# JEE Main and JEE Advanced Syllabus of Co-ordinate Geometry

Co-ordinate Geometry is a method of analyzing geometrical shapes. Co-ordinate Geometry is one of the most scoring topics of the mathematics syllabus of IIT JEE and other engineering exams. Besides calculus, this is the only topic that can fetch you maximum marks. It is a vast topic and can further be divided into various parts like:

· Circle

· Parabola

· Ellipse

· Hyperbola

· Straight Lines

All these topics hold great importance from examination point of view but the Straight Line and the Circle are the most important. These topics together fetch maximum questions in the JEE and moreover they are a pre requisite to conic sections as well.

**The Coordinate Plane**

In Coordinate geometry, points are placed on the coordinate plane. The horizontal line is the x-axis while the vertical line is the y-axis. The point where they cross each other is called the origin.

A point's location on the plane is given by two numbers, the first tells where it is on the x-axis and the second tells where it is on the y-axis. Together, they define a single, unique position on the plane.

In the figure below, we have plotted the point (20, 15). Note here that the order is important as the first in the pair always stands for the x coordinate. Sometimes these are also referred to as the rectangular coordinates.

We have listed some of the important facts here, but the rest have been covered in detail in the later sections:

**The Midpoint of a Line Joining Two Points**

The midpoint of the line joining the points (x1, y1) and (x2, y2) is:

[½(x1 + x2), ½(y1 + y2)]

Illustration:

Find the coordinates of the midpoint of the line joining (11, 2) and (3, 4).

Midpoint = [½(11+ 3), ½(2 + 4)] = (7, 3)

You may refer the maths past papers to get an idea about the type of questions asked.

**The Gradient of a Line Joining Two Points**

The gradient of a line joining two points is given by

y2-y1 ∕ x2-x1

**Parallel and Perpendicular Lines**

Two parallel lines have the same gradient while if two lines are perpendicular then the product of their gradient is -1.

**Example**

a) y = 4x + 1

b) y = -1/4 x + 12

c) ½y = 2x - 3

The gradients of the lines are 4, -1/4 and 4 respectively. Hence, as stated above lines (a) and (b) are perpendicular, (b) and (c) are perpendicular and (a) and (c) are parallel.

The figure below shows the various topics included in the conic sections:

Generally, conic section includes ellipse, parabola and hyperbola but sometimes
circle is also included in conic sections. Circle can actually be considered as
a type of ellipse. When a cone and a plane intersect and their intersection is
in the form of a closed curve, it leads to the formation of circle and ellipse.
As it is visible from the figure above, the circle is obtained when the cutting
plane is parallel to the plane of generating circle of the cone. Similarly, in
case the cutting plane is parallel to one generating line of the cone, the
resulting conic is unbounded and is called parabola. The last case in which both
the halves of the cone are intersected by the plane, produce two distinct
unbounded curves called hyperbola.

Conic section is a vital organ of coordinate geometry. It is easy to gain
marks in this section as there are some standard questions asked from this
section so they can be easily dealt with. Some topics no doubt are difficult but
can be mastered with continuous practice.

The importance of Co-ordinate Geometry lies in the fact that almost all the
students who aspire to get high All India rank in IIT JEE, AIEEE, DCE, EAMCET
and other engineering entrance examinations give a good emphasis on Co-ordinate
Geometry.