Water Distribution System Optimization Plan, draft …...:$7(5 ',675,%87,21 6
Study Guide and Review - Chapter...
Transcript of Study Guide and Review - Chapter...
![Page 1: Study Guide and Review - Chapter 5acevedomath.weebly.com/uploads/3/9/0/4/39041429/5_4_5_5_reveiw_key.pdf · sin 75 62/87,21 1RWLFHWKDW LVKDOIRI 7KHUHIRUH DSSO\WKHKDOI -DQJOHLGHQWLW\IRUVLQH](https://reader031.fdocuments.net/reader031/viewer/2022041201/5d4c1dd588c993541b8b625e/html5/thumbnails/1.jpg)
Find the exact value of each trigonometric expression.45. cos 15
SOLUTION: Write 15° as the sum or difference of angle measures with cosines that you know.
ANSWER:
46. sin 345
SOLUTION: Write 345° as the sum or difference of angle measures with sines that you know.
ANSWER:
47. tan
SOLUTION:
ANSWER:
2 –
48. sin
SOLUTION:
Write as the sum or difference of angle measures with sines that you know.
ANSWER:
49. cos
SOLUTION:
Write as the sum or difference of angle measures with cosines that you know.
ANSWER:
50. tan
SOLUTION:
Write as the sum or difference of angle measures with tangents that you know.
ANSWER:
2 +
Simplify each expression.
51.
SOLUTION:
ANSWER: 0
52. cos 24 cos 36 − sin 24 sin 36
SOLUTION:
ANSWER:
53. sin 95 cos 50 − cos 95 sin 50
SOLUTION:
ANSWER:
54. cos cos + sin sin
SOLUTION:
ANSWER:
Verify each identity.
55. cos ( + 30 ) – sin ( + 60 ) = –sin
SOLUTION:
ANSWER:
56.
SOLUTION:
ANSWER:
57.
SOLUTION:
ANSWER:
58.
SOLUTION:
ANSWER:
Find the values of sin 2 , cos 2 , and tan 2 for the given value and interval.
59. cos = , (0 , 90 )
SOLUTION:
Since on the interval (0°, 90°), one point on the terminal side of θ has x-coordinate 1 and a distance of 3
units from the origin as shown. The y-coordinate of this point is therefore or 2 .
Using this point, we find that and Now use the double-angle identities for sine,
cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
60. tan = 2, (180 , 270 )
SOLUTION:
If tan = 2, then tan = . Since tan = on the interval (180°, 270°), one point on the terminal side of has
x-coordinate −1 and y-coordinate −2 as shown. The distance from the point to the origin is or .
Using this point, we find that and . Now use the double-angle identities for
sine, cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
Find the exact value of each expression.63. sin 75
SOLUTION: Notice that 75° is half of 150°. Therefore, apply the half-angle identity for sine, noting that since 75° lies in QuadrantI, its sine is positive.
ANSWER:
64. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant II, its cosine is negative.
ANSWER:
65. tan 67.5
SOLUTION: Notice that 67.5° is half of 135°. Therefore, apply the half-angle identity for tangent, noting that since 67.5° lies in Quadrant I, its tangent is positive.
ANSWER:
66. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant I, its cosine is positive.
ANSWER:
eSolutions Manual - Powered by Cognero Page 1
Study Guide and Review - Chapter 5
![Page 2: Study Guide and Review - Chapter 5acevedomath.weebly.com/uploads/3/9/0/4/39041429/5_4_5_5_reveiw_key.pdf · sin 75 62/87,21 1RWLFHWKDW LVKDOIRI 7KHUHIRUH DSSO\WKHKDOI -DQJOHLGHQWLW\IRUVLQH](https://reader031.fdocuments.net/reader031/viewer/2022041201/5d4c1dd588c993541b8b625e/html5/thumbnails/2.jpg)
Find the exact value of each trigonometric expression.45. cos 15
SOLUTION: Write 15° as the sum or difference of angle measures with cosines that you know.
ANSWER:
46. sin 345
SOLUTION: Write 345° as the sum or difference of angle measures with sines that you know.
ANSWER:
47. tan
SOLUTION:
ANSWER:
2 –
48. sin
SOLUTION:
Write as the sum or difference of angle measures with sines that you know.
ANSWER:
49. cos
SOLUTION:
Write as the sum or difference of angle measures with cosines that you know.
ANSWER:
50. tan
SOLUTION:
Write as the sum or difference of angle measures with tangents that you know.
ANSWER:
2 +
Simplify each expression.
51.
SOLUTION:
ANSWER: 0
52. cos 24 cos 36 − sin 24 sin 36
SOLUTION:
ANSWER:
53. sin 95 cos 50 − cos 95 sin 50
SOLUTION:
ANSWER:
54. cos cos + sin sin
SOLUTION:
ANSWER:
Verify each identity.
55. cos ( + 30 ) – sin ( + 60 ) = –sin
SOLUTION:
ANSWER:
56.
SOLUTION:
ANSWER:
57.
SOLUTION:
ANSWER:
58.
SOLUTION:
ANSWER:
Find the values of sin 2 , cos 2 , and tan 2 for the given value and interval.
