Online Education
Article | July 12, 2022
Those of us who work closely with students with autism know that they can exhibit unique learning characteristics. And in order to best meet students’ needs in the classroom, teachers rely on strategies that are most effective for learners on the spectrum. Through the work of the National Professional Development Center for Autism (NPDC), National Standards Project, and most recently, the National Clearinghouse on Autism Evidence and Practice (NCAEP), we have a clearly identified set of practices that are proven to work best for students with autism.
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Education Technology
Article | August 4, 2022
After almost two years of disruption due to the pandemic, our ongoing recovery has highlighted the value of embracing change and working much more flexibly than before, refusing to give up at the first hurdle and a willingness to work together to achieve a common goal. These transferable skills are becoming ever more important for us to thrive in our increasingly automated world, and they are skills that can be developed and embedded through the medium of mathematics.
Fluency, reasoning, and problem-solving are the three foundations of our mathematics curriculum. By valuing them all, we will ensure that our future workforce has the confidence and skills to work together much more effectively to solve problems, overcome hurdles, and sustain our recovery. Let’s begin with fluency. Although AI is becoming increasingly prevalent, benefiting both our social and working lives, we still need number skills, perhaps now more than ever. Too many high-profile technology projects have failed due to basic mathematical errors. We need our education system to nurture the types of number skills needed in industry, especially a much greater focus on using and applying number skills. We must encourage students to develop their confidence in estimating quantities and a willingness to check calculations, even when they’ve used a spreadsheet or calculator.
From NASA’s disintegrating space probes to trains that don’t fit their platforms and submarines that are just too big, the tech world is littered with avoidable, costly mistakes. Acquiring number fluency means developing a ‘feel’ for numbers so that we can easily spot when something is not quite right; the NASA probe disintegrated due to a simple error converting units, the trains would not fit because no-one checked the platform sizes, and the submarines needed refitting due to an error entering spreadsheet error. Each of those three were incredibly costly, totalling millions, if not billions of pounds, but they were all avoidable too. We must nurture a willingness to estimate and develop a ‘feel’ for numbers, known as ‘number sense,’ alongside the more traditional approach of performing more formal calculations when needed. After all, few people head to the shops armed with a pencil, squared paper, and a ruler in readiness to calculate their change at the cash register.
We need to value number sense and rethink our expectations of the primary curriculum.
Encouraging a different approach towards the teaching and learning of mathematics may also help to address the gender imbalance in the subject. If you filled a room with a hundred math professors, the chances are that less than ten would be female. However, female mathematicians have played key roles in the fight against COVID. Mathematical modellers such as Professor Julia Gog, based at the University of Cambridge, drew on her research as an adviser to the government’s SAGE committee.
Nevertheless, even though more students study A-Level mathematics than any other subject, few female students choose to apply to study mathematics at university. My own research with female A-Level candidates reveals their preference for careers which help others and contribute towards a better society.
However, they often do not appreciate how studying mathematics might help them to realise their dreams by helping thousands, if not millions, of others through research on climate change, medicine, and networks.
We know that the gender gap in mathematical performance starts at a young age, and researchers have suggested that the changing expectations in the curriculum as students progress through their schooling might dissuade girls from continuing to study mathematics at a higher level. At primary school, pupils are expected to master written calculations such as long division and long multiplication to achieve ‘age-related expectations.’ However, to progress further, they also need to be able to solve problems, and this seems to be the point where female students lose out.
It has been argued that the switch from being rewarded for learning procedures to solving problems favours boys over girls, and the persistent gender gap in results for higher-achieving primary pupils appears to add weight to that argument. Effort are being made to encourage more females to consider studying mathematics, including the Maths 4 Girls project which organises school visits from female role models and the careers arm of the Institute of Mathematics and its Applications which organises poster competitions to encourage more school students to think carefully about studying mathematics, both projects which I support. Yet more needs to be done.
Our curriculum and assessment system are designed to value number sense, estimating and problem-solving skills and perhaps rethink the time schools devote to rehearsing written calculations. Otherwise, we risk overlooking the huge potential of our current female students to contribute and build on the work of their predecessors, including Florence Nightingale, Mary Boole, Ada Lovelace, and Julia Gog, among many others.
To continue our recovery from COVID and rebuild our economy, we must embrace the potential of mathematics for developing and embedding the skills and attitudes that our students will need to thrive in their increasingly automated world: a willingness to "play" with numbers, estimate and check their answers; an enthusiasm for solving problems and working together; and an understanding that it’s OK to get stuck sometimes. We can overcome the hurdles that we face by working together as a team.
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Continuing Education
Article | November 15, 2022
Across the country, local networks known as Education Innovation Clusters (EdClusters) are bringing together partners and resources to meet urgent needs and envision a new future for teaching and learning. Many of these efforts are rooted in long-standing partnerships across sectors and institutions. As COVID-19 disrupted the lives of students, educators, and families earlier this year, EdClusters sprang into action, leveraging their capacity and reach in ways their networks were uniquely ready to do. Their collective efforts are meeting a range of needs—from internet access to devices to social-emotional supports. As schools prepare for uncertain and complex reopenings, we turn to Kansas City and Rhode Island for powerful examples of community in action.
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Article | June 8, 2020
On average, prospective students engage with more than 1,000 digital touchpoints while researching programs in a 6-week period before filling out a lead form. With prospective students moving through different stages of their research funnel and using multiple platforms in the process, understanding the type of audience categories that Google Ads has to offer will provide the clarity you need to make smarter strategic decisions that will help you increase digital engagement. This also allows you to better anticipate your prospects’ interests and preferences while delivering the right marketing message at exactly the right time, whether you’re using Search, Display, or YouTube.
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