Coding for future employment – Celebrating teachers as the change makers

young girl holding hands looking up smiling at a woman

It can be difficult for educators to remain motivated in the current age. The world is transitioning into the Fourth Industrial Revolution, and with this comes the tension between teaching what is advised in the national curriculum, and feeling compelled to introduce learners to the digital future.

Educators from across the Middle East and Africa region agree that the integration of technology into set work can make the teaching experience easier and more interactive, however, infrastructural and socio-economic challenges continue to hinder this process.

Similarly, these teachers believe that current education curricula across the region do not make provision for Information and Communication Technology (ICT)-related teachings.

Studies around the world predict a future where new jobs will almost certainly contain something related to Science, Technology, Engineering and Mathematics (STEM). Today, technology jobs make up 50 percent of the workforce. This number will grow to 77 percent in the next decade.

In addition, McKinsey & Co estimates that by 2030 up to 375 million people will need to switch from the work they are doing today. And it’s predicted that 65 percent of school pupils will move into careers that don’t exist yet.

As part of Microsoft’s Computer Science Education Week efforts to promote the importance of coding and technology in education, we spoke to a few teachers from across the Middle East and Africa region to uncover some of the challenges they experience:

Phuti Ragophala, former principal of Pula Madibogo Primary School in South Africa, says the country’s school curriculum is still far from preparing learners for careers of the future. “It speaks very little to nothing about coding, web design, programming or technology engineering. There is no free Wi-Fi in schools, let alone using a laptop as a teacher or as learners. We still have many teachers and learners with zero knowledge about basic computing skills.”

According to Bayla Khalid, Elementary School Teacher at Sidi Abdelkarim Primary School in Settat City, Morocco, there is not enough urgency to introduce 21st century skills into the Moroccan education system. “When I attended the Microsoft Education Exchange event in Singapore and met teachers and experts from all over the globe, I realised that the future job market doesn’t need students filled by knowledge, but rather by skills,” he says. “It is time for problem-based learning and project-based learning curricula. The curriculum should include coding and digital literacy from primary school level, and should reflect the needs of the community as well as the modern world.”

Adds Wejdan Mihi, English Teacher at Marran Elementary and Intermediate School in Saudi Arabia, “Students need technical discipline, teamwork competencies, communication skills, leadership skills, problem-solving competencies and managerial abilities. Our curriculum should therefore be expanded to include coding subjects and technology classes, because these subjects train learners on those competencies – which all employers expect graduates of today to have.”

Taking upon themselves

To demonstrate the impact of computer science on future job prospects and economic growth, teachers throughout the Middle East and Africa have begun integrating technology into their everyday teaching methods. This assists learners in gaining a basic understanding of what the digital future holds, brings computer science education to students in the absence of adequate provision being made in national curricula and illustrates how coding is just a reality of life today.

Says Ilker GÖler, Information Technology and Software Teacher at Tekirdag AKA College in Turkey, “The national curriculum in Turkey for the Information Technology branch is out of date, and I believe it doesn’t add much value to the students. That is why I make my curriculum flexible and in line with today’s technologies. For example, I teach coding, robotics, 3D Design, etc.”

Bayla says technology motivates him to better assist learners. “I try often to create my own teaching tools that suit my pupils’ needs better, like digital lessons/quizzes, videos and even mobile applications. I also keep looking for, and innovating, new teaching methods to use in my classroom. That always keeps me motivated,” he says.

Adds Charmaine Roynon of Edupaths SA in South Africa: “I work with teachers in many schools across SA to empower them to instil collaboration, skilled communication, Information and Communication Technology use, innovation, self-regulation and other skills in their learners. Sadly, many teachers still use the ‘talk and chalk’ way of teaching, and do not understand the pedagogy of relevant and deep learning. Professional development around problem-based learning and integration of Information and Communication Technology is necessary because it will empower teachers to [train their students in those skills].”

Israeli private school Beta School, teaches coding to kids from the fourth grade. According to Karina Batat, ICT Coordinator and Instructor at the school, “We work collaboratively with Office 365, which allows our learners to express themselves and communicate via Skype around the world. We also use Minecraft and MakeCode to offer the kids experience, creativity and help them prepare for life after school through critical thinking and problem solving.”

Paula Barnard-Ashton, Lecturer at the School of Therapeutic Science in South Africa uses Sway for student projects, OneNote for work-based learning portfolios and postgraduate course collaboration tasks, Flipgrid and Teams for professional development groups and staff administration groups.

Bringing it home

Many of the teachers to whom Microsoft spoke agreed that a key demotivator to their daily duties is when students appear uninterested in course work, or would rather say no to attempting to learn something new before they even try.

But, as motivated and passionate educators, these and thousands of other teachers across the region are persevering to ensure students learn basic computer science skills across subjects and grade levels in schools, to add value to the lives of the children and adequately prepare for them for the future.

Technology companies like Microsoft recognise their responsibility to partner with the public sector to help our schools close the computer science gap. We believe the real value in learning computer science is not in the act of coding itself, but in building students’ ability to be creative, resilient and collaborative – skills they will need to succeed in the modern workforce.

That is why Microsoft partners with several non-profit organisations across the Middle East and Africa, to bring digital skills and computer science education to young people in the region. On a global level, Microsoft has also been the largest and longest partner to Code.org, to reach more students and teachers, and promote computer science skills worldwide.

In fact, Microsoft recently announced a new multi-million recommitment, over three years, to help Code.org continue to pursue its mission and expand access to computer science for more students.

During Computer Science Education Week 2018, from 3 – 9 December, Microsoft will host Hour of Code events at various locations throughout the Middle East and Africa, to encourage educators and students to interact with coding experts and learn the latest tips and tricks to prepare for the future. During this time, Microsoft’s latest Minecraft tutorial will also be available online and at the events. For communities with little access to the internet, these Hour of Code tutorials are available to download and install for offline use.

To learn more about how education leaders can build teacher, school counsellor and administrator capacity in equitable computer science education, read Microsoft’s Computer Science Professional Development Guide here. Or, to gain more resources to empower you to adequately teach future-ready Science, Technology, Engineering and Mathematics education, follow this link to the Ignite STEM landing page.

Related Posts