59. cos = , (0 , 90 )
SOLUTION:
Since on the interval (0°, 90°), one point on the terminal side of θ has x-coordinate 1 and a distance of 3
units from the origin as shown. The y-coordinate of this point is therefore or 2 .
Using this point, we find that and Now use the double-angle identities for sine,
cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
60. tan = 2, (180 , 270 )
SOLUTION:
If tan = 2, then tan = . Since tan = on the interval (180°, 270°), one point on the terminal side of has
x-coordinate −1 and y-coordinate −2 as shown. The distance from the point to the origin is or .
Using this point, we find that and . Now use the double-angle identities for
sine, cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
Find the exact value of each expression.63. sin 75
SOLUTION: Notice that 75° is half of 150°. Therefore, apply the half-angle identity for sine, noting that since 75° lies in QuadrantI, its sine is positive.
ANSWER:
64. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant II, its cosine is negative.
ANSWER:
65. tan 67.5
SOLUTION: Notice that 67.5° is half of 135°. Therefore, apply the half-angle identity for tangent, noting that since 67.5° lies in Quadrant I, its tangent is positive.
ANSWER:
66. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant I, its cosine is positive.
ANSWER:
eSolutions Manual - Powered by Cognero Page 2
Study Guide and Review - Chapter 5
![Page 3: Study Guide and Review - Chapter 5acevedomath.weebly.com/uploads/3/9/0/4/39041429/5_4_5_5_reveiw_key.pdf · sin 75 62/87,21 1RWLFHWKDW LVKDOIRI 7KHUHIRUH DSSO\WKHKDOI -DQJOHLGHQWLW\IRUVLQH](https://reader031.fdocuments.net/reader031/viewer/2022041201/5d4c1dd588c993541b8b625e/html5/thumbnails/3.jpg)
Find the exact value of each trigonometric expression.45. cos 15
SOLUTION: Write 15° as the sum or difference of angle measures with cosines that you know.
ANSWER:
46. sin 345
SOLUTION: Write 345° as the sum or difference of angle measures with sines that you know.
ANSWER:
47. tan
SOLUTION:
ANSWER:
2 –
48. sin
SOLUTION:
Write as the sum or difference of angle measures with sines that you know.
ANSWER:
49. cos
SOLUTION:
Write as the sum or difference of angle measures with cosines that you know.
ANSWER:
50. tan
SOLUTION:
Write as the sum or difference of angle measures with tangents that you know.
ANSWER:
2 +
Simplify each expression.
51.
SOLUTION:
ANSWER: 0
52. cos 24 cos 36 − sin 24 sin 36
SOLUTION:
ANSWER:
53. sin 95 cos 50 − cos 95 sin 50
SOLUTION:
ANSWER:
54. cos cos + sin sin
SOLUTION:
ANSWER:
Verify each identity.
55. cos ( + 30 ) – sin ( + 60 ) = –sin
SOLUTION:
ANSWER:
56.
SOLUTION:
ANSWER:
57.
SOLUTION:
ANSWER:
58.
SOLUTION:
ANSWER:
Find the values of sin 2 , cos 2 , and tan 2 for the given value and interval.
59. cos = , (0 , 90 )
SOLUTION:
Since on the interval (0°, 90°), one point on the terminal side of θ has x-coordinate 1 and a distance of 3
units from the origin as shown. The y-coordinate of this point is therefore or 2 .
Using this point, we find that and Now use the double-angle identities for sine,
cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
60. tan = 2, (180 , 270 )
SOLUTION:
If tan = 2, then tan = . Since tan = on the interval (180°, 270°), one point on the terminal side of has
x-coordinate −1 and y-coordinate −2 as shown. The distance from the point to the origin is or .
Using this point, we find that and . Now use the double-angle identities for
sine, cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
Find the exact value of each expression.63. sin 75
SOLUTION: Notice that 75° is half of 150°. Therefore, apply the half-angle identity for sine, noting that since 75° lies in QuadrantI, its sine is positive.
ANSWER:
64. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant II, its cosine is negative.
ANSWER:
65. tan 67.5
SOLUTION: Notice that 67.5° is half of 135°. Therefore, apply the half-angle identity for tangent, noting that since 67.5° lies in Quadrant I, its tangent is positive.
ANSWER:
66. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant I, its cosine is positive.
ANSWER:
eSolutions Manual - Powered by Cognero Page 3
Study Guide and Review - Chapter 5
![Page 4: Study Guide and Review - Chapter 5acevedomath.weebly.com/uploads/3/9/0/4/39041429/5_4_5_5_reveiw_key.pdf · sin 75 62/87,21 1RWLFHWKDW LVKDOIRI 7KHUHIRUH DSSO\WKHKDOI -DQJOHLGHQWLW\IRUVLQH](https://reader031.fdocuments.net/reader031/viewer/2022041201/5d4c1dd588c993541b8b625e/html5/thumbnails/4.jpg)
Find the exact value of each trigonometric expression.45. cos 15
SOLUTION: Write 15° as the sum or difference of angle measures with cosines that you know.
