Sending school projects into space

Quberider, a Sydney based startup looks to make space projects accessible to school students

“We’ve been completely blown away,” says Quberider founder Solange Cunin about the interest in the startup that looks to put science experiments into space.

The company that was established by Cunin, a fifth year aeronautical engineering student, and her co-founder Sebastian Chaoui in early 2015 to provide school students with the opportunity to conduct experiments in space.

“Quebrider is a company that focuses on teaching core STEM skills that the current curriculum doesn’t focus on,” Cunin explained about the company. “Things like coding, data analysis and problem solving – all of those things industry needs. We do that in the context of students building their own space mission.”

The Quberider package starts starts at a cost of $5000 and includes a type of nanosatellite called a cubesat – a cube the size of a large coffee mug that contains ten sensors – along with teaching resources and a slot on one of the International space station launches. The program runs for three terms and integrates into the New South Wales high school science curriculum.

“Students end up creating their own software experiments and they sent it up on their own space mission,” explains Cunin. “They get that big bang and their own awesome feeling of being on something big and hopefully that gets them motivated to be involved in science a tech.”

In all, forty NSW high schools have prepared 60 projects ranging from one using the gathered information to create ‘space music’ through to an experiment measuring Einstein’s theory of relativity and time dilation to on the initial launch scheduled for the end of the month.

“Because it’s space it captures their imagination,” Cunin says of the program designed for years 9 and 10 students (14 and 15 year olds) but they have participants ranging from year 5 up to undergraduate level.

“We’re solving such an important pain point for many different people – getting students involved is a big problem for teachers and education and skills are a big problem for industry,” Cunin says.

The project developed out of Cunin and Chaoui’s joint passion for space projects and they came together when working as interns at another space startup.

While they are looking at a small amount of seed funding later this year, most of the startup’s capital has come from program fees and the support of the University of New South Wales where Cunin is a student and the University of Technology Sydney where Chaou studies. Quebrider is also part of Telstra’s Muru-D startup incubator program.

“We’re quite aware we have a lot to learn,” says Cunin about the Muru-D program. “Signing up to this with a good mentor program is important. The big value for us is the mentorship, we meet our advisory board once a fortnight and they’ve become part of the family.”

Ultimately Solange Cunin would like to see their program spread across the country. “What I’d really love to see is nationwide every single student that goes through year nine or ten has a space mission. They get to be part of something bigger and that inspires them and shows that science isn’t something nerdy and is cool.”

As the price of loading payloads onto satellites falls, it’s almost certain these experiments will become more accessible for schools and students.

Similar posts:

  • No Related Posts

Stemming the Innovation drought 

Science, Technology, Engineering and Mathematics studies are essential to the future economy a PwC study shows.

When discussing how industries are changing, the constant question is ‘what will happen to today’s jobs?’

Even in the Future Proofing Your Business webinar earlier this week this question was asked by a number of the small business owning listeners.

That concern forms the basis of the “A smart move: Future-proofing Australia’s workforce by growing skills in science, technology, engineering and maths” report released by accounting firm PwC yesterday in Sydney.

PwC’s report warns 44 per cent of current Australian jobs are at high risk of being affected by computerisation and technology over the next 20 years.

The report highlights that Science, Technology, Engineering and Maths (STEM) subjects are critical in the jobs that are going to benefit, or be created, by that technological change.

Finding the right courses

Sadly for Australia, and most of the western world, STEM courses are deeply out of fashion with students preferring to study in business related courses such as accounting, commerce and law.

As PwC flag, those industries are at risk with accounting at the top of the list for job losses.

Australian-industries-expected-to-be-disrupted-pwc

On the other hand, PwC forecasts professions in health, education, personal care and – worryingly – public relations will be in increased demand. Something that may underestimate the effects of technology on those industries.

Competing with STEM

PwC’s main contention is that economies which want to compete in the new economy are going to need more STEM graduates.

The shift to STEM education is something the OECD highlighted in its recent report, OECD report How is the Global Talent Pool Changing?

In their report the organisation forecast that the number of students studying around the world would increase from 130 million today to 300 million by  2030 with all of that growth being in Chinese and Indian STEM courses.

Already that science and engineering emphasis is clear in today’s numbers.

OECD-graduates-by-field-of-education

To counter the drift away from STEM courses among students, PwC suggests a campaign to engage young people while they are still at junior school.

The Australian conundrum

Sadly, that’s unlikely to work in Australia given the nation’s economy is built upon property speculation driven by the wealth effect of rising real estate prices.

Two nights before the PwC report one of the highest rating shows on Australian television came to its 2015 finale. The Block, which features couples renovating and flipping properties, finished its season the apartments being sold at auction at record prices and the contestants pocketing between 600 and 800,000 dollars for a few month’s work.

For young Australians the message from their parents and society is clear; don’t innovate, don’t create, just buy as much property as you can afford.

In the US on the other hand, the business heroes are the builders of new enterprises; people like Steve Jobs, Elon Musk, Bill Gates, Mark Zuckerberg and the founders of Google.

Other countries like Israel, India and China, are aspiring to be the next generation of tech leaders. That’s what’s necessary to build a dynamic economy.

Creating enduring jobs

As the PwC report claims, “the jobs most likely to endure over the next couple of decades are ones that require high levels of social intelligence, technical ability and creative intelligence”

Harnessing that combination of social, creative and technical intelligence is going to be one of the challenges for all economies in a decade of change.

Getting the supply of STEM skills right will be essential for success for all countries at a time when digital technologies will drive most industries.

Similar posts: