Post UTME Area Of Concentration For Mathematics 2024/2025 PDF (Download Syllabus)

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What Is Mathematics Post UTME Area Of Concentration All About?

The Post UTME Area Of Concentration 2024 for Mathematics also known as the Post UTME syllabus for Mathematics is an outline containing topics that candidates are expected to study for their Post UTME exam or Online Aptitude test after screening and registration.

The aim of the Post UTME Examination syllabus or area of concentration in Mathematics is to prepare the candidates for the upcoming 2024 PUTME examination.

Before we proceed, see How To Pass Post UTME and Post UTME Syllabus For All Courses.

IT IS DESIGNED TO TEST THEIR ACHIEVEMENT OF THE COURSE OBJECTIVES, WHICH ARE TO:

1. Acquire Computational And Manipulative Skills.

2. Develop Precise, Logical And Formal Reasoning Skills.

3. Apply Mathematical Concepts To Resolve Issues In Daily Living.

BELOW ARE SOME OF THE BENEFITS YOU WILL DERIVE FROM HAVING THE Post UTME MATHEMATICS SYLLABUS:

1. Getting the Mathematics syllabus will enable you to know the topics you need to prepare for.

2. You will get to know what you’re expected to know from each of the topics.

3. The recommended texts section also outlines the list of Mathematics books (titles, authors, and editions) you can read.

Post UTME Area Of Concentration For Mathematics 2024/2025

Below is the approved Post UTME Syllabus For Mathematics 2024/2025

1. Number Bases

2. Variation

3. Inequalities

4. Trigonometry

5. Euclidean Geometry

6. Fractions, Decimals, Approximations and Percentages

7. Measures of Location

8. Geometry and Trigonometry

9. Permutation and Combination

10. Measures of Dispersion

11. Representation of data

12. Statistics

13. Mensuration

14. Probability

15. Loci

16. Progression

17. Polynomials

18. Matrices and Determinants

19. Indices, Logarithms and Surds

20. Sets

21. Calculus

22. Integration

23. Application of Differentiation

24. Binary Operations

25. Coordinate Geometry

26. Differentiation

     

About Mathematics

Mathematics is an area of knowledge that includes the topics of numbers, formulas and related structures, shapes and the spaces in which they are contained, and quantities and their changes.

These topics are represented in modern mathematics with the major subdisciplines of number theory, algebra,^[geometry, and analysis respectively. There is no general consensus among mathematicians about a common definition for their academic discipline.

Most mathematical activity involves the discovery of properties of abstract objects and the use of pure reason to prove them.

These objects consist of either abstractions from nature or—in modern mathematics—entities that are stipulated to have certain properties, called axioms. A proof consists of a succession of applications of deductive rules to already established results.

These results include previously proved theorems, axioms, and—in case of abstraction from nature—some basic properties that are considered true starting points of the theory under consideration.

Mathematics is essential in the natural sciences, engineering, medicine, finance, computer science and the social sciences.

Although mathematics is extensively used for modeling phenomena, the fundamental truths of mathematics are independent from any scientific experimentation.

Some areas of mathematics, such as statistics and game theory, are developed in close correlation with their applications and are often grouped under applied mathematics.

Other areas are developed independently from any application (and are therefore called pure mathematics), but often later find practical applications.

The problem of integer factorization, for example, which goes back to Euclid in 300 BC, had no practical application before its use in the RSA cryptosystem, now widely used for the security of computer networks.

Historically, the concept of a proof and its associated mathematical rigour first appeared in Greek mathematics, most notably in Euclid’s Elements.

Since its beginning, mathematics was essentially divided into geometry and arithmetic (the manipulation of natural numbers and fractions), until the 16th and 17th centuries, when algebra and infinitesimal calculus were introduced as new areas.

Since then, the interaction between mathematical innovations and scientific discoveries has led to a rapid lockstep increase in the development of both.

At the end of the 19th century, the foundational crisis of mathematics led to the systematization of the axiomatic method, which heralded a dramatic increase in the number of mathematical areas and their fields of application.

The contemporary Mathematics Subject Classification lists more than 60 first-level areas of mathematics.