To find X, we must first find the other two angles that are inside the triangle with the angle X.

The other acute angle is obtainable because we know it is part of a 90 degree angle, with a line at 60 degrees splitting it, leaving it with 30 degrees for that angle. 

So now that we have one, we need to find the other attainable angle inside the triangle with X in it. The central angles will all equal 360 degrees. We know that one of the angles is 150 degrees, but we are not given the other two. The angle where the right arrow is pointing is attainable because we know the other two angles inside that triangle. 180 degrees minus 30 degrees minus 60 degrees leaves us with 90 degrees. Now, after subtracting 360 degrees from the two angles in the interior (150 degrees and 90 degrees), we find that the missing angle is 120 degrees

Now that we have the two angles needed to find x, the last step is to actually find x.

180 degrees minus 30 degrees minus 120 degrees equals 30 degrees. 

X=30 degrees

The line intersects the y-axis at y = 3. The slope of the line is 2, which means that from y = 3 the next point on the graph is up 2 and over 1. This creates a tiny triangle with the side length adjacent to the angle, on the y-axis, has length 2, and the side length opposite the angle, connecting the y-axis to the graph, has length 1. To find the angle, use tangent: 

The slope of the line is 2, so from the point the graph intersects the x-axis, the graph goes up 2 over 1. Just focusing on the point on the x-axis and the point 2 up and 1 to the right creates a small triangle. The side length adjacent to the angle we're looking for, on the x-axis, is 1, and the side length opposite the angle we're looking for, connecting the graph to the x-axis, has length 2. Use tangent to solve: 

 is defined to be the union of rays  and , the rays that have endpoint  and pass through, respectively,  and . In the diagram below, the two rays - and, consequently, the angle - are indicated in red.

 and  also pass through, respectively,  and , and can be called  and . This makes  a valid name for the angle.

If an angle is named with three letters, the middle letter is always the vertex of the angle. Therefore,  has its vertex at Point , and any three-letter name for this angle must have  as its middle letter. Therefore,  cannot be a valid alternative name for the angle.

By definition, two angles comprise a pair of vertical angles if 

(1) they have the same vertex; and

(2) the union of the two angles is exactly a pair of intersecting lines.

In the figure below,  and  are marked in green and red, respectively:

The two angles have the same vertex, and their union is a pair of intersecting lines. Therefore, the two angles are indeed a vertical pair.

By definition, two angles comprise a pair of vertical angles if 

(1) they have the same vertex; and

(2) the union of the two angles is exactly a pair of intersecting lines.

In the figure below,  and  are marked in green and red, respectively:

While the two angles have the same vertex, their union is not a pair of intersecting lines. The two angles are not a vertical pair.

By definition, two angles comprise a pair of vertical angles if 

(1) they have the same vertex; and

(2) the union of the two angles is exactly a pair of intersecting lines.

In the figure below,  and  are marked in green and red, respectively:

While the two angles have the same vertex, their union is not a pair of intersecting lines. The two angles are not a vertical pair.

By definition, two angles form a linear pair if and only if 

(1) they have the same vertex;

(2) they share a side; and,

(3) their interiors have no points in common.

In the figure below,  and  are marked in green and red, respectively:

The two angles have the same vertex and share no interior points. However, they do not share a side. Therefore, they do not comprise a linear pair.

By definition, two angles form a linear pair if and only if 

(1) they have the same vertex;

(2) they share a side; and,

(3) their interiors have no points in common.

In the figure below,  and  are marked in green and red, respectively:

The two angles have the same vertex and share no interior points. However, they do not share a side. Therefore, they do not comprise a linear pair.