Parallel, Intersecting & Skew Lines (CIE A Level Maths: Pure 3)

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Parallel, Intersecting & Skew Lines

In two dimensions, lines are either parallel or they intersect at a single point. If they are parallel, then either they have no points in common, or they share every point in common.

In three dimensions, there is a further possibility: a pair of lines might not be parallel and have no points of intersection. We say that the lines are skew.

How do I tell if two lines are parallel?

  • Two lines are parallel if, and only if, their direction vectors are parallel
    • This means the direction vectors will be scalar multiples of each other
    • For example, the lines whose equations are bold r equals open parentheses table row 2 row 1 row cell negative 7 end cell end table close parentheses plus s open parentheses table row 2 row 0 row cell negative 8 end cell end table close parentheses  and  bold r equals open parentheses table row 1 row cell negative 1 end cell row 5 end table close parentheses plus t open parentheses table row cell negative 1 end cell row 0 row 4 end table close parentheses  are parallel since their direction vectors open parentheses table row 2 row 0 row cell negative 8 end cell end table close parentheses  and open parentheses table row cell negative 1 end cell row 0 row 4 end table close parentheses are parallel vectors as open parentheses table row 2 row 0 row cell negative 8 end cell end table close parentheses equals negative 2 open parentheses table row cell negative 1 end cell row 0 row 4 end table close parentheses

 

  • There are two possibilities for two parallel lines: either they never intersect or they are the identical
    • Recall that the vector equation of a line can take many forms – for example, the lines represented by the equations   bold r equals open parentheses table row 1 row cell negative 8 end cell end table close parentheses plus s open parentheses table row cell negative 4 end cell row 8 end table close parentheses  and  bold r equals open parentheses table row cell negative 3 end cell row 0 end table close parentheses plus t open parentheses table row 1 row cell negative 2 end cell end table close parentheses    are actually the same line even though the equations look entirely different

 

  • To see that the lines are identical, first check that they are parallel
    • they are because open parentheses table row cell negative 4 end cell row 8 end table close parentheses equals negative 4 open parentheses table row 1 row cell negative 2 end cell end table close parentheses and so the direction vectors are parallel     

 

  • Next, determine whether any point on one of the lines also lies on the other.
    • In the example above, is the position vector of a point on the first line – does it also lie on the second line? Yes, because open parentheses table row 1 row cell negative 8 end cell end table close parentheses equals open parentheses table row cell negative 3 end cell row 0 end table close parentheses plus 4 open parentheses table row 1 row cell negative 2 end cell end table close parentheses

  • If two parallel lines share any point, then they share all points – i.e. they are identical

 

 What are skew lines?

  • First, start with another question: do lines which are not parallel necessarily intersect?
    • In 2 dimensions, the answer is yes
    • However, lines in 3 dimensions do not necessarily intersect
  • Lines that are not parallel and which do not intersect are called skew lines

7-3-2-parallel-intersecting-_-skew-lines

  

How do I determine whether lines in 3D are parallel, skew, or intersecting?

  • First, look to see if the direction vectors are parallel:
    • if the direction vectors are parallel, then the lines are parallel
    • if the direction vectors are not parallel, the lines are not parallel
  • If the lines are parallel, check to see if they are identical:
    • If they share any point, then they are identical
    • If any point on one line is not on the other line, then the lines are not identical
  • If the lines are not parallel, check whether they intersect:
    • Using different letters, e.g. s and t, for the parameters, write down coordinates for a general point on each line
    • Supposing that the lines do intersect: equate the two coordinates and write down three equations
      • One for each component (i, j, k)
    • Solve any two pairs of these equations simultaneously to find s and t
    • Check whether the values of s and t you have found satisfy the third equation
      • If all three equations are satisfied, then the lines intersect
      • If not all three equations are satisfied, then the lines are skew
  • If a pair of lines are not parallel and do intersect, the unique point of intersection can be found by substituting the value of one of the parameters you have found into the coordinates for points on the appropriate line.

Worked example

7-3-2-parallel-intersecting-_-skew-lines-we-solution-part-1

7-3-2-parallel-intersecting-_-skew-lines-we-solution-part-2

Examiner Tip

  • Make sure that you use different letters, e.g. s and t, to represent the parameters in vector equations of different lines.

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Amber

Author: Amber

Expertise: Maths

Amber gained a first class degree in Mathematics & Meteorology from the University of Reading before training to become a teacher. She is passionate about teaching, having spent 8 years teaching GCSE and A Level Mathematics both in the UK and internationally. Amber loves creating bright and informative resources to help students reach their potential.