## Same Side Interior Angles – Definition, Theorem, Examples

A pair of interior angles on the same side of a transversal are defined as two angles on the interior of (between) two lines that are on the same side of the transversal. The total of the inner angles on the same side equals 180 degrees. Four internal angles are generated when two parallel lines are crossed by a transversal line, as shown in the diagram. The two non-adjacent internal angles that are on the same side of the transversal as the transversal are referred to as supplemental angles.

## What Are Same Side Interior Angles?

When two parallel lines are crossed by a transversal, the result is the formation of eight angles. Identical side interior angles are a pair of non-adjacent interior angles that are located on the same side of the transversal as the transversal itself. As a result, the same side interior angles apply:

- Have no shared vertices or have vertices that are distinct
- Are constructed on the same side as the transversal and are situated between two lines

The “same side interior angles” are sometimes referred to as “co-interior angles” in some circles. There are eight distinct sorts of angles created as a result of this process, which are given below:

- Different Interior Angles, Corresponding Angles, Different Exterior Angles, Same Side Interior Angles or co-interior Angles are all examples of alternate interior angles.

The transversal is represented by the lines AB || CD and l in the illustration. As stated in the “Same Side Interior Angles – Definition,” the following are the pairs of same side interior angles shown in the preceding figure:

## Same Side Interior Angles Theorem

Take, for example, the illustration above. The lines AB and CD in the above diagram are parallel, while the line L is the transversal. We have recently learned that the pairs of similar side interior angles in the preceding image are as follows: The same side interior angle theorem is responsible for determining the relationship between the same side internal angles. If a transversal intersects two parallel lines, the theorem for the “same side interior angle theorem” asserts that each pair of same-side interior angles are supplementary (their total equals 180°).

### Same Side Interior Angles Theorem Proof

Referring to the previous illustration once more: 4 = 8, and 3 = 7. 5 + 8 = 180°, and 6 + 7 = 180°. 5 + 8 = 180°, and 6 + 7 = 180°. According to the previous two equations, 4 + 5 = 180°. In the same way, 3 + 6 Equals 180° As a result, it has been demonstrated that each pair of same-side internal angles is supplementary.

## Converse of Same Side Interior Angles Theorem

A transversal connects two lines in such a way that a pair of same-side interior angles are supplementary, and the two lines are parallel, according to the opposite of the same-side interior angle theorem.

### Converse of Same Side Interior Angles Theorem Proof

If we continue to use the same example from previously, let us assume that 4 + 5 = 180° (1) Since the numbers 5 and 8 constitute a linear pair, 5+8 = 180° (2)From (1) and (2), 4 = 8Thus, a pair of matching angles are equal, which can only occur if the two lines are parallel.5+8 = 180° (2) As a result, the reverse of the same side internal angle theorem is established. Important Points to Keep in Mind Listed below are the most crucial considerations to remember while dealing with the same side interior angles.

- The same-side internal angles are non-adjacent and are generated on the same side of the transversal as the same-side exterior angles are. If and only if the identical side interior angles on both lines are supplementary, two lines are considered parallel.

Articles that are related Check out these interesting articles to learn more about the same side interior angles and the themes that they are associated with.

- Line Segmentation
- Lines and Angles – Fundamental Concepts
- Lines that intersect and do not intersect
- Parallel lines
- Supplementary Angles
- Lines that are intersecting and do not intersect

## Same Side Interior Angles Examples

- Example 1: In the above figure, the side interior angles of 145° and 40° are the same as each other. Check to see if the lines l and m are parallel to each other or not. Solution: In the provided figure, the side interior angles of 145° and 40° are the same as one another. However, the total is not equal to 180° (145° + 40° =185°), as the number indicates. As a result, the angles 145° and 40° are NOT supplementary, and their total does not equal 180°. As a result, according to the “Converse of Same Side Interior Angle Theorem,” the lines in question are NOT parallel to one another. As a result, the lines l and m are not parallel. The side interior angles (4x+4)° and (10x+8)° in the next figure are the same as in the previous image. Example 2: Find out what the value of x is. Solution: Because l || m and t is a transversal, (4x+4)° and (10x+8)° are the identical side interior angles on either side of the equation. The “same side internal angle theorem,” which states that these angles are supplementary, or that their sum is equal to 180°, explains how this may be achieved. As a result, (4x+4) + (10x+8) = 18014x +12 = 18014x = 180 – 1214x = 168x = 12Thus, the value of x equals 12.

