Master of Applied Project Management (Project Systems)
The Master of Applied Project Management (Project Systems) program at ...
North Terrace campus
INTAKE: Jul & Feb
The Bachelor of Mathematical Sciences (Advanced) program at the University of Adelaide is an intensive undergraduate program designed for students with a strong aptitude for mathematics and a keen interest in pursuing advanced studies in the field. This program offers an enriched curriculum that covers a wide range of mathematical topics, including pure mathematics, applied mathematics, statistics, and computational mathematics. With a focus on both theoretical and practical aspects of mathematics, the Bachelor of Mathematical Sciences (Advanced) program provides students with a solid foundation for further studies or careers in fields such as research, academia, industry, and technology.
Curriculum: The curriculum of the Bachelor of Mathematical Sciences (Advanced) program at the University of Adelaide is rigorous and challenging, offering students the opportunity to delve deeper into advanced mathematical concepts and techniques. In addition to core courses in calculus, algebra, analysis, and probability theory, students take advanced elective courses in areas such as differential equations, mathematical modeling, optimization, data science, and cryptography. The program also incorporates practical components such as computer programming, mathematical software, and research projects, allowing students to apply their mathematical skills to solve real-world problems and explore new areas of inquiry.
Research Focus: Research is a central component of the Bachelor of Mathematical Sciences (Advanced) program at the University of Adelaide. Students have the opportunity to engage in research projects under the supervision of faculty members who are experts in their respective fields of mathematics. Whether it's conducting independent research, collaborating on group projects, or participating in research seminars and conferences, students develop research skills and critical thinking abilities that are essential for advancing knowledge in mathematics and contributing to cutting-edge research in the field.
Industry Engagement: The Bachelor of Mathematical Sciences (Advanced) program at the University of Adelaide emphasizes industry engagement to ensure that students are prepared for careers in the private and public sectors. Through internships, industry projects, and guest lectures by professionals working in fields such as finance, technology, and data science, students gain practical experience and insights into how advanced mathematics is applied in real-world settings. The program also collaborates with industry partners to provide students with networking opportunities, mentorship, and potential pathways to employment after graduation.
Global Perspective: In an increasingly interconnected world, the Bachelor of Mathematical Sciences (Advanced) program at the University of Adelaide offers students a global perspective on mathematics and its applications. With a diverse student body and opportunities for international study exchanges, students gain exposure to different mathematical traditions, cultural perspectives, and global challenges. This global perspective enhances students' understanding of the universal language of mathematics and prepares them to work as mathematicians and problem solvers in diverse and multicultural environments.
North Terrace campus
IELTS 6.5
AUD 47000
Undergraduate Entry Requirements
Application Fee: AUD $150
Academic Qualifications: Applicants for undergraduate programs typically require a minimum academic achievement of 60% or above in their previous academic qualifications.
English Language Proficiency:
Students must provide:
It's important to note that entry requirements can vary by program and may change over time. Additionally, some programs may have additional requirements, such as interviews, portfolios, or work experience.
The University of Adelaide takes great pride in its promoting diversity and attracting the best and brightest minds from around the globe. To facilitate this, the university offers a wide array of scholarships designed to assist international students in their academic endeavors.
Adelaide Scholarships International (ASI): The Adelaide Scholarships International program is a prestigious scheme that provides full tuition fees, an annual living allowance, and health insurance to high-achieving international postgraduate students. These scholarships are merit-based and are highly competitive, supporting the most outstanding scholars.
Vice-Chancellor's International Excellence Scholarships: This scholarship program is designed to recognize exceptional academic achievements and leadership potential. It provides a tuition fee waiver of up to 30% for undergraduate and postgraduate coursework students. Recipients of these scholarships become ambassadors for the university's commitment to academic excellence.
Adelaide Global Excellence Scholarships: The Adelaide Global Excellence Scholarships target high-performing undergraduate and postgraduate coursework students. They offer a 15% reduction in tuition fees for the duration of the program, making quality education more accessible to international students pursuing excellence.
Higher Degree by Research Scholarships: International students seeking to embark on a research journey at the University of Adelaide can apply for Higher Degree by Research (HDR) Scholarships. These scholarships provide financial support, including tuition fee waivers and living allowances, allowing research students to focus on their academic pursuits.
Sponsored Scholarships and External Funding: The university actively collaborates with governments, organizations, and industry partners to provide sponsored scholarships and external funding opportunities for international students. These partnerships offer additional avenues for students to secure financial support for their studies.
Graduates of the Bachelor of Mathematical Sciences (Advanced) program at the University of Adelaide possess advanced mathematical skills and analytical abilities, making them highly sought after in a variety of industries. With their specialized knowledge and research experience, graduates can pursue diverse and rewarding career opportunities.
Research Scientist/Mathematician: Many graduates choose to work as research scientists or mathematicians, conducting original research in fields such as pure mathematics, applied mathematics, statistics, or computational mathematics. They work in research institutions, universities, government agencies, or private companies, exploring new mathematical concepts, developing mathematical models, and solving complex problems in areas such as physics, engineering, finance, and biology.
Data Scientist/Statistician: Graduates may work as data scientists or statisticians for organizations in sectors such as finance, technology, healthcare, and e-commerce. They analyze large datasets, develop statistical models, and use machine learning algorithms to extract insights, identify patterns, and make data-driven decisions that drive business innovation and growth.
Quantitative Analyst/Financial Engineer: Some graduates pursue careers as quantitative analysts or financial engineers for hedge funds, investment banks, or trading firms. They develop quantitative models, algorithms, and trading strategies to analyze financial markets, assess investment risks, and optimize trading operations, contributing to the profitability and competitiveness of financial institutions.
Software Developer/Computer Programmer: With their strong mathematical and computational skills, graduates may work as software developers or computer programmers, designing and developing software applications, algorithms, and simulations for companies in industries such as technology, gaming, aerospace, and telecommunications.
Operations Research Analyst: Graduates can work as operations research analysts for organizations seeking to optimize processes, improve efficiency, and reduce costs. They use mathematical modeling and optimization techniques to solve complex problems in areas such as supply chain management, logistics, transportation, and manufacturing, helping organizations make data-driven decisions and achieve operational excellence.
Actuary/Financial Analyst: With their expertise in probability theory and risk analysis, graduates may pursue careers as actuaries or financial analysts for insurance companies, banks, investment firms, or consulting firms. They assess financial risks, develop pricing models, and provide strategic advice to help organizations manage risk, maximize returns, and achieve financial stability.
Mathematics Educator/Teacher: Some graduates may choose to work as mathematics educators or teachers in schools, colleges, or universities. They teach advanced mathematics courses, mentor students, and inspire the next generation of mathematicians and problem solvers, fostering a passion for mathematics and promoting excellence in mathematical education.
Consultant/Analyst: Graduates can work as consultants or analysts for consulting firms, providing expertise in areas such as operations research, data analysis, risk management, or business strategy. They use their advanced mathematical skills to solve complex problems and provide strategic advice to clients in various industries, helping them optimize performance and achieve their business objectives.