ANSWER:
46. sin 345
SOLUTION: Write 345° as the sum or difference of angle measures with sines that you know.
ANSWER:
47. tan
SOLUTION:
ANSWER:
2 –
48. sin
SOLUTION:
Write as the sum or difference of angle measures with sines that you know.
ANSWER:
49. cos
SOLUTION:
Write as the sum or difference of angle measures with cosines that you know.
ANSWER:
50. tan
SOLUTION:
Write as the sum or difference of angle measures with tangents that you know.
ANSWER:
2 +
Simplify each expression.
51.
SOLUTION:
ANSWER: 0
52. cos 24 cos 36 − sin 24 sin 36
SOLUTION:
ANSWER:
53. sin 95 cos 50 − cos 95 sin 50
SOLUTION:
ANSWER:
54. cos cos + sin sin
SOLUTION:
ANSWER:
Verify each identity.
55. cos ( + 30 ) – sin ( + 60 ) = –sin
SOLUTION:
ANSWER:
56.
SOLUTION:
ANSWER:
57.
SOLUTION:
ANSWER:
58.
SOLUTION:
ANSWER:
Find the values of sin 2 , cos 2 , and tan 2 for the given value and interval.
59. cos = , (0 , 90 )
SOLUTION:
Since on the interval (0°, 90°), one point on the terminal side of θ has x-coordinate 1 and a distance of 3
units from the origin as shown. The y-coordinate of this point is therefore or 2 .
Using this point, we find that and Now use the double-angle identities for sine,
cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
60. tan = 2, (180 , 270 )
SOLUTION:
If tan = 2, then tan = . Since tan = on the interval (180°, 270°), one point on the terminal side of has
x-coordinate −1 and y-coordinate −2 as shown. The distance from the point to the origin is or .
Using this point, we find that and . Now use the double-angle identities for
sine, cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
Find the exact value of each expression.63. sin 75
SOLUTION: Notice that 75° is half of 150°. Therefore, apply the half-angle identity for sine, noting that since 75° lies in QuadrantI, its sine is positive.
ANSWER:
64. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant II, its cosine is negative.
ANSWER:
65. tan 67.5
SOLUTION: Notice that 67.5° is half of 135°. Therefore, apply the half-angle identity for tangent, noting that since 67.5° lies in Quadrant I, its tangent is positive.
ANSWER:
66. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant I, its cosine is positive.
ANSWER:
eSolutions Manual - Powered by Cognero Page 4
Study Guide and Review - Chapter 5
![Page 5: Study Guide and Review - Chapter 5acevedomath.weebly.com/uploads/3/9/0/4/39041429/5_4_5_5_reveiw_key.pdf · sin 75 62/87,21 1RWLFHWKDW LVKDOIRI 7KHUHIRUH DSSO\WKHKDOI -DQJOHLGHQWLW\IRUVLQH](https://reader031.fdocuments.net/reader031/viewer/2022041201/5d4c1dd588c993541b8b625e/html5/thumbnails/5.jpg)
Find the exact value of each trigonometric expression.45. cos 15
SOLUTION: Write 15° as the sum or difference of angle measures with cosines that you know.
ANSWER:
46. sin 345
SOLUTION: Write 345° as the sum or difference of angle measures with sines that you know.
ANSWER:
47. tan
SOLUTION:
ANSWER:
2 –
48. sin
SOLUTION:
Write as the sum or difference of angle measures with sines that you know.
ANSWER:
49. cos
SOLUTION:
Write as the sum or difference of angle measures with cosines that you know.
ANSWER:
50. tan
SOLUTION:
Write as the sum or difference of angle measures with tangents that you know.
ANSWER:
2 +
Simplify each expression.
51.
SOLUTION:
ANSWER: 0
52. cos 24 cos 36 − sin 24 sin 36
SOLUTION:
ANSWER:
53. sin 95 cos 50 − cos 95 sin 50
SOLUTION:
ANSWER:
54. cos cos + sin sin
SOLUTION:
ANSWER:
Verify each identity.
55. cos ( + 30 ) – sin ( + 60 ) = –sin
SOLUTION:
ANSWER:
56.
SOLUTION:
ANSWER:
57.
SOLUTION:
ANSWER:
58.
SOLUTION:
ANSWER:
Find the values of sin 2 , cos 2 , and tan 2 for the given value and interval.
59. cos = , (0 , 90 )
SOLUTION:
Since on the interval (0°, 90°), one point on the terminal side of θ has x-coordinate 1 and a distance of 3
units from the origin as shown. The y-coordinate of this point is therefore or 2 .
Using this point, we find that and Now use the double-angle identities for sine,
cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
60. tan = 2, (180 , 270 )
SOLUTION:
If tan = 2, then tan = . Since tan = on the interval (180°, 270°), one point on the terminal side of has
x-coordinate −1 and y-coordinate −2 as shown. The distance from the point to the origin is or .
Using this point, we find that and . Now use the double-angle identities for
sine, cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
Find the exact value of each expression.63. sin 75
SOLUTION: Notice that 75° is half of 150°. Therefore, apply the half-angle identity for sine, noting that since 75° lies in QuadrantI, its sine is positive.