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## FAQs on Same Side Interior Angles

Despite having the same side interior angles, they are not congruent. They are meant to be supplementary. When two parallel lines are intersected by a transversal line, the same side interior angles are formed. The same side interior angles can only be congruent if each angle is equal to 90 degrees, because the sum of the same side interior angles is equal to 180 degrees when each angle is equal to 90 degrees.

### Are Same Side Interior Angles Adjacent?

Because the angles are created on two distinct lines that are parallel to each other, the same side interior angles are never next to each other on the same side.

### What Is the Sum of the Two Same Side Interior Angles on the Transversal?

When two parallel lines were intersected by a transversal, they generated internal angles on the same side, and the total of these angles equals 180 degrees. Because the total of the internal angles on the same side is 180 degrees, the angles are supplementary in this case.

### What Is the Converse of Same Side Interior Angles?

It is possible to have two lines crossed by a transversal and the angles inside on the same side are additional, or we may say that the total of inside angles on the same side equals 180 degrees, in which case the lines are said to be parallel.

### What Is Another Name of the Same Side Interior Angles?

Interior angles on the same side of the transversal are also known as successive interior angles because the angles are on the same side of the transversal but inside the boundaries of the two parallel lines.

### What Is the Difference Between Same Side Interior Angles and Same Side Exterior Angles?

When two parallel lines are crossed by a transversal line, the result is the formation of eight angles. A parallel line on the same side of the transversal is defined as having an angle inside it, and an angle outside it is defined as having an angle outside it. The same side internal angles are defined as being inside parallel lines on the same side of the transversal.

### What Is the Difference Between the Same Side Interior Angles and Corresponding Angles?

The difference between same side interior angles and corresponding angles is that corresponding angles are congruent, whereas in the case of same side interior angles, the sum of the same side interior angles is equal to 180 degrees only if the transversal line intersects two parallel lines, which is not the case in most cases.

## 3.7: Same Side Interior Angles

angles on the same side of a transversal and inside the lines it intersects are known as transversals. Two angles that are on the same side of the transversal and on the interior of (between) the two lines are known as same side interior angles (or same side interior angles). Drawing (figure) (PageIndex ) If two parallel lines are interrupted by a transversal, then the identical side interior angles of the two parallel lines are additional, as shown in the following formula: Drawing (figure) (PageIndex ) If l is parallel to m, then (mangle 1+mangle 2=180) is the result.

- If If Figure (PageIndex) is more than zero, then (l parallel m) Consider the following scenario: you are given with two angles that are on the same side of a transversal and between the two parallel lines that the transversal crosses.
- As an illustration (PageIndex ) Is (l m parallel to m) true?
- Solution Interior Angles on the same side are what we’re talking about here.
- Due to the fact that (130 + 67 =197) the lines are not parallel, they are not parallel.
- Two of them are (angle 6) and (angle 10), while the other two are (angle 8) and (angle 11).
- Example: (PageIndex )Find the value of the index page (x).
- Due to the fact that the lines are parallel, the angles add up to (180).
- Drawing (figure) (PageIndex ) Solution (y) is an interior angle on the same side as the right angle that has been indicated.
- As an illustration (PageIndex ) If (mangle 3=(3x+12) and (mangle 5=(5x+8)) and (mangle 3=(3x+12)), then find the value of (x).

