mathleaks.com mathleaks.com Start chapters home Start History history History expand_more Community
Community expand_more
menu_open Close
{{ filterOption.label }}
{{ item.displayTitle }}
{{ item.subject.displayTitle }}
arrow_forward
No results
{{ searchError }}
search
Expand menu menu_open home
{{ courseTrack.displayTitle }}
{{ statistics.percent }}% Sign in to view progress
{{ printedBook.courseTrack.name }} {{ printedBook.name }}
search Use offline Tools apps
Login account_circle menu_open
Trigonometric Functions

Building the Unit Circle

An angle, which can be expressed in both degrees and radians, measures the distance of turn in a rotation. Because rotations follow a circular path, angles can be used when analyzing circles and vice versa. In fact, there's a special relationship between right triangles and a circle of radius

Rule

Special Right Triangles

Right triangles with certain acute angle measures are considered noteworthy. These include the following angle relationships.

  • - -
  • - -
  • - -

Although the first and third relationships contain the same angles, they are considered different because the reference angle in each is different — in the first and in the third. The sine, cosine, and tangents of these triangles can be useful when finding unknown side lengths.

Angle

These special measures are justified below.

Derivation

Special Right Triangles 30-60-90

Consider the - - triangle. Suppose an equilateral triangle has side lengths of


Bisecting the apex angle yields the following - - triangle.

The value of — the length of the third side — can be found using the Pythagorean Theorem. Here, and

Since, the - - triangle can be redrawn as follows.

Using the following relationships can be concluded.

Using the same triangle, the values for a - - triangle can be determined.

Derivation

Special Right Triangles 45-45-90

Suppose an isosceles triangle has a hypotenuse of and base angles that measure

Because the triangle is isosceles, its legs have equal measure. Because they are unknown, can be used to represent them. The Pythagorean Theorem can be used to determine the value of

The - - triangle can be redrawn as follows.

Using the following relationships can be concluded.


As was shown above, because the hypotenuse of these special right triangles is

Therefore, these values can be used to determine unknown side lengths.

Concept

Building the Unit Circle

By placing right triangles with one of their legs along the -axis, the coordinates of the vertex not on the axis can be found using the legs of the triangle.

In the first quadrant, the coordinates are the lengths of the triangle's legs. If the length of the hypotenuse is the legs of the special right triangles are given directly by the sine and cosine value of the angle at the origin and the coordinates are also the sine and cosine values.

Since the hypotenuse of these triangles is the marked points all lie on a circle with radius and a center at the origin.

This is called the unit circle. The coordinates of any point on this circle are the cosine and sine values of the angle the segment from the point to the origin creates with the positive -axis.

Concept

Radian

A radian, like a degree, is an angle unit. One radian is defined as the measure of the central angle that intercepts an arc equal in length to the radius of the circle. It corresponds to roughly
Animation of forming an arc that measures 1 radian
If the arc length is radii, the measure of the corresponding central angle is radians, and so on. Therefore, radians describe the number of radii an angle creates on a circle.
Rotation of a point on a circle
It can be observed that a semicircle corresponds to an arc length of radii and the circumference of a circle corresponds to an arc length of radii.
Rotation of a circle along a segment
In calculations, even if the angle is given in radians, rad is seldom written. Instead, no unit marker indicates radians. Consider two expressions. The first angle is given in degrees, and the other is given in radians. At first glance, radians might seem inconvenient, but they make calculations simpler in certain circumstances,. Radians are also the SI unit for angles.
fullscreen
Exercise

Use special right triangles and the unit circle to find the following trigonometric values.

Show Solution
Solution
Let's find the trigonometric values one at a time.

Example

The value is the -coordinate of the point on the unit circle that, together with the positive -axis, creates the angle

Here, we have a right triangle with the angles and The hypotenuse is so we know that the legs of the triangle are both That means the point is

Therefore, is

Example

Notice there is no degree symbol. This means the angle is given in radians. radians is half a revolution, meaning
does not correspond with a point on the unit circle, but it can be found using and The point corresponding to rad has the coordinates Thus, and

,

The tangent value of is

Example

Let's draw the angle from the positive -axis and mark the point it corresponds to on the unit circle.

An angle of would span from the positive -axis to the negative. Hence, a special right triangle can be drawn from the negative -axis to the terminal side of the angle. Recall that this triangle has legs that measure and

Since is the -coordinate of the point,

Rule

Relation between Radians and Degrees

Since both degrees and radians are used to measure angles, it's useful to be able to translate between them.

Rule

The arc length for one revolution around a circle is also known as the circumference of the circle, By dividing this with the length of the arc corresponding to one radian, the number of radians for one revolution is obtained. Thus, one revolution is radians. In degrees, this is leading to the relation rad. Dividing both sides by gives Thus, correspond to radians.

Rule

Relations

From the relation rad it's possible to find two rules, by dividing both sides by either or

Rule

To find an expression for divide both sides by

corresponds radians. That means that and so forth.

Rule

To get an expression for rad, divide both sides by

radian corresponds to

fullscreen
Exercise

Convert to radians and to degrees.

Show Solution
Solution

To convert an angle from degrees to radians we can use should be multiplied with rad.

Thus, is equal to radians. We could use the caluclator to get a numerical value here, but there are infinitely many decimals, so we'll keep it in its exact form: To convert an angle from radians to degrees we can use that Therefore, if we multiply with we'll get how many degrees it corresponds to.
Thus, radians correspond to
{{ 'mldesktop-placeholder-grade-tab' | message }}
{{ 'mldesktop-placeholder-grade' | message }} {{ article.displayTitle }}!
{{ grade.displayTitle }}
{{ exercise.headTitle }}
{{ 'ml-tooltip-premium-exercise' | message }}
{{ 'ml-tooltip-programming-exercise' | message }} {{ 'course' | message }} {{ exercise.course }}
Test
{{ 'ml-heading-exercise' | message }} {{ focusmode.exercise.exerciseName }}
{{ 'ml-btn-previous-exercise' | message }} arrow_back {{ 'ml-btn-next-exercise' | message }} arrow_forward