ANSWER:
64. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant II, its cosine is negative.
ANSWER:
65. tan 67.5
SOLUTION: Notice that 67.5° is half of 135°. Therefore, apply the half-angle identity for tangent, noting that since 67.5° lies in Quadrant I, its tangent is positive.
ANSWER:
66. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant I, its cosine is positive.
ANSWER:
eSolutions Manual - Powered by Cognero Page 5
Study Guide and Review - Chapter 5
![Page 6: Study Guide and Review - Chapter 5acevedomath.weebly.com/uploads/3/9/0/4/39041429/5_4_5_5_reveiw_key.pdf · sin 75 62/87,21 1RWLFHWKDW LVKDOIRI 7KHUHIRUH DSSO\WKHKDOI -DQJOHLGHQWLW\IRUVLQH](https://reader031.fdocuments.net/reader031/viewer/2022041201/5d4c1dd588c993541b8b625e/html5/thumbnails/6.jpg)
Find the exact value of each trigonometric expression.45. cos 15
SOLUTION: Write 15° as the sum or difference of angle measures with cosines that you know.
ANSWER:
46. sin 345
SOLUTION: Write 345° as the sum or difference of angle measures with sines that you know.
ANSWER:
47. tan
SOLUTION:
ANSWER:
2 –
48. sin
SOLUTION:
Write as the sum or difference of angle measures with sines that you know.
ANSWER:
49. cos
SOLUTION:
Write as the sum or difference of angle measures with cosines that you know.
ANSWER:
50. tan
SOLUTION:
Write as the sum or difference of angle measures with tangents that you know.
ANSWER:
2 +
Simplify each expression.
51.
SOLUTION:
ANSWER: 0
52. cos 24 cos 36 − sin 24 sin 36
SOLUTION:
ANSWER:
53. sin 95 cos 50 − cos 95 sin 50
SOLUTION:
ANSWER:
54. cos cos + sin sin
SOLUTION:
ANSWER:
Verify each identity.
55. cos ( + 30 ) – sin ( + 60 ) = –sin
SOLUTION:
ANSWER:
56.
SOLUTION:
ANSWER:
57.
SOLUTION:
ANSWER:
58.
SOLUTION:
ANSWER:
Find the values of sin 2 , cos 2 , and tan 2 for the given value and interval.
59. cos = , (0 , 90 )
SOLUTION:
Since on the interval (0°, 90°), one point on the terminal side of θ has x-coordinate 1 and a distance of 3
units from the origin as shown. The y-coordinate of this point is therefore or 2 .
Using this point, we find that and Now use the double-angle identities for sine,
cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
60. tan = 2, (180 , 270 )
SOLUTION:
If tan = 2, then tan = . Since tan = on the interval (180°, 270°), one point on the terminal side of has
x-coordinate −1 and y-coordinate −2 as shown. The distance from the point to the origin is or .
Using this point, we find that and . Now use the double-angle identities for
sine, cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
Find the exact value of each expression.63. sin 75
SOLUTION: Notice that 75° is half of 150°. Therefore, apply the half-angle identity for sine, noting that since 75° lies in QuadrantI, its sine is positive.
ANSWER:
64. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant II, its cosine is negative.
ANSWER:
65. tan 67.5
SOLUTION: Notice that 67.5° is half of 135°. Therefore, apply the half-angle identity for tangent, noting that since 67.5° lies in Quadrant I, its tangent is positive.
ANSWER:
66. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant I, its cosine is positive.
ANSWER:
eSolutions Manual - Powered by Cognero Page 6
Study Guide and Review - Chapter 5
![Page 7: Study Guide and Review - Chapter 5acevedomath.weebly.com/uploads/3/9/0/4/39041429/5_4_5_5_reveiw_key.pdf · sin 75 62/87,21 1RWLFHWKDW LVKDOIRI 7KHUHIRUH DSSO\WKHKDOI -DQJOHLGHQWLW\IRUVLQH](https://reader031.fdocuments.net/reader031/viewer/2022041201/5d4c1dd588c993541b8b625e/html5/thumbnails/7.jpg)
Find the exact value of each trigonometric expression.45. cos 15
SOLUTION: Write 15° as the sum or difference of angle measures with cosines that you know.
ANSWER:
46. sin 345
SOLUTION: Write 345° as the sum or difference of angle measures with sines that you know.
ANSWER:
47. tan
SOLUTION:
ANSWER:
2 –
48. sin
SOLUTION:
Write as the sum or difference of angle measures with sines that you know.
ANSWER:
49. cos
SOLUTION:
Write as the sum or difference of angle measures with cosines that you know.
ANSWER:
50. tan
SOLUTION:
Write as the sum or difference of angle measures with tangents that you know.
ANSWER:
2 +
Simplify each expression.
51.
SOLUTION:
ANSWER: 0
52. cos 24 cos 36 − sin 24 sin 36
SOLUTION:
ANSWER:
53. sin 95 cos 50 − cos 95 sin 50
SOLUTION:
ANSWER:
54. cos cos + sin sin
SOLUTION:
ANSWER:
Verify each identity.
55. cos ( + 30 ) – sin ( + 60 ) = –sin
SOLUTION:
ANSWER:
56.
