How to extend the number system to include and the definition of a complex number.

How to add, subtract, multiply and divide complex numbers.

How to represent complex numbers on an Argand diagram and the modulus and argument of a complex number.

How to write complex numbers in modulus-argument form.

How to define loci in the complex plane.

How to define a matrix by its order.

How to add and subtract conformable matrices.

How to multiply two conformable matrices.

How to use matrices to define linear transformations.

How to find invariant lines and lines of invariant points.

How to find the determinant and inverse of a 2 x 2 and 3 x 3 matrix.

How to use matrices to solve systems of linear equations.

How to use standard series formulae to find the sums of other series.

How to separate algebraic fractions into partial fractions.

How to use the method of differences to find the sum of a series.

How to find the scalar (dot) product of two vectors.

How to define the equation of a line using vectors.

How to define a plane using vectors.

How to use vectors to solve problems involving lines and planes.

Module 1: Complex Numbers 1: An Introduction to Complex Numbers

• The definition of an imaginary number
• The definition of a complex number
• Solving simple quadratic equations
• Addition, subtraction and multiplication of complex numbers
• Complex conjugates and division of complex numbers
• Radian measure
• Representing complex numbers on the Argand diagram

Module 2: Matrices 1: An Introduction to Matrices

• The order of a matrix
• Addition and subtraction of conformable matrices
• Matrix multiplication
• The identity matrix
• Matrix transformations in 2 and 3 dimensions
• Invariant lines and lines of invariant points

Module 3: Further Algebra and Functions 1: Roots of Polynomial Equations

• Solving polynomial equations with real coefficients
• The relationship between roots and coefficients in a polynomial equation
• Forming a polynomial equation whose roots are a linear transformation of the roots of another polynomial equation

Module 4: Complex Numbers 2: Modulus-Argument form and Loci

• The modulus and argument of a complex number
• Writing complex numbers in modulus argument form

• The geometrical effect of multiplying by a complex number.

• Loci on the Argand diagram

Module 5: Matrices 2: Determinants and Inverse Matrices

• The determinant of a square matrix.
• The inverse of a square matrix
• Using matrices to solve simultaneous equations (5)
• The geometrical interpretation of the solution of a system of equations

Module 6: Further Algebra and Functions 2: Series, Partial Fractions and the Method of Differences

• Deriving formulae for series using standard formulae
• Separating algebraic fractions into partial fractions
• The method of differences
• Partial fractions and method of differences

Module 7: Vectors 1: The Scalar (dot) Product and Vector Equations of Lines

• The scalar product of two vectors
• The vector and Cartesian forms of an equation of a straight line in 2 and 3 dimensions
• Solving geometrical problems using vector equations of lines
• The dot product and the angle between two lines

Module 8: Vectors 2: The Vector Equations of a Plane and Geometrical Problems with Lines and Planes

• The vector and Cartesian forms of the equation of a plane
• The vector equation of a plane
• Solving geometrical problems with lines and planes using vectors
• The intersection of a line and a plane
• Perpendicular distance from a point to a plane

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