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lines and curves | parametric curves, coordinate geometry |

Exponentials and Logarithms. | Manipulate derivatives of exponentials, solve simultaneous equations |

Determinants 1 | Manipulate matrices, calculate determinants,eignvalues |

complex numbers - Complex Transformations 2 | Apply mobius transformations to determine new loci |

Complex numbers - Complex Transformations 1 | Apply mobius transformations to determine new loci |

five topics for early success - Mini Test 1 | Apply the skills and knowledge of the introductory topics to exam-style questions |

Complex Numbers - Infinite Series 3 | You need to be able to move between trigonometric and exponential representations |

Complex Numbers - Infinite Series 2 | You need to be able to move between trigonometric and exponential representations |

Complex numbers - infinite Series 1 | Move between exponential and trigonometric representations |

Complex numbers - roots of unity | Know properties of roots of unity |

Polynomials and their roots 3 | You need to be familiar with symmetric combinations of polynomial roots |

Modulus Functions 3 | To complete this question, you need to be familiar with the modulus function and how to eliminate it to solve equations. |

Modulus Functions 2 | To complete this question, you need to be familiar with the modulus function and how to eliminate it to solve equations. |

Modulus Functions 1 | To complete this question, you need to be familiar with the modulus function and how to eliminate it to solve equations. |

Loci 3 | To complete this question, you will need to be able to determine the algebraic equation of a curve from a geometric description. |

Loci 2 | To complete this question, you will need to be able to determine the algebraic equation of a curve from a geometric description. |

Loci 1 | To complete this question, you will need to be able to determine the algebraic equation of a curve from a geometric description. |

Integration by parts 4 | You need to be able to apply the by parts formula |

Integration by parts 3 | You need to be able to apply the by parts formula |

Integration by parts 2 | You need to be able to apply the by parts formula |