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07 September 2018 Photo Stephen Collett
Mathematician makes popular contribution to science Prof Atangana
Prof Atangana is the first African under 40 years of age to be selected as African Academic of Science affiliated in Mathematics. He recently delivered his inaugural lecture and is pictured with Eelco Lukas, Director of the Institute for GroundwaterStudies at the UFS (middle) and Prof Hendri Kroukamp, Acting Vice-Rector: Academic
Prof Abdon Atangana, researcher in the Institute for Groundwater Studies at the University of the Free State (UFS), recently delivered his inaugural lecture on the topic: Understanding God’s Nature with Non-Local Operators.

His research interests are methods and applications of partial and ordinary differential equations, fractional differential equations, perturbation methods, asymptotic methods, iterative methods, and groundwater modelling. Prof Atangana is the founder of the fractional calculus with non-local and non-singular kernels popular in applied mathematics today. He has introduced more than 12 mathematical operators, most of which bear his name (such as the Atangana-Baleanu fractional integral).

He stated: “We will not stop until we change the classical view of doing mathematics. Mathematics is not a subject but a tool given to mankind by God to understand nature. One single mathematical operator cannot portray God’s nature accurately. Therefore the Atangana Baleanu was suggested.”

New weapons

Most physical problems can be expressed in terms of mathematical formulations called differential equations. According to him the differential equation’s aim is to analyse, understand, and predict the future of a physical problem. Prof Atangana introduced the Atangana-Baleanu fractional integral. This brought new weapons into applied mathematics to model complex real-world problems more accurately.

Prof Atangana explained: “The Atangana-Baleanu fractional derivative is able to describe real-world problems with different scales, or problems that change their properties during time and space for instance, the spread of cancer, the flow of water within heterogeneous aquifers, movement of pollution within fractured aquifers, and many others. This crossover behaviour is observed in many empirical systems.”

Sudden change

The Atangana-Baleanu fractional derivative is also able to describe physical or biological phenomena, such as a heart attack, the physiological progression from life to death, structural failure in an aeroplane, and many other physical occurrences with sudden change with no steady state.

The new differential and integral operators are nowadays in fashion and are being applied with great success in many fields to model complex natural phenomena. It is believed that the future of modelling complex real-world problems relies on these non-local operators.

News Archive

New building for Centre for Financial Planning Law
2012-04-23

 

A graphic illustration of the new building for the Centre for Financial Planning Law.
19 April 2012

 

During a recent tree planting ceremony, the Centre for Financial Planning Law in the Faculty of Law officially handed over the site for a new building for the centre. The building should be complete by the end of 2012.

The Centre for Financial Planning Law’s present premises has become too small for the needs of the centre, thus a decision was taken to build a new building.

The centre, which was opened in 2001 with three staff members, grew during the past 11 years to a centre with 13 permanent staff members. Some 1 300 students – 120 undergraduate and 1 200 postgraduate students in the Postgraduate Diploma in Financial Planning Law and the Advanced Postgraduate Diploma in Financial Planning Law respectively – are enrolled at the centre. Undergraduate students attend weekly contact sessions while the postgraduate students all study electronically through distance education.

According to Mr Rudolf Bitzer of Bitzer Design Studio, one of the two architecture firms involved in the development of the building, the new building was planned in order to to make provision for future extensions. “The opportunity for the centre to function independently was important from the beginning and facilities had to be positioned in such a way that the lecture hall and committee room could be hired out commercially when lectures were not being presented.

“The building consists of a large reception venue, which gives access to a lecture hall (which can be subdivided), a committee room, public amenities and a reception counter. The centre will present about ten lectures annually in its own building and the lecture hall can accommodate 80 students. Exams will also be written in the venue,” said Mr Bitzer.

The usable inside area of the building totals 827 square metres.

The staff function in their own section of the building, with the offices arranged around a courtyard. Security access makes it a secure environment. In addition, staff have access to a staff room with a service hatch to the reception room, reception counter, personal assistant’s office, nine individual offices and a large open plan office, a storeroom, a cleaners’ room and facilities for staff.

“With the design, an attempt was made to make the building stand comfortably in the landscape without disappearing into the natural landscape. It is an unpretentious building, which seeks to provide well articulated architecture,” said Mr Bitzer.

The architecture firms involved are Bitzer Design Studio and Roodt Architects.

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