Keep in mind that the sum of the identical side interior angles equals (180). (((begin(3x+12) +(5x+8)=180+(8x+20)=180+(8x=160)=180+(8x+20)=180+(8x=160)=180+(8x+20)=180+(8x=160)=180+(8x+20)=180+(8x=160)=180+(8x+20)=180+(8x+20)=180+(8x

## Review

To answer questions 1-2, utilize the diagram to determine if each angle pair is congruent, supplementary, or neither of the three. Drawing (figure) (PageIndex )

- (angle 5) and (angle 8)
- (angle 2) and (angle 3)
- (angle 5), and (angle 8)
- Are the lines parallel to one another? Please provide justification for your response. Figure (PageIndex)
- Figure (PageIndex)

In 4-5, utilize the information provided to identify whether lines are parallel to one another. If there aren’t any, simply type none. Take each question one at a time and think about it. Drawing (figure) (PageIndex )

- The angles (angle AFD) and (angle BDF) are supplementary
- Nonetheless, Both the supplemental angles (angle DIJ) and the supplementary angle (angle FJI) are used.

What does the value of x have to be in order for the lines to be parallel in numbers 6-8? Drawing (figure) (PageIndex )

- (mangle 3=(3x+25) and (mangle 5=(4x+55))
- (mangle 4=(2x+15) and (mangle 6=(3×5)
- (mangle 3=(x+17) and (mangle 5=(3×5)

Determine if the statement is true or untrue for questions 9-10.

- Interior angles on the same side of the transversal are on the same side of the transversal. When lines are parallel, the interior angles on the same side are congruent.

## Review (Answers)

To read the answers to the Review questions, open this PDF file and go down to section 3.6.

## Vocabulary

Term | Definition |
---|---|

same side interior angles | Same side interior angles are two angles that are on the same side of the transversal and on the interior of the two lines. |

supplementary angles | Two angles that add up to (180^ ). |

transversal | A line that intersects two other lines. |

## Additional Resource

Activities: Same Side Interior Angles Discussion QuestionsVideo: Same Side Interior Angles Principles – FundamentalActivities: Same Side Interior Angles Discussion Questions Angles and Transversals Study Guide is a useful resource for students. Interior angles on the same side should be practiced. Exterior Views from Different Perspectives in the Real World

## Same-Side Interior Angles: Theorem, Proof, and Examples

Ray holds a professional engineering license in the Philippines. He enjoys writing about mathematics and civil engineering in particular. A pair of same-side interior angles is a pair of angles that are on the same side of a transversal line and in between two parallel lines that have crossed each other. A transversal line is a straight line that crosses one or more other lines at right angles. The Interior Angles on the Same Side of a Transversal Theorem asserts that if a transversal intersects two parallel lines, then the interior angles on the same side of the transversal are additional to one another.

- The Theorem of Interior Angles on the Same Side ProofAssume that L 1 and L 2 are parallel lines cut by a transversal T in such a way that the interior angles 2 and 3 in the figure below are on the same side of T.
- Because 1 and 2 form a linear pair, they are considered to be supplementary.
- According to the Alternate Interior Angle Theorem, 1 + 3 = 1.
- As a result, numbers 2 and 3 are extra.

## The Converse of Same-Side Interior Angles Theorem

For two lines to be parallel, a transversal must cut them both, and if a pair of interior angles on the same side of the transversal is supplementary to each other, the lines are parallel. The converse of the Theorem of Interior Angles on the Same Side Proof Assume that L 1 and L 2 are two lines cut by transversal T in such a way that the numbers 2 and 4 are supplementary, as illustrated in the diagram below. Let us demonstrate that L 1 and L 2 are parallel to one another. Because the numbers 2 and 4 are supplementary, the sum of the numbers 2 and 4 equals 180°.

As a result, 1 + 4 = 180°.

