Concurrent lines are the lines, in 2-D geometry, which intersect each other exactly at one point. The meaning of concurrent is happening at the same time or point. The intersecting lines are always concurrent.

Concurrent lines are non-parallel lines and extend indefinitely at both the direction.  They intersect each other at a point somewhere in the plane. Thus we can say all parallel lines are not concurrent lines. 

Definition

When two or more lines pass through a single point, in a plane, they are concurrent with each other and are called concurrent lines. A point that is common to all those lines is called the point of concurrency. This property of concurrency can also be seen in the case of triangles.

All the intersecting lines or non-parallel lines are concurrent. But parallel lines are not concurrent at any point on a plane.

In the figure given below, you can see the three lines are all crossing point O. Hence, all these three lines are concurrent with each other.

Condition of Concurrent Lines

If three lines are concurrent, then the point of intersection of two lines lies on the third line. Suppose, the equations of three lines are:

a₁ x + b₁y + c₁  = 0   ……………. (1)  

a₂ x + b₂ y + c₂ = 0  ……………. (2) 

a₃ x + b₃ y + c₃ = 0 ……………. (3)

Thus, the condition, if the three lines are concurrent to each other, is;

\(\left|\begin{array}{lll} a_{1} & b_{1} & c_{1} \\ a_{2} & b_{2} & c_{2} \\ a_{3} & b_{3} & c_{3} \end{array}\right|=0\)

Solved Example

Question: Find if the lines 2x – 3y + 5 = 0, 3x + 4y – 7 = 0 and 9x – 5y + 8 =0 are concurrent.

Answer: Given the three lines are:

2x – 3y + 5 = 0

3x + 4y – 7 = 0 

9x – 5y + 8 =0

Now, as per the condition of the concurrence of lines, we need to find the determinant of the coefficients.

Hence,

\(\left|\begin{array}{lll} 2 & -3 & 5 \\ 3 & 4 & -7 \\ 9 & -5 & 8 \end{array}\right|=0\)

= 2(32 – 35) – (-3)(24 + 63) + 5(-15 – 36)

= 2(-3) + 3(87) + 5(-51)

= – 6 + 261 -255

= 0

Therefore, the given three lines are concurrent.

Concurrent Lines in Triangles

In a triangle, the concurrent lines are:

• Altitudes
• Medians
• Angle bisectors
• Perpendicular bisectors

Concurrent Line Segments and Rays

When three or more line segments, intersect each other at a single point, then they are said to be concurrent line segments. See the figure below, where AB, CD and EF are three line segments and are intersecting each other at one point O. Hence, we can apply the concurrency to line segments also.

When three or more Rays in 2-D plane cuts or meets at a single point, then they are called Concurrent Rays. The single point is the point of concurrency for all the rays. In the below figure, three rays PQ, RS and MN, which are intersecting at a point O, are concurrent to each other.

Difference Between Concurrent Lines and Intersecting Lines

As we have already understood, if any three lines or line segments or rays are having a single intersection point, they are said to be in concurrency. While, in the case of intersecting lines, there are only two lines or line segments or rays that intersect with each other. We can write the differences in a tabular form.

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