22 Seems to be the Magic Number in Solving Education problems!

In a previous post, I introduced the book by Stuart S. Yeh Entitled “The Cost-Effectiveness of 22 Approaches for Raising Student Achievement”.
Now the World Bank released a report entitled “Making Schools Work – New Evidence on Accountability Reforms” which is based on 22 recent impact evaluations of accountability-focused reforms in 11 developing countries. I wonder why this fascination with the number 22?


In the book (written by Barbara Burns, Deon Filmer and Harry Anthony Patrinos) they investigate strategies to address “service delivery failures” where increased spending does not lead to a concomitant change in education output (completion) or outcomes (learning). The idea is that if people in the schooling system are held accountable, things will improve.

This book focuses specifically on

three key strategies to strengthen accountability relationships in school systems—information for accountability, school-based management, and teacher incentives

 and looks into how these can affect school enrolment, completion, and student learning.

Main findings about the three strategies include:


Information for accountability (for example – providing “school report cards”) seems to work, but it isn’t a solution to all the problems. Which information is shared, who it is shared with and how it is shared are important considerations which could help parents, communities and other role players identify where the weaknesses in the system is.


School based management reforms (e.g. implementing effective school governance, and school based management) are effective, but these “reforms need at least five years to bring about fundamental changes at the school level and about eight years to yield significant changes in test scores”


Teacher incentives of two kinds have been investigated: Contract teachers (where teachers are contracted on condition that they deliver certain results), and pay for performance reforms (bonuses from meeting targets) seem to be successful too, but perverse behaviours (Such as gaming, cheating or teaching to the test) are likely to abound and eventually negate the overall success of this strategy.

We’ve seen some progress in this regard in the South African schooling system: School Management and Governance training remains an important component of “whole school” development, and the implementation of the Annual National Assessments (ANA) is likely to evolve into an “information for accountability” initiative. (Also see this article about the ANA’s in the local press). Perhaps its time to take the hand of the labour unions and see how incentivising teachers can be implemented?

Maths and Science Education Initiatives

• Maths and Science education initiatives are very necessary in the South African context. But it is also important to ensure that they deliver the goods at the end of the day. Different approaches have been tried to assist with the state of South African learners’ maths and science skills. The type of initiatives that we came across in our previous evaluations included:
  *Maths and Science Saturday schools that aimed to compensate for poor classroom based teaching and learning and giving the learners another shot at achieving the maths and science outcomes at preprimary and secondary phase.
  *Maths and Science Saturday or Holiday schools that aimed to prepare learners adequately for the Senior Certificate Examination
  *Upgrading of teacher qualifications through giving maths and science teachers the opportunity to gain full tertiary qualifications in maths or science
  *Afternoon workshops where skilled maths or science teachers did demonstration lessons with other maths and science educators to convey some lesson presentation ideas.
  *Building and equipping science labs to give learners the opportunity to engage fully with the Maths and science curriculum.
  *Commercially run science and maths exhibit centres that host interactive displays to demonstrate mathematical / scientific principles.
  *Science and maths fares, expos and exhibits.
  *Intensive Post matric course / bridging courses that focus heavily on science and maths tuition in order to help learners gain access to tertiary courses such as engineering.
  *Computer based science and maths learning using age appropriate software in computer laboratories.
  
  The lessons learnt were multiple and ad hoc, some of which I have taken the time to summarise below:
  · Once off workshops cannot do much to solve pervasive problems. Workshops should happen regularly and make space for the beneficiary teachers or learners to input into the content of the workshops.
  · Workshops where participants are not required to do anything more than attend, are unlikely to motivate beneficiaries to really participate and learn.
  · If the learning material is made available for further use in the classroom or with other colleagues at the school, it is likely to have an impact beyond the one learning encounter
  · Providing a solution (e.g. computer lab or teacher training programme) without the necessary support and maintenance will quickly negate the initial investment and reduce the impact
  · A multidimensional approach combining different strategies are imperative for success
  · Good programme management capacity is imperative, and should also include a mechanism to control for quality of content.
  · Programmes that collect basic monitoring data (number of beneficiaries, number of activities offered, cost per beneficiary per day) were more likely to be well run, and were also more likely to be very cost efficient.
  · There is limited cooperation between different agencies approaching the same problem and over reliance on a specific methodology- Once an agency has a hammer that makes some hits, they tend to want to fix all problems with this tool.
  
  Some documents that I found useful include:
  
  * David H. Greenberg, Charles Michalopoulos, Philip K. Robins : A Meta-Analysis of Government Sponsored Training Programs. www.mdrc.org/publications/264/full.pdf
  * HSRC. Trends in International Maths and Science Study results for South Africa http://www.hsrc.ac.za/research/programmes/ESSD/timss2003/mediaRelease.pdf *Coalition for Evidence-Based Policy : How to Solicit Rigorous Evaluations of Mathematics and Science Partnerships (MSP) Projects - A User-Friendly Guide for MSP State Coordinators. Available online at: http://www.ed.gov/programs/mathsci/issuebrief.doc

* Coalition for Evidence-Based Policy : How to Conduct Rigorous Evaluations of Mathematics and Science Partnerships (MSP) Projects - A User-Friendly Guide for MSP Project Officials and Evaluators. Available online at: http://www.ed.gov/programs/mathsci/mspbrief2.doc