Using the transitive property, we get 2 + 4 = 1 + 4 as a result of the addition. Because of the addition characteristic, 2 = 1. As a result, L 1 is parallel to L 2. The converse of the Theorem of Interior Angles on the Same Side John Ray Cuevas is a musician from the Dominican Republic.

## Example 1: Finding the Angle Measures Using Same-Side Interior Angles Theorem

In the following figure, segment AB and segment CD have a difference of 104°, and ray AK bisects ray AB and segment CD. Calculate the size of DAB, DAK, and KAB by multiplying them together. The following is an example of how to use the term “example.” Using the Same-Side Interior Angles Theorem, we can get the angle measures. Solution by John Ray Cuevas Because the sides AB and CD are parallel, the interior angles D and DAB are supplementary to one another. As a result, DAB = 180° minus 104° = 76°.

Answer in its final form As a result, DAK = KAB = (12)(76) = 38.

## Example 2: Determining if Two Lines Cut by Transversal Are Parallel

Identify if lines A and B are parallel given the same-side interior angles, as shown in the figure below. Example 2: Determining if Two Lines Cut by Transversal Are Parallel John Ray Cuevas is a musician from the Dominican Republic. Solution Apply the Same-Side Interior Angles Theorem in finding out if line A is parallel to line B. The theorem states that the same-side interior angles must be supplementary given the lines intersected by the transversal line are parallel. If the two angles add up to 180°, then line A is parallel to line B.

## Example 3: Finding the Value of X of Two Same-Side Interior Angles

Find the value of x that will align L 1 and L 2 such that they are parallel. Example 3: Calculating the value of X for two interior angles that are on the same side John Ray Cuevas is a musician from the Dominican Republic. Solution The internal angles on the same side of the equations are given. Because the lines are assumed to be parallel, the total of the angles must equal 180°. Create an expression that equals the sum of the two equations plus 180°. The product of (3x+45) and (2x+40) is 1805x + 85, which is 180 – 855*95, which equals 19.

## Example 4: Finding the Value of X Given Equations of the Same-Side Interior Angles

Find the value of x given that m4 = (3x + 6)° and m6 = (5x + 12)° are both positive integers. Obtaining the value of X from the Equations of the Same-Side Interior Angles in Example 4. John Ray Cuevas is a musician from the Dominican Republic. Solution The internal angles on the same side of the equations are given. Because the lines are assumed to be parallel, the total of the angles must equal 180°. Formulate an equation that sums the expressions of m4 and m6 to the power of 180 degrees. 180 – 208x is 160x, which equals 20.

Answer in its final form This means that the ultimate value of x will satisfy the equation, which is 20.

## Example 5: Finding the Value of Variable Y Using Same-Side Interior Angles Theorem

Y’s angle measure is the same-side interior angle as 105°, thus we must get the value of y by solving for the angle measure. Finding the value of the variable Y using the Same-Side Interior Angles Theorem is illustrated in Example 5. John Ray Cuevas is a musician from the Dominican Republic. Solution Make certain that y and the obtuse angle 105° are both interior angles on the same side of the equation. For the sake of satisfying the Same-Side Interior Angles Theorem, it simply implies that these two angles must add up to 180°.

y + 105 = 180y = 180 – 105y = 75y + 105 = 180y = 180 – 105y = 75 Answer in its final form When all factors are considered, the ultimate value of x that will fulfill the theorem is 75.

## Example 6: Finding the Angle Measure of All Same-Side Interior Angles

The lines L 1 and L 2 in the figure below are parallel to one another. Calculate the angles of m3, m4, and m5 using the formulas above. Example 6: Calculating the angle measure of all interior angles that are on the same side John Ray Cuevas is a musician from the Dominican Republic. Solution The lines L 1 and L 2 are parallel, and according to the Same-Side Interior Angles Theorem, angles on the same side must be supplementary in order for them to be complementary. Make a note of the fact that m5 is additive to the supplied angle measure of 62°, and thatm5 + 62=180m5 = 180– 62m5 = 118.

