Easiest Way To Master Add Maths To Obtain the Highest Scores! Part 1
What you will learn
Additional Math (IGCSE) For High School
How to solve simultaneous equations using the substitution method
How to solve simultaneous equations using the elimination method
How to solve Linear & Non Linear simultaneous equations
Description
High School Add Math (IGCSE) – Simultaneous Equations
Welcome! This is the 1st Part out of a series of crash courses that are designed to help students prepare themselves for High School Additional Mathematics.
This course is meant for:
– Those who want to learn high school math and Ace their yearly examinations
– Parents who may want to help teach their children
– Those who just want to brush up on their math skills
Students should have some basic math skills. I would recommend at least having completed grade 9 Math so that you can understand the concepts better.
In this course we will learn:
– What are simultaneous equations and how do we solve them
– To use the substitution method
– To use the elimination method
– How to solve linear simultaneous equations
– How to solve non linear simultaneous equations
I urge students to practice hands on with me during the course so that they can take the most out of this course. Students can ask me questions and I will keep answering quickly.
You may also take a look at the vast knowledge in the questions and answers section. You will note that many times students ask very important questions that you may have overlooked.
Upon completion of this course you may take the remaining courses in this series. In this Series i will be covering a vast variety of topics (in the other crash courses) included in the IGCSE syllabus such as:
1) Simultaneous Equations
2) Matrices
3) Indices, Surds & Logarithms
4) Quadratic Expressions & Equations
5) Remainder & Factor Theorems
6) Linear Law
7) Functions
8) Trigonometric Functions
9) Trigonometric Identities & Equations
10) Circular Measure
11) Permutations & Combinations
12) Binomial Theorem
13) Differentiation
14) Rates of Change
15) Higher Derivatives and Applications
16) Integration
17) Applications of Integration
18) Kinematics
19) Vectors
20) Relative Velocity
Content