1. Linear Equations in Two Variables

 Content: Understanding the concept of linear equations, graphing lines, and solving systems of equations.

 Objective: To develop skills in formulating and solving linear equations, and interpreting their graphical representations.

 2. Quadratic Equations

 Content: Solving quadratic equations using various methods such as factoring, completing the square, and the quadratic formula.

 Objective: To understand the properties of quadratic equations and their graphs (parabolas), and apply them in reallife situations.

 3. Arithmetic Progression (AP)

 Content: Definition and properties of arithmetic progressions, and formulas to find the nth term and the sum of the first n terms.

 Objective: To apply AP concepts in problem solving and to recognize patterns in numerical sequences.

 4. Financial Planning

 Content: Concepts of budgeting, saving, interest (simple and compound), and financial decision making.

 Objective: To equip students with practical financial skills and the importance of planning for future expenses.

 5. Probability

 Content: Introduction to probability, experimental vs. theoretical probability, and basic probability rules.

 Objective: To understand the fundamental principles of probability and apply them to realworld scenarios.

 6. Statistics

 Content: Collection, representation, and interpretation of data; measures of central tendency (mean, median, mode); and measures of dispersion (range, variance, standard deviation).

 Objective: To analyze data critically and make informed decisions based on statistical information.

 7. Similarity

 Content: Understanding the concept of similarity in geometric figures, including properties and criteria for similarity of triangles.

 Objective: To apply similarity in solving geometric problems and to understand scale factors.

 8. Pythagoras Theorem

 Content: Statement and proof of the Pythagorean theorem and its applications in solving problems involving right triangles.

 Objective: To develop spatial reasoning and apply the theorem in practical situations, such as in construction and navigation.

 9. Circle

 Content: Properties of circles, including chords, arcs, tangents, and theorems related to circle geometry.

 Objective: To understand the significance of circles in geometry and apply related theorems to solve problems.

 10. Geometric Constructions

 Content: Techniques for constructing geometric figures using compass and straightedge, including angles, triangles, and circles.

 Objective: To develop precise construction skills and understand the properties of geometric figures.

 11. Coordinate Geometry

 Content: Basics of the Cartesian coordinate system, plotting points, and finding the distance and midpoint between points.

 Objective: To analyze geometric shapes using coordinate systems and solve algebraic equations graphically.

 12. Trigonometry

 Content: Understanding trigonometric ratios, identities, and their applications in solving triangles and realworld problems.

 Objective: To apply trigonometric concepts in various fields, including physics, engineering, and architecture.

 13. Mensuration

 Content: Formulas for calculating the area, surface area, and volume of various geometric shapes (squares, rectangles, triangles, circles, and solids).

 Objective: To develop problem solving skills related to measurement and reallife applications in construction and design.