SOLUTION:
ANSWER:
57.
SOLUTION:
ANSWER:
58.
SOLUTION:
ANSWER:
Find the values of sin 2 , cos 2 , and tan 2 for the given value and interval.
59. cos = , (0 , 90 )
SOLUTION:
Since on the interval (0°, 90°), one point on the terminal side of θ has x-coordinate 1 and a distance of 3
units from the origin as shown. The y-coordinate of this point is therefore or 2 .
Using this point, we find that and Now use the double-angle identities for sine,
cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
60. tan = 2, (180 , 270 )
SOLUTION:
If tan = 2, then tan = . Since tan = on the interval (180°, 270°), one point on the terminal side of has
x-coordinate −1 and y-coordinate −2 as shown. The distance from the point to the origin is or .
Using this point, we find that and . Now use the double-angle identities for
sine, cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
Find the exact value of each expression.63. sin 75
SOLUTION: Notice that 75° is half of 150°. Therefore, apply the half-angle identity for sine, noting that since 75° lies in QuadrantI, its sine is positive.
ANSWER:
64. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant II, its cosine is negative.
ANSWER:
65. tan 67.5
SOLUTION: Notice that 67.5° is half of 135°. Therefore, apply the half-angle identity for tangent, noting that since 67.5° lies in Quadrant I, its tangent is positive.
ANSWER:
66. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant I, its cosine is positive.
ANSWER:
eSolutions Manual - Powered by Cognero Page 7
Study Guide and Review - Chapter 5
![Page 8: Study Guide and Review - Chapter 5acevedomath.weebly.com/uploads/3/9/0/4/39041429/5_4_5_5_reveiw_key.pdf · sin 75 62/87,21 1RWLFHWKDW LVKDOIRI 7KHUHIRUH DSSO\WKHKDOI -DQJOHLGHQWLW\IRUVLQH](https://reader031.fdocuments.net/reader031/viewer/2022041201/5d4c1dd588c993541b8b625e/html5/thumbnails/8.jpg)
Find the exact value of each trigonometric expression.45. cos 15
SOLUTION: Write 15° as the sum or difference of angle measures with cosines that you know.
ANSWER:
46. sin 345
SOLUTION: Write 345° as the sum or difference of angle measures with sines that you know.
ANSWER:
47. tan
SOLUTION:
ANSWER:
2 –
48. sin
SOLUTION:
Write as the sum or difference of angle measures with sines that you know.
ANSWER:
49. cos
SOLUTION:
Write as the sum or difference of angle measures with cosines that you know.
ANSWER:
50. tan
SOLUTION:
Write as the sum or difference of angle measures with tangents that you know.
ANSWER:
2 +
Simplify each expression.
51.
SOLUTION:
ANSWER: 0
52. cos 24 cos 36 − sin 24 sin 36
SOLUTION:
ANSWER:
53. sin 95 cos 50 − cos 95 sin 50
SOLUTION:
ANSWER:
54. cos cos + sin sin
SOLUTION:
ANSWER:
Verify each identity.
55. cos ( + 30 ) – sin ( + 60 ) = –sin
SOLUTION:
ANSWER:
56.
SOLUTION:
ANSWER:
57.
SOLUTION:
ANSWER:
58.
SOLUTION:
ANSWER:
Find the values of sin 2 , cos 2 , and tan 2 for the given value and interval.
59. cos = , (0 , 90 )
SOLUTION:
Since on the interval (0°, 90°), one point on the terminal side of θ has x-coordinate 1 and a distance of 3
units from the origin as shown. The y-coordinate of this point is therefore or 2 .
Using this point, we find that and Now use the double-angle identities for sine,
cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
60. tan = 2, (180 , 270 )
SOLUTION:
If tan = 2, then tan = . Since tan = on the interval (180°, 270°), one point on the terminal side of has
x-coordinate −1 and y-coordinate −2 as shown. The distance from the point to the origin is or .
Using this point, we find that and . Now use the double-angle identities for
sine, cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
Find the exact value of each expression.63. sin 75
SOLUTION: Notice that 75° is half of 150°. Therefore, apply the half-angle identity for sine, noting that since 75° lies in QuadrantI, its sine is positive.
ANSWER:
64. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant II, its cosine is negative.
ANSWER:
65. tan 67.5
SOLUTION: Notice that 67.5° is half of 135°. Therefore, apply the half-angle identity for tangent, noting that since 67.5° lies in Quadrant I, its tangent is positive.
ANSWER:
66. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant I, its cosine is positive.
ANSWER:
eSolutions Manual - Powered by Cognero Page 8
Study Guide and Review - Chapter 5
![Page 9: Study Guide and Review - Chapter 5acevedomath.weebly.com/uploads/3/9/0/4/39041429/5_4_5_5_reveiw_key.pdf · sin 75 62/87,21 1RWLFHWKDW LVKDOIRI 7KHUHIRUH DSSO\WKHKDOI -DQJOHLGHQWLW\IRUVLQH](https://reader031.fdocuments.net/reader031/viewer/2022041201/5d4c1dd588c993541b8b625e/html5/thumbnails/9.jpg)
Find the exact value of each trigonometric expression.45. cos 15
SOLUTION: Write 15° as the sum or difference of angle measures with cosines that you know.