Make an expression by combining the acquired angle measure of m5 with m3 to equal 180.m5 + m3 = 180118 + m3 = 180m3 = 180 – 118m3 = 62m3 = 180 – 118m3 = 62m3 = 180 – 118m3 = 62 The same notion applies to the angle measure m4 as well as the supplied angle of 62 degrees.

62 + m4 = 180m4 = 180 – 62m4 = 118m4 = 180 – 62m4 = 118 It also demonstrates that m5 and m4 are angles with the same measure of the angle.

## Example 7: Proving Two Lines Are Not Parallel

The lines L 1 and L 2, as seen in the diagram below, are not parallel to one another. Can you explain the angle measure of z? 7th Example: Demonstrating that two lines are not parallel John Ray Cuevas is a musician from the Dominican Republic. Solution Due to the fact that L 1 and L 2 are not parallel, it is not permissible to assume that the angles z and 58° are additional in this situation. Though z cannot be less than or more than 180 degrees and hence equal to 120 degrees, it can be any other measure of greater or lesser magnitude.

Once you’ve established that, it’s simple to make an educated prediction.

## Example 8: Solving for the Angle Measures of Same-Side Interior Angles

The Same-Side Interior Angle Theorem may be used to determine the angles measurements of b, c, f, and g, given that the lines L 1, L 2, and L 3 are parallel to one another. Example number eight: Solving for the Angle Measures of Interior Angles on the Same-Side Surface John Ray Cuevas is a musician from the Dominican Republic. Solution In light of the fact that L 1 and L 2 are parallel, mb and 53° are considered supplementary. Construct an algebraic equation that demonstrates that the sum of mb and 53° equals 180°.

Calculate an algebraic formula that demonstrates that the sum of b and c equals 180°.

mb + mc = 180127 + mc = 180mc = 180 – 127mc = 53mb + mc = 180mb + mc = 180mb + mc = 180mb + mc = 180mb + mc = 180mb + mc = 180 Because the lines L 1, L 2, and L 3 are parallel and a straight transversal line cuts them, all of the same-side interior angles between the lines L 1 and L 2 are the same as the same-side interior angles between the lines L 2 and L 3.

This is because the lines L 1, L 2, and L 3 are parallel and a straight transversal line cuts them. Amounts in milligrams: mf = bmf = 127mg = cmg = 53 mf = bmf = 127 mg = cmg = 53 Answer in its final form mb = 127°, mc = 53°, mf = 127°, mg = 53°, mf = 127°, mg = 53°

## Example 9: Identifying the Same-Side Interior Angles in a Diagram

Give the complicated figure below, and then find three internal angles on the same side. The same-side interior angles of a diagram are identified in the ninth example. Solution by John Ray Cuevas The figure contains a large number of internal angles that are on the same side. It is reasonable to deduce that three out of numerous same-side internal angles are 6 and 10, 7 and 11, and 5 and 9, based on careful observation.

## Example 10: Determining Which Lines Are Parallel Given a Condition

Determine which lines in the figure are parallel based on the fact that AFD and BDF are supplemental. Example 10: Identifying whether lines are parallel in the presence of a certain condition John Ray Cuevas is a musician from the Dominican Republic. Solution By careful examination, it can be determined that the parallel lines are line AFJM and line BDI, under the condition that AFD and BDF are supplementary.

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## Same Side Interior and Same Side Exterior Angles – Concept – Geometry Video by Brightstorm

When we apply what we’ve learned about alternate interior and alternate exterior angles to the same side angles, we discover some intriguing facts about the same side angles. Now, what exactly do I mean by “same side”? Interior angles on the same side would be 4 and 5, so take note that we have parallel lines as well as the transversal. The numbers 4 and 5 are on the same side of the transversal as each other. Because the transversal line intersects two parallel lines on the same side, I’ll refer to this as the interior side because it is in between angles that are supplementary.

According to our knowledge of alternate exterior and alternate interior angles, they must be compatible with one another.

