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10 June 2021 | Story Dr Cindé Greyling | Photo Supplied
A brand-new modular space for students was recently completed on the University of the Free State Bloemfontein Campus. The Modular Lecturing Space and Assessment Centre is a bold step to engage with the changing academic environment. It is an example of how collaboration between UFS faculties, the Centre for Teaching and Learning, ICT Services, and University Estates can create cutting-edge and innovative learning and teaching environments.

One space, many functions

The centre, which took 22 months to complete, consists of innovative multi-functional spaces that can be used for large- and small-scale lectures or group work. The biggest venue, which can accommodate up to 980 students, can also be converted into five acoustically separate venues with a variety of table configurations depending on the educational needs. 

In line with the newly adopted blended learning approach, the digital infrastructure in the centre allows for the seamless integration of technology, as all the spaces are equipped with state-of-the-art audio-visual equipment. The computer laboratory and assessment centre, which can accommodate 800 students, can be used for examination or teaching and can be divided into two separate areas if needed. 

Functional study stops 

The centre offers an area where students can pause and study in groups around tables with a laptop-friendly study ledge that runs along the length of the space. Sufficient power points allow students to recharge their devices in an aesthetically pleasing space that promotes optimal engagement with learning. 

The design brief for this multifunctional space was a collaborative effort between professionals and UFS departments to ensure the most efficient use of space and purpose. The overall focus was on effectiveness and efficiency, which is part of University Estates’ strategy to maximise the use of space.

More to this than meets the eye

The building integrates into its environment with waterwise gardens and numerous indigenous trees planted around the permanent outdoor seating, which can also be used as informal learning spaces. The landscaping is seamlessly accessible with ramps and tactile paving. 

Modern, fully inclusive ablution facilities can accommodate high volumes of traffic, and rainwater is collected in 44 tanks with a capacity of 79 000 litres for watering the landscape, as well as emergency water supply to flush water closets. Heat pump air-conditioning systems with individual control for each room are connected to the campus building management system for effective energy control. 

Further expansion

Phase 2 of the project will entail a 24/7 study space that will accommodate 250 students. The venue will also provide a small recreation area. Completion is scheduled for December 2021.

Although the project team was faced with COVID-19 restrictions during construction, they managed to complete the building within the agreed budget and quality measures. The team is looking forward to creating more functional spaces on the UFS campuses. 

Take a tour of the new Modular Lecturing Space and Assessment Centre Building:

News Archive

Discovery in Scorpius constellation may signify clean energy for Earth
2017-01-23

 Description: Discovery in Scorpius constellation may signify clean energy for Earth Tags: Discovery in Scorpius constellation may signify clean energy for Earth

Earlier this year, a group of international astronomers
announced the discovery of an exotic binary star system,
AR Scorpii. The system is in the Scorpius constellation.
Photos: Supplied

See article on Nature’s website 

In future, stargazers and astronomers will look at the Scorpius constellation near the Milky Way with new eyes. Earlier this year, a group of international astronomers announced the discovery of an exotic binary star system, AR Scorpii. The system is in the Scorpius constellation.

Prof Pieter Meintjes, researcher in the Department of Physics at the University of the Free State (UFS), worked with four colleagues on what he describes as a “wonderful discovery”. This sensational discovery, which could lead to the production of cleaner energy on Earth, will be published in the research journal, Nature, early in 2017.

Model developed to interpret new set of measurements
The exotic binary star which was discovered consists of a red dwarf and a white dwarf revolving around each other every 3,5 hours. The binary system showed very prominent pulsations of 117 and 118 seconds respectively. The pulsations can be explained by a bundle radiation produced by the white dwarf star.

“These new observations have shown that the radiation is strongly polarised, a sign that we are dealing with synchrotron radiation here. Synchrotron radiation is produced by electrons accelerated to extremely high energy levels in the magnetic field of the white dwarf star,” says Prof Meintjes.

He developed a theoretical model to interpret a new set of measurements that was taken by the 1,9 m telescope and the 10 m SALT telescope at the South African Astronomical Observatory (SAA0).

Totally unique phenomenon could contribute to energy production on Earth
“I further indicated that the interaction between the magnetic fields of the white dwarf star and the red dwarf star induces secondary processes that specifically describe the behaviour of the radiation in the radio band and infrared band accurately. AR Sco is the first white-red dwarf binary system of which all the pulsated radiation could be explained by the synchrotron process, which is totally unique,” says Prof Meintjes.

According to Prof Meintjes, the value of the model lies in the fact that the processes which produce the radiation in AR Sco, can also be applied to produce energy on Earth.

 

Plasma reactors are based on roughly the same processes which apply in AR Sco, and with refining, it could be utilised to generate electricity in future. This will be much cleaner than nuclear energy.

 

The model developed by Prof Meintjes explains all the radiation in the system – from radio waves to X-rays – in terms of electrons accelerated to extremely high energy levels by electric fields in the system, which then produce synchrotron radiation over a very wide band of the electromagnetic spectrum.

Prof Meintjes is currently working on a follow-up article examining the evolution of the AR Sco, in other words, the origin of such a unique system and the final state towards which it is evolving. “My vision for the immediate future is therefore to develop a model for the evolution of the source concerned,” he says.

 

 

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