ANSWER:
46. sin 345
SOLUTION: Write 345° as the sum or difference of angle measures with sines that you know.
ANSWER:
47. tan
SOLUTION:
ANSWER:
2 –
48. sin
SOLUTION:
Write as the sum or difference of angle measures with sines that you know.
ANSWER:
49. cos
SOLUTION:
Write as the sum or difference of angle measures with cosines that you know.
ANSWER:
50. tan
SOLUTION:
Write as the sum or difference of angle measures with tangents that you know.
ANSWER:
2 +
Simplify each expression.
51.
SOLUTION:
ANSWER: 0
52. cos 24 cos 36 − sin 24 sin 36
SOLUTION:
ANSWER:
53. sin 95 cos 50 − cos 95 sin 50
SOLUTION:
ANSWER:
54. cos cos + sin sin
SOLUTION:
ANSWER:
Verify each identity.
55. cos ( + 30 ) – sin ( + 60 ) = –sin
SOLUTION:
ANSWER:
56.
SOLUTION:
ANSWER:
57.
SOLUTION:
ANSWER:
58.
SOLUTION:
ANSWER:
Find the values of sin 2 , cos 2 , and tan 2 for the given value and interval.
59. cos = , (0 , 90 )
SOLUTION:
Since on the interval (0°, 90°), one point on the terminal side of θ has x-coordinate 1 and a distance of 3
units from the origin as shown. The y-coordinate of this point is therefore or 2 .
Using this point, we find that and Now use the double-angle identities for sine,
cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
60. tan = 2, (180 , 270 )
SOLUTION:
If tan = 2, then tan = . Since tan = on the interval (180°, 270°), one point on the terminal side of has
x-coordinate −1 and y-coordinate −2 as shown. The distance from the point to the origin is or .
Using this point, we find that and . Now use the double-angle identities for
sine, cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
Find the exact value of each expression.63. sin 75
SOLUTION: Notice that 75° is half of 150°. Therefore, apply the half-angle identity for sine, noting that since 75° lies in QuadrantI, its sine is positive.
ANSWER:
64. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant II, its cosine is negative.
ANSWER:
65. tan 67.5
SOLUTION: Notice that 67.5° is half of 135°. Therefore, apply the half-angle identity for tangent, noting that since 67.5° lies in Quadrant I, its tangent is positive.
ANSWER:
66. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant I, its cosine is positive.
ANSWER:
eSolutions Manual - Powered by Cognero Page 9
Study Guide and Review - Chapter 5
![Page 10: Study Guide and Review - Chapter 5acevedomath.weebly.com/uploads/3/9/0/4/39041429/5_4_5_5_reveiw_key.pdf · sin 75 62/87,21 1RWLFHWKDW LVKDOIRI 7KHUHIRUH DSSO\WKHKDOI -DQJOHLGHQWLW\IRUVLQH](https://reader031.fdocuments.net/reader031/viewer/2022041201/5d4c1dd588c993541b8b625e/html5/thumbnails/10.jpg)
Find the exact value of each trigonometric expression.45. cos 15
SOLUTION: Write 15° as the sum or difference of angle measures with cosines that you know.
ANSWER:
46. sin 345
SOLUTION: Write 345° as the sum or difference of angle measures with sines that you know.
ANSWER:
47. tan
SOLUTION:
ANSWER:
2 –
48. sin
SOLUTION:
Write as the sum or difference of angle measures with sines that you know.
ANSWER:
49. cos
SOLUTION:
Write as the sum or difference of angle measures with cosines that you know.
ANSWER:
50. tan
SOLUTION:
Write as the sum or difference of angle measures with tangents that you know.
ANSWER:
2 +
Simplify each expression.
51.
SOLUTION:
ANSWER: 0
52. cos 24 cos 36 − sin 24 sin 36
SOLUTION:
ANSWER:
53. sin 95 cos 50 − cos 95 sin 50
SOLUTION:
ANSWER:
54. cos cos + sin sin
SOLUTION:
ANSWER:
Verify each identity.
55. cos ( + 30 ) – sin ( + 60 ) = –sin
SOLUTION:
ANSWER:
56.
SOLUTION:
ANSWER:
57.
SOLUTION:
ANSWER:
58.
SOLUTION:
ANSWER:
Find the values of sin 2 , cos 2 , and tan 2 for the given value and interval.
59. cos = , (0 , 90 )
SOLUTION:
Since on the interval (0°, 90°), one point on the terminal side of θ has x-coordinate 1 and a distance of 3
units from the origin as shown. The y-coordinate of this point is therefore or 2 .
Using this point, we find that and Now use the double-angle identities for sine,
cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
60. tan = 2, (180 , 270 )
SOLUTION:
If tan = 2, then tan = . Since tan = on the interval (180°, 270°), one point on the terminal side of has
x-coordinate −1 and y-coordinate −2 as shown. The distance from the point to the origin is or .
