A survey of physics questions from a range of extension sources on a variety of topics, with full video solutions, useful for preparing for PAT, ENGAA or NSAA.

 

This course is an online version of the Physics Summer Course which is held over the summer holidays between year 12 and 13.

 

Former Students said:

“The best things about the course were the variety of the topics and the range of different exercises from different tests.”

“This course is really useful, not only as a revision of A-level material that may have been forgotten over summer, but also to get ahead on topics that will be covered next year that may not be covered before the admissions test.”

 

Some topics covered by PAT, ENGAA, and NSAA may not yet have been taught in school

Moreover, university interviewers can choose to ask questions on any of them, so it is wise to be familiar with the theory. For this reason, our Physics Summer Course aims to bring you up to scratch with all of the commonly occurring subject matter that could be examined through one of these tests or at interview.

 

Familiar material reinforced through unfamiliar problem-style questions

We revise some material and introduce some new topics. In each section, we cover the basics with A-level questions, and then test its application in past PAT questions and other challenging questions from outside sources.

 

Practice skills alien to A-level

The PAT in particular requires going without a calculator, so we make a point of practising swift and error-free calculation by hand. We also cover some principles that are not explicitly covered at A-level, such as the square-cube law, which is very commonly referenced in admissions tests and interviews.

 

5-star rated course

All our previous students report thoroughly enjoying the course.  It has been described as a “great boost” to their admissions test preparation.

 

Topics covered:

  • Static forces
  • The behaviour of moving bodies studied via dynamics and kinematics
  • The special case of circular motion and its application to orbits
  • The behaviour of electrical circuits governed by resistors, electrical power, and more exotic components like capacitors and diodes
  • The physics of waves and intensity, and especially electromagnetic radiation
  • Electric charge, electric potential energy, and electrostatic forces
  • Radioactive decay
  • Springs and elasticity
  • Astronomy
  • General physically-applicable reasoning, including the square-cube law.

 

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