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Hannah Province – Mathematics Department – Southwest Tennessee Community College
Pre-Calculus II
4.1 – Angles and Radian Measures
A point is a location or position that has no size or
dimension.
A line extends indefinitely in both directions and contains an infinite amount of points.
A plane is a flat, smooth surface that extends indefinitely
in all directions, and contains an infinite number of points and lines.
A line segment or segment is part of a line and starts and stops at distinct points called endpoints.
A ray consists of a point on a line and all points of the line on one side of the point.
An angle is formed by two rays (or lines) that have a common endpoint. One ray is called the initial side and
the other the terminal side.
An acute angle: (0°<θ<90°) An obtuse angle: (90°<θ<180°)
A right angle: (θ=90°, rotation)
A straight angle: (θ=180°, rotation)
A
A
A B
A B
A
Point A
Line AB AB
Plane
Line Segment AB
AB
Ray AB
AB
B
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Hannah Province – Mathematics Department – Southwest Tennessee Community College
The clock to the left shows the hour hand
(initial side) at twelve and the minute hand (terminal side) at 3. These two hands are rays
and they form an angle. The common endpoint of the two rays is called the vertex of
the angle.
Angles are often labeled with lowercase letter Greek letters, such
as alpha(α), beta(β), gamma(γ), and theta(θ). An angle is in standard position if
- its vertex is at the origin of a rectangular coordinate system
- its initial side lies along the positive x-axis.
α is in standard position θ is in standard position
α is positive θ is negative
α
B
θ
A C
Initial Side Terminal Side
Vertex
θ
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Hannah Province – Mathematics Department – Southwest Tennessee Community College
An angle is positive if generated by counterclockwise rotation.
An angle is negative if generated by clockwise rotation.
Measuring Angles –
A degree is a unit of measuring angles. It represents of a
complete rotation about the vertex. (There are 360 degrees (360°)
in a complete rotation or circle).
A right angle is an angle that measures 90 degrees (90°). Two lines that intersect to form
a right angle are perpendicular lines. A small square in the corner of the angle is used to
indicate a right angle.
A straight line has an angle measure of 180
degrees (180°). A vertical line runs up and
down, and a horizontal line runs left and right.
Angle Names: Acute – Angle measures less than 90°, but more than 0°
Straight – Angle measures 180° Obtuse – Angle measures more than 90°, but less than 180°
Right – Angle measures 90°
Fractional parts of angles are measured in minutes and seconds.
- One minute, written 1’ is degree: 1’ =
- One second, written 1” is degree: 1”=
Example –
90°
180°
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Hannah Province – Mathematics Department – Southwest Tennessee Community College
Many calculators are able to change from degree-minute-second
notation (D°M’S”) to a decimal and vice a versa. Calculator: 2nd
Apps
Measuring Angles in Radians –
Another way to measure an angle is in radians.
Radian Measure – Consider an arc of length s on a circle of
radius r. The measure of the central angle, θ, that intercepts the
arc is
Terminal Side
Initial Side
r r
r
One radian
One radian is the measure of the
central angle of a circle that intercepts an arc equal to the lengths to the
radius of the circle. (the radius of the circle is r) A central angle is an angle
whose vertex is at the center of the
circle.
r
r β
r
r γ r
We find the length of an angle in radians by dividing the length of the intercepted arc by the radius.
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Hannah Province – Mathematics Department – Southwest Tennessee Community College
Example – Find the radian measure of θ if the arc length is 15 inches and the radius is 6 inches?
Example – Find the radian measure of θ if the arc length is 42 inches and the radius is 12 inches?
Relationship between Degrees and Radians –
We know a full rotation around a circle has 360° and we know that
the circumference of a circle with radius, r, is 2πr. Thus the radian measure of a central angle is the circumference of the circle
divided by the circles radius, r. We use the formula for radian measure to find the radian measure of the 360° angle.
Because one complete rotation measures 360° and 2π radians,
360°= 2π radians
Dividing both sides by 2, we have
180°= π radians
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Hannah Province – Mathematics Department – Southwest Tennessee Community College
Conversion between degrees and radians:
Using the basic relationship π radians = 180°, 2 π radians = 360°
- To convert degrees to radians, multiply degrees by
- To convert radians to degrees, multiply radians by
Angles that are fractions of a complete rotation are usually
expressed in radian measure as fractional multiples of π, rather
than decimal approximations. For example θ = rather than using
the decimal approximation θ ≅ 1.57 Example – Convert each angle in degrees to radians.
