- GeoGebra Apps for A-Level Further Pure Mathematics
- Matrices and transformations:
- Introduction to complex numbers:
- Roots of polynomials:
- Complex numbers and geometry:
- Matrices and their inverses:
- Vectors and 3D space:
- Vectors 1:
- Further calculus:
- Sketching polar curves:
- Maclaurin series:
- Hyperbolic functions:
- Applications of integration:
- Complex numbers - De Moivre's theorem:
- Extra pure Mathematics: Multivariable calculus:
- 1st order differential equations
- Euler's method
- 2nd order differential equations
- Fourier series
GeoGebra Apps for A-Level Further Pure Mathematics
- Author:
- Mark Willis
- Topic:
- Mathematics
Table of Contents
Matrices and transformations:
- Matrix representation for a rotation θ degrees anticlockwise about (0, 0)
- The matrix representation for a reflection in the line y = mx.
- The matrix representation of a shear.
- Matrix representation of a reflection in 3D.
- Finding invariant lines under a transformation given by a matrix.
- A line of invariant points
Introduction to complex numbers:
Roots of polynomials:
Complex numbers and geometry:
- Writing a complex number in modulus-argument form.
- Multiplication and division of complex numbers in modulus-argument form.
- Loci in the Argand diagram introduction.
- Loci of the form |z - a| =r.
- Loci of the form |z - a| < r.
- Loci of the form |z - a| < r.
- Drawing loci of the form arg(z - a) = θ.
- Inequalities on an Argand diagram of form β ≤ arg(z - a) ≤ α.
- Loci of Iz-z_1I=Iz-z_2I on an argand diagram.
- Loci of the form |z - z_1| > |z - z_2|.
- Combination of loci on an Argand diagram.
Matrices and their inverses:
Vectors and 3D space:
- The scalar product proof
- Scalar product 3d
- How many points are required to define a plane?
- The vector equation of the plane
- The normal vector equation of the plane
- Converting the vector to the Cartesian plane equation
- Finding the Cartesian equation of a plane through 3 points
- A plane containing a point and a line
- Determining whether four points lie in a plane
- The angle between two planes.
- The intersection of two planes
- The intersection of three planes.
- The intersection of 3 planes at a point
- The intsesection of three planes.
- Intersection of 3 planes using the inverse of a matrix
Vectors 1:
- The cross product or vector product
- The vector equation of the line in 2-dimensions
- The vector equation of a line in 3D.
- The point of intersection and angle between two lines in 3D
- Parallel, perpendicular and skew lines in 3D
- The distance between parallel lines in space
- The shortest distance between skew lines
- The intersection of a line and a plane
- The intersection of two planes
- The distance between two parallel planes
- The shortest distance between a line and a parallel plane.
Further calculus:
Sketching polar curves:
- An introduction to polar coordinates
- Copy of Sketching curves with polar equations introduction
- Sketching polar curves: Circle centre (0, 1), radius 1
- Sketching polar curves: Cardioid
- Sketching polar curves: A four-leaved rose
- Sketching polar curves: Parabola
- Sketching polar curves: Limaçon
- Sketching polar curves: An eight-leaved rose
- Sketching polar curves: Lemniscate
- Sketching polar curves: Advanced
- Sketching polar curves: Conchoid
- Sketching polar curves: Spiral
- Finding the area enclosed by a polar curve
Maclaurin series:
Hyperbolic functions:
Applications of integration:
- Volume of revolution introduction.
- A volume of revolution around the x-axis
- Volume of revolution of the area bounded by two functions
- A volume of revolution around the y-axis
- Area and volume using parametric curves.
- Gabriel's Horn
- Gabriel's Horn 01
- The arc length of a curve.
- The area of a surface of revolution.
Complex numbers - De Moivre's theorem:
Extra pure Mathematics: Multivariable calculus:
- The domain of the graph for a surface.
- Sketching contour curves of a function of two variables 01.
- Sketching contour curves of a function of two variables 02.
- The geometrical meaning of partial derivatives.
- Finding stationary points of surfaces 01
- Finding stationary points of surfaces 02.
- Tangent planes and normals to a point introduction.
- The tangent plane and normal line to a surface 01.
- The tangent plane and normal line to a surface 02.
- Cylindrical coordinates.
- Spherical coordinates
1st order differential equations
Euler's method
- Euler's method for f'(t, x) = x-2t, x(0) = 1
- Euler's method for f'(t, x)= xt, x(0) = 2
- Euler's method for f'(t, x)=x/(2sqrt(t + x)), x(0.5) = 1
- Euler's method for f'(t, x)=(4 - t)/(t + x)
- Euler's method for f'(t, x)=1/xt, x(1)=1
- Euler's method for f'(t, x)=xt/(x^2+2), x(1)=2
- Euler's method for f'(t, x)=1/lnx, x(1)=1.2
- Numerical solution of a third-order differential equation 01
- Numerical solution of a third-order differential equation 02
- Numerical solution of a second-order differential equation
2nd order differential equations
Fourier series
- Basic sine wave
- Square wave using Fourier terms
- Sawtooth wave using Fourier terms
- Triangular wave using Fourier terms
- Fourier series for a periodic function 01
- Fourier series for a periodic function 02
- Fourier series for a periodic function 03
- Fourier series for a periodic function 04
- Fourier series problem
- Fourier series for a piecewise periodic function 01
- Fourier series for a piecewise periodic function 02
- Fourier series for a piecewise periodic function 03
- Fourier series for a piecewise periodic function 04
- Fourier series for a piecewise periodic function 05