name , • • eate period)rech-delany.weebly.com/uploads/2/4/0/8/24081973/unit_7... · 2018. 10....
Post on 26-Jan-2021
2 Views
Preview:
TRANSCRIPT
-
NAME , • - • EATE PERIOD)
-
2 Practice
Angles and Angle Measure O Draw an angle with the given measure in
standard position. - -
1, 21.0° 2, 305° 3, 580°
W J
7 3– , –560°
Rewrite each degree measure in radians and each radian measure in degrees.
As Find one angle with positive measure and one angle with negative measure
* & po -29 E } . (p4% – 15 23.65 L25, J)
3 7 3.
-
NAME DATE PERIOD
-
Practice Trigonometric Functions of General Angles O h
Find the exact values of the six trigonometric functions of 6 if the terminal side of 6 in
standard position contains the given point.
1, 6,8) 2. 20, 21) war- -2g -- - - . P _ (ry" - COC -- sur, Is ce: Sún 3: C2C 23
2 Coo Tae9 A2C-ad woo -aw 23
A& - a an3 coe 24 : coo -33 &
- ourn 3: Find the reference angle for the angle with the given
measure.
Find the exact value of each trigonometric function. AI2 2.
T212. tan ass- 3 13, cSc (-)- 2. 1: - 3 O - 3 O
Suppose 6 is an angle in standard position whose terminal side is in the given
quadrant. For each function, find the exact values of the remaining five
trigonometric functions of ,
-
NAME .
-
Practice
Circular Functions
Fhe given point P is located on the unit circle. Find sin 9 and cos 9. 1. P) .
P08, .6)
C O9 he lot
Find the exact value of each function.
2- 2- 2. - 2
Determine the period of each function. .
-
Graehi nd Trig
O eraer Sine outou-ng . - l . J =
Asun e - 1
- 2, 2 g
="sen a e - 3 4,
3 = + coe e + 2 5.
48 H I
-
Trig C) . 3 traplify
eo-c Yn expre ssion l. on
e - CSC G (1)
Gec G -
3 sec G e cot e G
( - sun e ( A sun e
A.
O
9 .
(o .
-7 .
ar e sun e Coa e >
cot e Gee O
-
Trig Application
-
In an amusement park, there is a small Ferris wheel, called a kiddle wheel, for toddlers.
We will use the points on the circle in the diagram at right to represent the position of
the cars on the wheel. The kiddle wheel has four cars, makes#
gr) nityrand
ground to a car at the lowest point is 5 feet. Assume t = 0 corresponds to a
time wheth car 1 is closest to the ground. -
32
in the classic novel, Don Quixote, the title character famously battles a windmill.
In this problem, you will model what happens when Don Quixote battles a
windmill, and the windmill wins. Suppose the center of the windmill ls 20 feet off
the ground, and the sails are 15 feet long, Don Quixote is caught on a tip of one of
the sails. The sails
The High Roller, a Ferrls wheel In Las Vegas, Nevada, opened in March 2014. The 550 ft, tail wheel
has a diameter of 520 feet, Aride an one of its 2B passenger cars lasts 30 minutes, the tline it
takes the wheel to complete one fulf rotation. Riders board the passenger cars at the bottom of
the wheel. Assume that once the wheel ls in motion,
- -. - It maintains a constant speed forthg80milittérldnd is rotating in a
counterclockwise direction.
-
OAs you ride the Ferris wheel, your distance from
-
the ground
varies sinusoidally with time. Lett be the number of
seconds that have elapsed since the Ferris Wheel started
(this does not include loading the Ferris wheel). You find
that it takes you 3 seconds to reach the top, 43 feet above
seconds, The diameter of the wheels 20
feet" , a = 32- 2C = 23 For the Fourth of July parade, Vicki decorated her tricycle with streamers and balloons.
She stuck one balloon on the outside rim of one of her back tires. The balloon starts at
ground level. As she rides, the height of balloon rises up and down, sinusoidally (that is,
a sine curve, The diameter of her tire is 10 inches.
ground, and that wheel makes a revolu
31, Sketch a graph showing the height of the balloon above the ground as
Vicki rolls along. _NsL------
W l of il HCoheel onalko- one rocellor ourio UUnd --) b. hat is the period of this graph" --
- O 2:cence 26-tect cle- C = 2-1Cr, C = 2 g" C, Write the equation of this function, – - 2
+
O = 5 b = 2: ol5- - 5 coo d. Use your equation to Mict the Hei ght of the balloon after
Vicki has traveled 42 inches.
3. 415
A wooden water wheel is next to an old stone mill. The water wheel
makesignergyolutiétist
afety-miniité dips down two feet below the surface of the water, and at
its highest point is E feet above the water, A snail attaches to the edge
of the wheel when the wheel is at its lowest point and rides the wheel
as it goes round and around. As time passes, the snail
rises up and down, and in fact, the height of the snail above the surface of
the water varies sinusoidally with time. Use this information to write the
particular equation that gives the
-
height of Snai t- - - W --7height of the snail over time O revo td. C Wo - 2n- " -23
Te -1 C2
1 CoO C222. . - l” S 2 T To keep baby Cristina entertained, her mother
often puts her in a Johnny Jump Up. It is a t) t- (9 (0 : on the end of a strong
spring which attaches in a doorway. When Mom puts Cristina , -2 - sfah,
she notices that the seat drops to just 8 inches above the floor. One and a
half seconds e 2-0
later (isis), the seat reaches its highest point of 20 inches above the ground. The
• e: continues to bounce up and down as time passes. Use this information to
write the - 4 &
5articular equation that gives the height of baby Cristinas Johnny Jump Up seat
over time, - Note: You can start the graph at the point where the seat is at its
lowest) • 3422–
top related