Whenever two angles share a defining line, ray, or segment, and do not overlap, we say they are adjacent angles. Here are some examples:
Whenever two segments, lines, or rays intersect at a point, two pairs of equal angles are formed. Each angle in the pair is on the opposite side of the intersection point, and they are called vertical angles.
If two angles form a right angle, we say they are complementary. We then know that they add to $90^\circ$90°.
If two angles form a straight angle, we say they are supplementary. We then know that they add to $180^\circ$180°.
Whenever we know that two (or more) angles form a right angle, a straight angle, or a full revolution, we can write an equation that expresses this relationship.
Solve for the value of $x$x in the diagram below:
Think: The angle formed is a full revolution, so adding these angles all together will make $360^\circ$360°.
We then use subtraction to make $x$x the subject:
We then do the subtraction to find $x$x:
$x=97$x=97Reflect: We never use degrees once we are working with an equation. We are solving for the value of $x$x, and we don't want to double up on using the degree symbol!
Enter an angle that is supplementary with $\angle CXD$∠CXD in the figure below:
Use the angle symbol $\angle$∠ in your answer.
The angles in the diagram below are complementary. What is the value of $x$x?
Solve real-world and mathematical problems involving angle measure, area, surface area, circumference, and volume.
Identify and use properties of supplementary, complementary, and adjacent angles in a multi- step problem to write and solve simple equations for an unknown angle in a figure.