We start with the type without constant term, moving onto monic
quadratic expression where the coefficient of x squared is 1, then negative x squared coefficient, and finally common factor in the three terms.
Generate terms of a sequence from either a position - to - term rule Recognise and apply sequences of triangular, square and cube numbers, simple arithmetic progressions, Fibonacci type sequences,
quadratic sequences, and simple geometric progressions (rn
where n is an integer, and r is a rational number > 0) Deduce
expressions to calculate the nth term of linear sequences Full lesson PowerPoint and workbook to accompany, I have used quite a few of AQA's helpful resources to help me put this lesson together.