Using this point, we find that and . Now use the double-angle identities for
sine, cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
Find the exact value of each expression.63. sin 75
SOLUTION: Notice that 75° is half of 150°. Therefore, apply the half-angle identity for sine, noting that since 75° lies in QuadrantI, its sine is positive.
ANSWER:
64. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant II, its cosine is negative.
ANSWER:
65. tan 67.5
SOLUTION: Notice that 67.5° is half of 135°. Therefore, apply the half-angle identity for tangent, noting that since 67.5° lies in Quadrant I, its tangent is positive.
ANSWER:
66. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant I, its cosine is positive.
ANSWER:
eSolutions Manual - Powered by Cognero Page 10
Study Guide and Review - Chapter 5
![Page 11: Study Guide and Review - Chapter 5acevedomath.weebly.com/uploads/3/9/0/4/39041429/5_4_5_5_reveiw_key.pdf · sin 75 62/87,21 1RWLFHWKDW LVKDOIRI 7KHUHIRUH DSSO\WKHKDOI -DQJOHLGHQWLW\IRUVLQH](https://reader031.fdocuments.net/reader031/viewer/2022041201/5d4c1dd588c993541b8b625e/html5/thumbnails/11.jpg)
Find the exact value of each trigonometric expression.45. cos 15
SOLUTION: Write 15° as the sum or difference of angle measures with cosines that you know.
ANSWER:
46. sin 345
SOLUTION: Write 345° as the sum or difference of angle measures with sines that you know.
ANSWER:
47. tan
SOLUTION:
ANSWER:
2 –
48. sin
SOLUTION:
Write as the sum or difference of angle measures with sines that you know.
ANSWER:
49. cos
SOLUTION:
Write as the sum or difference of angle measures with cosines that you know.
ANSWER:
50. tan
SOLUTION:
Write as the sum or difference of angle measures with tangents that you know.
ANSWER:
2 +
Simplify each expression.
51.
SOLUTION:
ANSWER: 0
52. cos 24 cos 36 − sin 24 sin 36
SOLUTION:
ANSWER:
53. sin 95 cos 50 − cos 95 sin 50
SOLUTION:
ANSWER:
54. cos cos + sin sin
SOLUTION:
ANSWER:
Verify each identity.
55. cos ( + 30 ) – sin ( + 60 ) = –sin
SOLUTION:
ANSWER:
56.
SOLUTION:
ANSWER:
57.
SOLUTION:
ANSWER:
58.
SOLUTION:
ANSWER:
Find the values of sin 2 , cos 2 , and tan 2 for the given value and interval.
59. cos = , (0 , 90 )
SOLUTION:
Since on the interval (0°, 90°), one point on the terminal side of θ has x-coordinate 1 and a distance of 3
units from the origin as shown. The y-coordinate of this point is therefore or 2 .
Using this point, we find that and Now use the double-angle identities for sine,
cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
60. tan = 2, (180 , 270 )
SOLUTION:
If tan = 2, then tan = . Since tan = on the interval (180°, 270°), one point on the terminal side of has
x-coordinate −1 and y-coordinate −2 as shown. The distance from the point to the origin is or .
Using this point, we find that and . Now use the double-angle identities for
sine, cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
Find the exact value of each expression.63. sin 75
SOLUTION: Notice that 75° is half of 150°. Therefore, apply the half-angle identity for sine, noting that since 75° lies in QuadrantI, its sine is positive.
ANSWER:
64. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant II, its cosine is negative.
ANSWER:
65. tan 67.5
SOLUTION: Notice that 67.5° is half of 135°. Therefore, apply the half-angle identity for tangent, noting that since 67.5° lies in Quadrant I, its tangent is positive.
ANSWER:
66. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant I, its cosine is positive.
ANSWER:
eSolutions Manual - Powered by Cognero Page 11
Study Guide and Review - Chapter 5
![Page 12: Study Guide and Review - Chapter 5acevedomath.weebly.com/uploads/3/9/0/4/39041429/5_4_5_5_reveiw_key.pdf · sin 75 62/87,21 1RWLFHWKDW LVKDOIRI 7KHUHIRUH DSSO\WKHKDOI -DQJOHLGHQWLW\IRUVLQH](https://reader031.fdocuments.net/reader031/viewer/2022041201/5d4c1dd588c993541b8b625e/html5/thumbnails/12.jpg)
Find the exact value of each trigonometric expression.45. cos 15
SOLUTION: Write 15° as the sum or difference of angle measures with cosines that you know.
ANSWER:
46. sin 345
SOLUTION: Write 345° as the sum or difference of angle measures with sines that you know.
ANSWER:
47. tan
SOLUTION:
ANSWER:
2 –
48. sin
SOLUTION:
Write as the sum or difference of angle measures with sines that you know.
ANSWER:
49. cos
SOLUTION:
Write as the sum or difference of angle measures with cosines that you know.
ANSWER:
50. tan
SOLUTION:
Write as the sum or difference of angle measures with tangents that you know.
ANSWER:
2 +
Simplify each expression.
51.
