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Class 11 Mathematics

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Curriculum
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Below is an overview of the key units and topics typically included in the Class 11 Mathematics syllabus:

1. Sets

  • Introduction to Sets: Definition, types of sets (finite, infinite, null, equal, subset, universal).
  • Operations on Sets: Union, intersection, difference, and complement of sets.
  • Venn Diagrams: Representation of sets and operations using Venn diagrams.

2. Relations and Functions

  • Relations: Definition of relations, types (one-to-one, onto, and many-to-one).
  • Functions: Definition and representation of functions, types of functions (linear, quadratic, polynomial, and rational).
  • Graphs of Functions: Sketching graphs of various types of functions.

3. Trigonometric Functions

  • Trigonometric Ratios: Definitions of sine, cosine, tangent, cosecant, secant, and cotangent.
  • Trigonometric Identities: Fundamental identities and their applications.
  • Graphs of Trigonometric Functions: Understanding and sketching the graphs of trigonometric functions.

4. Complex Numbers

  • Definition: Introduction to complex numbers in the form a+bia + bi where ii is the imaginary unit.
  • Arithmetic Operations: Addition, subtraction, multiplication, and division of complex numbers.
  • Modulus and Argument: Modulus of a complex number, polar representation, and De Moivre’s theorem.

5. Linear Inequalities

  • Introduction to Inequalities: Understanding linear inequalities in one variable and two variables.
  • Graphical Representation: Graphing linear inequalities and finding the solution set.
  • Applications: Solving problems related to inequalities.

6. Permutations and Combinations

  • Fundamental Principle of Counting: Basic counting techniques and applications.
  • Permutations: Definition, formula, and applications in arrangements.
  • Combinations: Definition, formula, and applications in selections.

7. Binomial Theorem

  • Binomial Expansion: Understanding the binomial theorem and its applications.
  • General Term: Finding the general term in a binomial expansion.
  • Applications: Using the binomial theorem in problems involving combinations.

8. Sequence and Series

  • Arithmetic Progression (AP): Definition, nth term, and sum of the first n terms of an AP.
  • Geometric Progression (GP): Definition, nth term, and sum of the first n terms of a GP.
  • Special Series: Sum of natural numbers, squares, and cubes.

9. Straight Lines

  • Equations of Lines: Understanding different forms of equations of straight lines (slope-intercept, point-slope, and general form).
  • Slope of a Line: Concept of slope, parallel and perpendicular lines.
  • Applications: Intersection of lines and distance between two points.

10. Conic Sections

  • Circles: Equation of a circle and its properties.
  • Parabolas: Definition, equation, and properties of parabolas.
  • Ellipses and Hyperbolas: Definitions, equations, and properties of ellipses and hyperbolas.

11. Introduction to Three-Dimensional Geometry

  • Coordinates in Space: Understanding the concepts of 3D geometry and coordinates.
  • Distance Formula: Distance between two points in three-dimensional space.
  • Section Formula: Division of a line segment in a given ratio.

12. Limits and Derivatives

  • Introduction to Limits: Concept of limits, properties, and evaluation of limits.
  • Derivatives: Basic rules of differentiation and applications in finding slopes and tangents.

13. Mathematical Reasoning

  • Statements and Logic: Understanding statements, logical connectives, and truth tables.
  • Quantifiers: Use of universal and existential quantifiers.
  • Mathematical Induction: Principle of mathematical induction and its applications.

14. Statistics

  • Data Collection: Types of data, methods of collection, and representation of data.
  • Measures of Central Tendency: Mean, median, and mode.
  • Graphical Representation: Histogram, frequency polygon, and cumulative frequency graph.

15. Probability

  • Basic Concepts: Definition and concepts of probability, sample space, and events.
  • Calculation of Probability: Simple problems involving the probability of events.
  • Conditional Probability: Understanding conditional probability and independence of events.

Curriculum

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  • 15h Duration
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