Parallel lines, when cut by another line called a transversal, create special relationships between angles that are formed. We will explore those angles, solve problems with those angles, and prove the relationships between the angles formed.
When one line intersects a pair of lines (or more), we refer to it as a transversal.
When a transversal cuts through a pair of lines, it allows us to pair up and name the angles that are formed.
Check the parallel lines box, then use the points to drag the transversal and the parallel lines.
When lines cut by the transversal are parallel, the angle pairs created have special relationships. They will either be congruent or supplementary.
Remember that a postulate is a statement that is accepted as true without proof. We can use our knowledge of translations to recognize this postulate is true. We can imagine translating one of the angles along the traversal until it meets the second parallel line. It will match the corresponding angle exactly.
The corresponding angles postulate can be used as a basis for proving relationships between other angle pairs, as given in the following theorems.
For each of the following angle pairs, state the type of angle pair they are and state the relationship between the angles:
\angle A and \angle C
\angle B and \angle C
\angle C and \angle D
\angle A and \angle E
The figure shows two intersecting pairs of parallel lines.
Find the value of x and explain your answer.
Find the value of y and explain your answer.
Determine if the information given is enough to justify the conclusion.
Given: a\parallel b and \angle 1 \cong \angle 3
Conclusion: \angle 2 and \angle 3 are supplementary
Construct a proof of the following:
Given: \overleftrightarrow{AB} \parallel \overleftrightarrow{CD}
Prove: m \angle 5 = m \angle 3 and m \angle 1 = m \angle 7
When a transversal cuts through two parallel lines,