mathematics graduates:

• Entry-Level Positions
• Skill Development 
• Specialisation(in the field of finance, crypto, banking) 
• Advanced Roles
• Management Roles
• Industry Recognition
• Entrepreneurship
• Consulting 
• Academic Advancement
• Research and Innovation
• Global Opportunities
• Continuous Learning

Ultimately, the career growth of an M.Sc in Mathematics graduate is determined by their dedication, continuous learning, adaptability and ability to apply mathematical skills to real-world challenges. 

The scope of an M.Sc in Mathematics is broad and diverse, offering a range of career opportunities across various industries. Graduates with an M.Sc in Mathematics possess strong analytical, problem-solving and quantitative skills, making them valuable assets in today's data-driven world. Here are some areas where individuals with an M.Sc in Mathematics can find promising career prospects:

• Academia and Research 
• Data Science and Analytics 
• Financial Services 
• Technology and Software Development 
• Operations Research 
• Actuarial Science 
• Consulting 
• Healthcare and Pharmaceuticals 
• Energy and Engineering 
• Market Research and Market Analysis 
• Government and Public Policy 
• Aerospace and Defense 
• Education and Outreach 
• Entrepreneurship 

The versatility of an M.Sc in Mathematics allows graduates to adapt their skills to various industries, ensuring a wide range of career opportunities and growth prospects. 

Pros of Pursuing a Master of Science [M.Sc] (Mathematics):

• Specialisation
• Skill Development
• Research Opportunities
• Academic Career
• Diverse Career Paths
• Intellectual Stimulation 

Cons of Pursuing a Master of Science [M.Sc] (Mathematics):

• Rigorous Curriculum
• Competitive Admissions
• Time-Consuming
• Career Choices
• Financial Considerations 
• Limited Practical Exposure
• Job Market Dynamics