SOLUTION:
ANSWER: 0
52. cos 24 cos 36 − sin 24 sin 36
SOLUTION:
ANSWER:
53. sin 95 cos 50 − cos 95 sin 50
SOLUTION:
ANSWER:
54. cos cos + sin sin
SOLUTION:
ANSWER:
Verify each identity.
55. cos ( + 30 ) – sin ( + 60 ) = –sin
SOLUTION:
ANSWER:
56.
SOLUTION:
ANSWER:
57.
SOLUTION:
ANSWER:
58.
SOLUTION:
ANSWER:
Find the values of sin 2 , cos 2 , and tan 2 for the given value and interval.
59. cos = , (0 , 90 )
SOLUTION:
Since on the interval (0°, 90°), one point on the terminal side of θ has x-coordinate 1 and a distance of 3
units from the origin as shown. The y-coordinate of this point is therefore or 2 .
Using this point, we find that and Now use the double-angle identities for sine,
cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
60. tan = 2, (180 , 270 )
SOLUTION:
If tan = 2, then tan = . Since tan = on the interval (180°, 270°), one point on the terminal side of has
x-coordinate −1 and y-coordinate −2 as shown. The distance from the point to the origin is or .
Using this point, we find that and . Now use the double-angle identities for
sine, cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
Find the exact value of each expression.63. sin 75
SOLUTION: Notice that 75° is half of 150°. Therefore, apply the half-angle identity for sine, noting that since 75° lies in QuadrantI, its sine is positive.
ANSWER:
64. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant II, its cosine is negative.
ANSWER:
65. tan 67.5
SOLUTION: Notice that 67.5° is half of 135°. Therefore, apply the half-angle identity for tangent, noting that since 67.5° lies in Quadrant I, its tangent is positive.
ANSWER:
66. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant I, its cosine is positive.
ANSWER:
eSolutions Manual - Powered by Cognero Page 12
Study Guide and Review - Chapter 5
![Page 13: Study Guide and Review - Chapter 5acevedomath.weebly.com/uploads/3/9/0/4/39041429/5_4_5_5_reveiw_key.pdf · sin 75 62/87,21 1RWLFHWKDW LVKDOIRI 7KHUHIRUH DSSO\WKHKDOI -DQJOHLGHQWLW\IRUVLQH](https://reader031.fdocuments.net/reader031/viewer/2022041201/5d4c1dd588c993541b8b625e/html5/thumbnails/13.jpg)
Find the exact value of each trigonometric expression.45. cos 15
SOLUTION: Write 15° as the sum or difference of angle measures with cosines that you know.
ANSWER:
46. sin 345
SOLUTION: Write 345° as the sum or difference of angle measures with sines that you know.
ANSWER:
47. tan
SOLUTION:
ANSWER:
2 –
48. sin
SOLUTION:
Write as the sum or difference of angle measures with sines that you know.
ANSWER:
49. cos
SOLUTION:
Write as the sum or difference of angle measures with cosines that you know.
ANSWER:
50. tan
SOLUTION:
Write as the sum or difference of angle measures with tangents that you know.
ANSWER:
2 +
Simplify each expression.
51.
SOLUTION:
ANSWER: 0
52. cos 24 cos 36 − sin 24 sin 36
SOLUTION:
ANSWER:
53. sin 95 cos 50 − cos 95 sin 50
SOLUTION:
ANSWER:
54. cos cos + sin sin
SOLUTION:
ANSWER:
Verify each identity.
55. cos ( + 30 ) – sin ( + 60 ) = –sin
SOLUTION:
ANSWER:
56.
SOLUTION:
ANSWER:
57.
SOLUTION:
ANSWER:
58.
SOLUTION:
ANSWER:
Find the values of sin 2 , cos 2 , and tan 2 for the given value and interval.
59. cos = , (0 , 90 )
SOLUTION:
Since on the interval (0°, 90°), one point on the terminal side of θ has x-coordinate 1 and a distance of 3
units from the origin as shown. The y-coordinate of this point is therefore or 2 .
Using this point, we find that and Now use the double-angle identities for sine,
cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
60. tan = 2, (180 , 270 )
SOLUTION:
If tan = 2, then tan = . Since tan = on the interval (180°, 270°), one point on the terminal side of has
x-coordinate −1 and y-coordinate −2 as shown. The distance from the point to the origin is or .
Using this point, we find that and . Now use the double-angle identities for
sine, cosine, and tangent to find sin 2 , cos 2 , and tan 2 .
ANSWER:
, ,
Find the exact value of each expression.63. sin 75
SOLUTION: Notice that 75° is half of 150°. Therefore, apply the half-angle identity for sine, noting that since 75° lies in QuadrantI, its sine is positive.
ANSWER:
64. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant II, its cosine is negative.
ANSWER:
65. tan 67.5
SOLUTION: Notice that 67.5° is half of 135°. Therefore, apply the half-angle identity for tangent, noting that since 67.5° lies in Quadrant I, its tangent is positive.
ANSWER:
66. cos
SOLUTION:
Notice that is half of . Therefore, apply the half-angle identity for cosine, noting that since lies in
Quadrant I, its cosine is positive.
ANSWER:
eSolutions Manual - Powered by Cognero Page 13
Study Guide and Review - Chapter 5