This implies that 5+6 must equal 180 degrees, and since 6 and 4 are congruent, we can infer that the same side interior angles are supplementary by using the transitive property, which states that if 5 and 6 are supplementary, then 5 and 4 are supplementary, and thus we can say that the same side interior angles are supplementary.

In terms of the same side external, if I delete these marks, exterior implies outside of the parallel lines, which is what I’m referring to here.

As a result, angle 2 and angle 7 are supplementary in the same way that angle 1 and angle 8 are.

## Proof of Same Side Interior Angles

Universityof Georgia students Kristina Dunbar and Michelle Corey and Russell Kennedy and Floyd Rinehart demonstrated that the same side interior angles are the same on both sides. Interior angles on the same side are the same as on the outside. Assume that the lines L, M, and T are different from one another. Then L and M are parallel if and only if the identical side interior angles of the intersection of L and T and the intersection of M and T are supplementary, otherwise they are not parallel.

- Assume L||Mand the angle assignments listed above.
- This is because A and C are two points on the parallel line L on opposite sides of the transversal T, and B is the intersection of the parallel lines L and T.
- As a result, we know that + 180 equals 180, and we can swap for to get + 180 equals 180.
- In order to achieve += 180, substitute for in the equation.
- =Assuming that the identical side interior angles are supplementary, demonstrate that L and M are parallel.
- L and M do not cross since their interior angles on each side of the transversal equal180, which is, of course, more than 180 according to the parallel axiom.
- In addition, if we know that + =+= 180, then we know that there can only be two possibilities: either the lines do not intersect at all (and so are parallel), or the lines overlap on both sides (and hence are parallel).
- This would be impossible since a line is determined by two points.

Therefore, L||M.|| Parallels Main Page|| Kristina Dunbar’s Main Page|| Dr. McCrory’s GeometryPage|| L||M.|| Parallels Main Page|| Kristina Dunbar’s Main Page|| Dr. McCrory’s GeometryPage|| L||M.|| Parallels Main Page|| L||M.|| Parallels Main Page|| L||M.|| Parallels

## Consecutive Interior Angles Theorem

An angle pair on one side of a transversal that is contained inside two lines is referred to as a pair of successive internal angles when two lines are cut by a transversal. When two lines are severed by a transversal, a transversal is referred to as a transversal. The angles 3 and 5 in the illustration are successive internal angles. Angles 4 and 6 are also successive internal angles, as are angles 5 and 6.

### Consecutive Interior Angles Theorem

When a transversal is used to intersect two parallel lines, the pairs of successive interior angles that are generated are known as additional internal angles. Proof: Given that kl is a transversal verb, Clearly demonstrate that numbers 3 and 5 are supplementary and that numbers 4 and 6 are supplementary.

Statement | Reason | |

1 | k∥l,tis a traversal. | Given |

2 | ∠1and∠3form a linear pair and∠2and∠4form a linear pair. | Definition oflinear pair |

3 | ∠1and∠3are supplementarym∠1+m∠3=180°∠2and∠4aresupplementarym∠2+m∠4=180° | Supplement Postulate |

4 | ∠1≅∠5and∠2≅∠6 | Corresponding Angles Theorem |

5 | ∠3and∠5are supplementary∠4and∠6are supplementary. | Substitution Property |

## Corresponding Angles – Explanation & Examples

For the purpose of understanding comparable angles, let us first review the concepts of angles, parallel and non-parallel lines, and transversal lines (which are all related). An angle is made of three pieces in Geometry: the vertex, two arms or sides, and the rest of the angle. When two sides or lines of an angle meet, the angle is said to be at its vertex. When an angle is at its arms, it is said to be at its sides. Parallel lines are two or more lines on a two-dimensional plane that never meet or cross each other or intersect.

A transversal line is a line that connects two other lines by crossing or passing through them.

