Justin Tomlinson
Main Page: Justin Tomlinson (Conservative - North Swindon)Department Debates - View all Justin Tomlinson's debates with the Department for Education
(11 years, 7 months ago)
Commons ChamberI thank my hon. Friend for that contribution and welcome the bringing of her direct experience of computer programming to this debate. She is absolutely right. I shall explain in the remainder of my speech the wide range of issues that need to be addressed if we are to overcome this disparity. We really need a positive approach and champions for it across the whole of government.
When I started my degree, 12% of my fellow electrical engineering students were women. That was almost 30 years ago. It sounds like a very long time, and it is indeed depressingly long. The most depressing thing of all, however, is that although women now make up 43% of GPs, 41% of solicitors and even 22% of Members of Parliament—a third in the Labour party, I should add—the proportion of female engineering students has not increased at all. That is scandalous. In computer science, as my hon. Friend the Member for Feltham and Heston (Seema Malhotra) may well know, the figures are getting worse. The proportion of computing A-levels taken by women went down from 12% in 2004 to 8% in 2011. There is only one girl for every 11 boys in the average UK A-level computing class. We should imagine how it feels to be that girl.
I congratulate the hon. Lady on securing a debate on this incredibly important subject. In the specific part of the video games industry, only 17% of staff are females and the industry is crying out for more. What we really need is role models to inspire the next generation and address that imbalance.
I thank the hon. Gentleman for that contribution. It is certainly the case that the video games industry is a modern one; one would hope that it would be reflective of society, including those who play games, but it is not. I shall show a little later that the figures I have for females in the video games industry are even worse than the hon. Gentleman’s 17%.
At the same time, half of the UK’s co-educational state schools send no girls at all to sit A-level physics. In 2012, 2,400 female students from the UK went on to full-time undergraduate computer courses, as opposed to over 15,000 men. Between 2001 and 2011, the percentage of technology jobs held by women declined from 22% to 17%. My figures show that only 6% of those who work in ICT in the UK games industry are women, despite the fact that they make up 50% of those who play the games.
I am grateful to the hon. Member for Newcastle upon Tyne Central (Chi Onwurah) for raising this important subject and respect her experience in the sector. It is a crucial area for the economy, and one where we need to increase the number of people, particularly women, who have relevant IT skills.
Earlier today I attended a “hackathon” event at Facebook headquarters, where 80 talented young coders from around the world were developing applications for social learning, and I am pleased to say that there was a good representation of young women there. Organisations such as Facebook are doing an enormous amount of good work with schools to inspire young people to take up careers in IT, but let us be honest: we have a long-standing problem with computer science in this country and with the number of women studying it.
As the hon. Lady will be aware, under the previous Government the proportion of women taking computing A-levels fell from 12% to 8% as a proportion between 2004 and 2011. The current situation is indeed poor. For A-level computer studies in 2012, only 255 of the 3,420 entrants—just 7.5%—were girls, which represents a decline of three quarters over the past 10 years. There is a similar problem with physics, as 6,500 girls took physics A-level in 2012, which is only 21% of the total cohort, and the situation has remained static over the past 10 years. The number of girls studying maths A-level has doubled over the past 10 years, but the situation is not as positive for further maths, which is very important for STEM subjects at university. Some 3,700 girls took further maths in 2012, which is only 30% of the cohort.
As the hon. Lady pointed out, the situation is very different in other countries, particularly emerging economies, which have seen their share of women studying computer science and engineering increase drastically. In India the proportion of female undergraduates has doubled, and in Malaysia technical jobs are dominated by women. As she pointed out, 26 April is international girls in ICT day, which is very important. The Government think that the situation has to change.
A lot has changed in IT since I used to program BASIC at school in the 1990s. There has been a technology revolution. Technology affects every area of our lives and so many different jobs. It has changed the way we do politics and business and so many things about how we deliver public services. A sound knowledge of how ICT works and of the underlying architecture of computing is important for everybody, whether they are looking to get into motor manufacturing, politics or any area of commerce. It is a universal skill that we all need, and all young people will need it. It is a very important part of our curriculum developments. That is why we are reforming the ICT curriculum. We disapplied the existing curriculum because it was not fit for purpose.
That is an incredibly important point, because when I visit representatives of the UK games industry, they say time and again that graduates simply are not equipped with the necessary skills and almost have to start again, and that more often than not it is easier to import labour from abroad, which is creating further barriers to females and males in this country who could play an important part in this growing economy.
I thank my hon. Friend for that point and agree with it. Our new computing curriculum is very different, because it is not just about how to use the software and programmes, but about getting young people coding from a very early age and understanding the architecture of computing.