Changing Africa, one equation at a time: Maths and science the keys to unlocking continent’s greatness

Nathan Wangusi, Ph.D, a Research Engineer at IBM Research Africa's lab in Nairobi, Kenya. From big data to artificial intelligence and smart cities, the gears of prosperity are increasingly powered by mathematical algorithms. (Photo/ IBM Research).

By Neil Turok –

Next week on March 8, more than 500 bright scientific minds and international leaders will gather in Senegal for the inaugural Next Einstein Forum, organised by the  African Institute for Mathematical Sciences (AIMS). The three-day summit will highlight emerging scientific and technical talent in Africa and elsewhere, and fuel collaboration which puts this talent to work in the cause of human development.

The summit’s theme is “Connecting Science to Humanity”. It will be an occasion for the most enlightened African and international scientists and leaders to strengthen their commitment to helping young people help Africa.

The continent admittedly has deep-rooted problems, including poverty, corruption and war. Could these be tackled through mathematical science, as the Forum envisions?

The long view

Such a proposal might sound unnecessary while so many people still lack basic necessities like food, clean water and medicine. In the long view of history, however, mathematics and science have served as the foundation of modern society because they underlie every technology – from plumbing to telecommunications, medicine to satellites.

But the continent has another problem. It is largely a consumer rather than a producer of the technologies it needs. If this doesn’t change, Africa will remain dependent and subject to outside control, its economies dominated by others’ exploitation of its resources.

Computers, mobile communications, and medical technologies are the modern engines of commerce, prosperity and public health. Africa will remain sidelined in these areas unless it nurtures its own experts, pioneers, and innovators.

This is the motivation behind AIMS, a network of training centres across the continent created to empower brilliant young Africans to become agents of change through advanced maths and science.

Our slogan – that the next Einstein should be African – is a signal of how high we are aiming.

It is not an easy task. As a native South African, I have travelled widely in many parts of the continent. Across Africa, maths is often viewed as an ivory tower pursuit, an impractical study with little connection to the real world. University maths departments are often the shabbiest on campus.

Rote learning

Many students only take the subject as a second choice. From primary school onwards, maths is all too often taught by rote learning and memorisation. But it is critical analysis, independent thinking and creativity that are the real keys to maths and science excellence.

These attitudes linger even beyond school and university. Elsewhere in the world, the most successful companies – Google and Facebook, for example – recruit top maths graduates straight out of university to write the complex codes that define our experience of the digital world. From big data to artificial intelligence to intelligent cities and communities, the gears of prosperity are increasingly powered by mathematical algorithms.

AIMS is a pan-African initiative. There are five centres so far, in Senegal, Cameroon, Ghana, Tanzania and South Africa. Ten more are planned over the next decade, creating a powerful network that will span the continent.

Every centre has a fantastic, highly motivated, pan-African student body. AIMS’ classes are incredibly diverse – a mosaic of languages, ethnicities, languages and religions. More than 30% of the students are women.

Through their common interest in maths, science and the future of Africa, the students are able to transcend the cultural and other differences that have historically divided them.

Magnet for return

Over the past decade, AIMS has graduated a thousand students at Masters and PhD level. But its centres don’t just train brilliant young Africans in Africa. They also serve as a magnet attracting those who have studied abroad back to Africa, to work as scientific researchers.

Wilfred Ndifon from Cameroon is one: he took his PhD at Princeton but has returned to AIMS as a junior research chair. Wilfred has just solved a 70-year-old immunological puzzle called original antigenic sin, which has implications for improving vaccines.

AIMS also brings top international scientists to Africa to share and propagate their knowledge. This international reach is important, because the whole globe has a stake in Africa’s future.

Our globalised, interconnected world means that Africa’s challenges – whether migration or diseases like Zika or Chikungunya or terrorism – quickly become challenges to all. These problems will only worsen with climate change, population growth, unemployment and insecurity unless Africans are encouraged and empowered to improve their countries’ conditions.

The problems facing Africa are complex and there are no easy answers. But one of the lessons we’ve learned in science is that the hardest problems are the ones that eventually yield the most important – and the most wonderful – solutions.

– Neil Turok is the Director and Niels Bohr Chair, Perimeter Institute for Theoretical Physics

Source: Mail & Guardian Africa


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