1. 30°
2. 90°
3. -135°
Example – Convert each angle in radians to degrees.
1.
2.
3.
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Hannah Province – Mathematics Department – Southwest Tennessee Community College
Drawing Angles in Standard Position –
To become comfortable with radian measure, consider angles in standard position. Each origin is the vertex and each initial side is
along the positive x-axis. Think of the terminal side as the side of the angle as revolving around the origin.
Example – Drawing angles in standard position; Note one way to do this is to convert to degrees.
1.
2.
3.
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Terminal Side Radian Measure of Angle Degree Measure of Angle
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Hannah Province – Mathematics Department – Southwest Tennessee Community College
The graph below shows what is called the unit circle. It contains
the degree measurements and radian measurements
Recall that the x-axis is initial side so when moving counterclockwise the angles are positive, and when moving
clockwise the angles are negative, so instead of having 330° we would have -30°, instead of 315° we would have -45°, instead of
300° we would have -60°, and so on. Also the radian measures
would change also so instead of we would have , instead of
we would have , and so on.
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Hannah Province – Mathematics Department – Southwest Tennessee Community College
Two angles with the same initial sides but possibly different
rotations are called coterminal angles. Every angle has infinitely many coterminal angles.
Coterminal Angles –
Increasing or decreasing the degree of an angle in standard position by an integer multiply of 360° results in a coterminal
angle. Thus an angle of θ° is coterminal with angles of θ°± 360°k, where k is an integer. Increasing or decreasing the radian measure of an angle in
standard position by an integer multiply of 2π results in a
coterminal angle. Thus an angle of θ radians is coterminal with
angles of θ ± 2πk, where k is an integer.
Two coterminal angles for an angle of θ° can be found by adding
360° to θ° and by subtracting 360° from θ°.
Example – Assuming the following angles are in standard
position. Find a positive angle less than 360° that is coterminal
with each of the following. 1. a 420° angle
2. a -120° angle
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Hannah Province – Mathematics Department – Southwest Tennessee Community College
Example – Assuming the following angles are in standard
position. Find a positive angle less than 2π that is coterminal with each of the following.
1. a
2. a
To find a positive coterminal angle less than 360° or 2π, it is sometimes necessary to add or subtract more than one multiple
of 360° or 2π.
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Hannah Province – Mathematics Department – Southwest Tennessee Community College
Example – Assuming the following angles are in standard
position. Find a positive angle less than 360° or 2π that is coterminal with each of the following.
1. a
2. a
3. a
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Hannah Province – Mathematics Department – Southwest Tennessee Community College
The Length of a Circular Arc
Let r be the radius of a circle and θ the non-negative radian measure of a central angle of the circle. The length of the arc intercepted
by the central angle is
Example – A circle has a radius a 10 inches. Find the length of
the arc intercepted by a central angle of 120°.
Example – A circle has a radius a 6 inches. Find the length of the arc intercepted by a central angle of 45°. Express arc length in
terms of π. Then round your answer to the nearest hundreds.
r
θ
x=arc length
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Hannah Province – Mathematics Department – Southwest Tennessee Community College
Linear and Angular Speed
Think of a carousel it contains four circular rows of animals. As the carousel revolves, the animals in the outer row travel a
greater distance per unit time than those in the inner rows. By contrast, all animals, regardless of row, complete the same
number of revolutions per unit time. All animals in the four rows travel at the same angular speed.
Linear and Angular Speed – If a point is in motion on a circle of
radius r through an angle of θ radians in time t, then its linear
speed is , where s is the arc length given by , and its
angular speed is .
Example – If the hard drive in a computer rotates at 3600 rotations per minute. Express the angular speed of a hard drive in
radians per minute. (Note: 1 revolution = 2π radians)
We can establish a relationship between linear speed and angular
speed, by dividing both sides of the arc length formula, by t
Thus, linear speed is the product of the radius and the angular speed.
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Hannah Province – Mathematics Department – Southwest Tennessee Community College
Note we can write linear speed in terms of angular speed. Recall
and and .
Example – A windmill is used to generate electricity has blades that are 10 feet in length. The propeller is rotating around at 4
revolutions per second. Find the linear speed, in feet per second of the tips of the blades.