An opportunity at an amazing school in Abingdon for a Learning Disability Assistant in the academic year starting September 2024 is available for a passionate, adaptable and pro-active candidate.
The specialist school want to welcome a recent graduate to their support staff team in the new academic year to support their students with learning disabilities and complex needs throughout their school career.
Have you got experience with learning disabilities in young people
Do you want to help students achieve their full potential?
The Camden Society has an exciting opportunity available for a Female Support Worker to join our team in Abingdon, Oxfordshire .
You will join us on a permanent basis, with full-time, part-time and relief hours available, and in return, you will receive a competitive salary of £12.00 per hour.
We do not currently provide Sponsorship or Visa Extensions.
Academics LTD are working with a fantastic school in the Abingdon area who are looking to appoint hard working, motivational Learning Support Assistants for September 2024.
Are you passionate for demonstrating the value of education to vulnerable children?
Are you enthusiastic to make the difference to the lives of students?
Academics LTD are working with a fantastic school in the Abingdon area who are looking to appoint hard working, motivational Learning Support Assistants for September 2024.
Are you passionate for demonstrating the value of education to vulnerable children?
Are you enthusiastic to make the difference to the lives of students?
Conveniently located within the Culham Science Centre in Abingdon, Oxfordshire, our connections here mean you can work and create alongside visionaries at the cutting edge of their field, such as the UK's fusion research programme.
Culham Innovation Centre provides specialist workspace and support to entrepreneurs looking to create some of the hottest new developments in the science and technology sector.
This is what makes us quite literally the hottest hub on earth - the technology used by Culham Centre for Fusion Energy (CCFE) requires temperatures approximately six times hotter than the sun's core (100 million Kelvin).