## What is a Corresponding Angle?

Corresponding angles are the angles created when a transversal line runs over two straight lines at right angles to one other. When two or more straight lines cross in the same relative location, the corresponding angles are situated at the intersection of the transversal and the two or more straight lines. In geometry, the angle rule of corresponding angles (also known as the corresponding angles rule) states that if a transversal intersects two parallel lines, the corresponding angles must be equal.

As seen in the picture below, similar angles are generated when a transversal line crosses two parallel lines at the points indicated: According to the figure above, the pair of equivalent angles are as follows: Corresponding Angles are Demonstrated Two parallel lines may be seen in the illustration above.

The straight angles are as follows: We have, as a result of the transitive property, the alternative angle’s theorem, and substitution, the following:

### Corresponding angles formed by non-parallel lines

The formation of corresponding angles occurs when a transversal line encounters at least two non-parallel lines that are not equal to one another and in reality have no relationship to one another. Illustration:

### Corresponding interior angle

A pair of matching angles is made up of one internal angle and one outside angle that are orthogonal to one another.

Interior angles are angles that are located within the corners of the intersections, as opposed to exterior angles.

### Corresponding exterior angle

Angles that are produced outside of the crossed parallel lines are called oblique angles. A pair of matching angles is formed by the intersection of an exterior angle and an inner angle. Illustration: Interior angles are represented by the letters b, c, e, and f, whereas exterior angles are represented by the letters a, d, g, and h. As a result, the following are examples of pairs of corresponding angles: In terms of equivalent angles, we might get to the following conclusions:

- In each transversal direction, a pair of corresponding angles is found on one of its sides
- The corresponding pair of angles consists of one exterior angle and another inner angle. All related angles are not created equal. When a transversal meets two parallel lines, the corresponding angles are the same as each other. Whenever a transversal encounters a line that is not parallel to it, the resulting angles are not congruent and are not connected in any way. When a transversal perpendicular meets two parallel lines, corresponding angles are formed
- These are referred to as additional angles. If the lines are parallel, the exterior angles on the same side of the transversal are supplementary to one another. When two lines are parallel, interior angles are supplementary, and vice versa.

## How to find corresponding angles?

One method of resolving similar angles is to draw the letter F on the provided diagram, which represents the solution. Make the letter face in whatever direction you like, and then link the angles to that direction. Exemple No. 1 Find the missing angles in the picture below, assuming that d = 30 degrees. Solution Given that d=30°d=b, we may say that (Vertically opposite angles) So the equation is b=30°b=g=30°b=g =30° (corresponding angles) Now, d=f is equal to (Corresponding angles) As a result, f= 30° b+ a = 180° and f= 30° b+ a (supplementary angles) a plus 30 degrees equals 180 degrees.

- (corresponding angles) For example, in the image below, the two matching angles measure 9x + 10 and 55.
- Solution The two angles that correspond to one other are always congruent.
- Determine the magnitude of an angle that corresponds to the given angle.
- The two angles that correspond to one other are always congruent.

### Applications of Corresponding Angles

There are several uses of comparable angles that we are not aware of. If you ever get the opportunity to observe them, do it.

- Typically, windows are equipped with horizontal and vertical grills, which combine to form several squares. Each vertex of the square creates the corresponding angles
- The bridge is supported by the pillars on which it is built. Similarly, all of the pillars are joined together in such a way that the corresponding angles are equal. The railway tracks are constructed in such a way that all of the corresponding angles on the track are equal

## Angles and Parallel Lines – MathBitsNotebook(Geo

When atransversalintersects two or more lines in the same plane, a series of angles are formed. Certain pairs of angles are given specific “names” based upon their locations in relation to the lines. These specific names may be used whether the lines involved are parallel or not parallel.
Look at these angles in respect to parallel lines and see what you come up with.
In addition to the four pairs of named angles that are used when working with parallel lines (as described above), there are a few pairs of “old buddies” that are also utilized when working with parallel lines (as listed below).
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