Years
>
Year 10>
Trigonometry>
Trigonometry Mixed Review: Part 1>
Trigonometry Mixed Review: Part 1 (2)Trigonometry Mixed Review: Part 1 (2)
Try VividMath Premium to unlock full access
Time limit: 0
Quiz summary
0 of 9 questions completed
Questions:
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
Information
–
You have already completed the quiz before. Hence you can not start it again.
Quiz is loading...
You must sign in or sign up to start the quiz.
You have to finish following quiz, to start this quiz:
Loading...
- 1
- 2
- 3
- 4
- 5
- 6
- 7
- 8
- 9
- Answered
- Review
-
Question 1 of 9
1. Question
Solve for `d`
Round your answer to two decimal places- `d =` (12.86)
Hint
Help VideoCorrect
Great Work!
Incorrect
Sin Ratio
$$sin=\frac{\color{#004ec4}{\text{opposite}}}{\color{#e85e00}{\text{hypotenuse}}}$$Cos Ratio
$$cos=\frac{\color{#00880a}{\text{adjacent}}}{\color{#e85e00}{\text{hypotenuse}}}$$Tan Ratio
$$tan=\frac{\color{#004ec4}{\text{opposite}}}{\color{#00880a}{\text{adjacent}}}$$First we need to identify which trig ratio to use.One of the known angles `(37°42′)` has `d` as an `\text(adjacent)` side and the other length `(15.5)` is the `\text(hypotenuse)`
Hence, we can use the `cos \text(ratio)` to solve for `d``cos theta` `=` $$\frac{\color{#00880a}{\text{adjacent}}}{\color{#e85e00}{\text{hypotenuse}}}$$ `cos \text(ratio)` `cos (37°42′)` `=` $$\frac{\color{#00880a}{d}}{\color{#e85e00}{15.5}}$$ Plug in the values Get `d` by itself to find its value`cos (37°42′)` `=` `d/15.5` `15.5 xx cos (65°)` `=` `d` Multiply both sides by `15.5` `15.5 xx 0.829` `=` `d` Evaluate `cos(37°42′)` on the calculator `12.86` `=` `d` Round to two decimal places `d` `=` `12.86` `d=12.86` -
Question 2 of 9
2. Question
Solve for `theta`
Round your answer to the nearest degree- `theta=` (24)`°`
Correct
Well Done!
Incorrect
Sin Ratio
$$sin=\frac{\color{#004ec4}{\text{opposite}}}{\color{#e85e00}{\text{hypotenuse}}}$$Cos Ratio
$$cos=\frac{\color{#00880a}{\text{adjacent}}}{\color{#e85e00}{\text{hypotenuse}}}$$Tan Ratio
$$tan=\frac{\color{#004ec4}{\text{opposite}}}{\color{#00880a}{\text{adjacent}}}$$First we need to identify which trig ratio to use.One of the known lengths `(22)` is `\text(opposite)` to `theta` and the other length `(55)` is the `\text(hypotenuse)`
Hence, we can use the `sin \text(ratio)` to solve for `theta``sin theta` `=` $$\frac{\color{#004ec4}{\text{opposite}}}{\color{#e85e00}{\text{hypotenuse}}}$$ `sin \text(ratio)` `sin theta` `=` $$\frac{\color{#004ec4}{22}}{\color{#e85e00}{55}}$$ Plug in the values `sin theta` `=` `0.4` Use the inverse function for `sin` on your calculator to get `theta` by itself`theta` `=` `sin^(-1) (0.4)` The inverse of `sin` is `sin^(-1)` `theta` `=` `23.578°` Use the `\text(shift) sin` function on your calculator `theta` `=` `24°` Rounded to the nearest degree `theta=24°` -
Question 3 of 9
3. Question
Solve for `a`
Round your answer to two decimal places- `a =` (19.37)
Hint
Help VideoCorrect
Nice Job!
Incorrect
Sin Ratio
$$sin=\frac{\color{#004ec4}{\text{opposite}}}{\color{#e85e00}{\text{hypotenuse}}}$$Cos Ratio
$$cos=\frac{\color{#00880a}{\text{adjacent}}}{\color{#e85e00}{\text{hypotenuse}}}$$Tan Ratio
$$tan=\frac{\color{#004ec4}{\text{opposite}}}{\color{#00880a}{\text{adjacent}}}$$First we need to identify which trig ratio to use.One of the known angles `(61°15′)` has `a` as an `\text(opposite)` side and `13.5` as an `\text(adjacent)` side
Hence, we can use the `tan \text(ratio)` to solve for `a``tan theta` `=` $$\frac{\color{#004ec4}{\text{opposite}}}{\color{#00880a}{\text{adjacent}}}$$ `tan \text(ratio)` `tan (61°15′)` `=` $$\frac{\color{#004ec4}{a}}{\color{#00880a}{13.5}}$$ Plug in the values Now we need to have `a` on one side of the equation`tan (61°15′)` `=` `a/13.5` `13.5 times tan (61°15′)` `=` `a` Multiply both sides by `13.5` `13.5 times 1.43` `=` `a` Evaluate `tan (61°15′)` on the calculator `19.37` `=` `a` Round to two decimal places `a` `=` `19.37` `a=19.37` -
Question 4 of 9
4. Question
Solve for `theta`
Round your answer to the nearest minuteHint
Help VideoCorrect
Correct!
Incorrect
Sin Ratio
$$sin=\frac{\color{#004ec4}{\text{opposite}}}{\color{#e85e00}{\text{hypotenuse}}}$$Cos Ratio
$$cos=\frac{\color{#00880a}{\text{adjacent}}}{\color{#e85e00}{\text{hypotenuse}}}$$Tan Ratio
$$tan=\frac{\color{#004ec4}{\text{opposite}}}{\color{#00880a}{\text{adjacent}}}$$First we need to identify which trig ratio to use.One of the known lengths `(14)` is `\text(adjacent)` to `theta` and the other length `(16.5)` is `\text(opposite)` to `theta`
Hence, we can use the `tan \text(ratio)` to solve for `theta``tan theta` `=` $$\frac{\color{#004ec4}{\text{opposite}}}{\color{#00880a}{\text{adjacent}}}$$ `tan \text(ratio)` `tan theta` `=` $$\frac{\color{#004ec4}{16.5}}{\color{#00880a}{14}}$$ Plug in the values `tan theta` `=` `1.1786` Use the inverse function for `tan` on your calculator to get `theta` by itself`theta` `=` `tan^(-1) (1.1786)` The inverse of `tan` is `tan^(-1)` `theta` `=` `49.686` Use the `\text(shift) tan` function on your calculator `theta` `=` `49°41’9”` Use the `\text(degrees)` function on your calculator `theta` `=` `49°41’` Rounded to the nearest minute `theta=49°41’` -
Question 5 of 9
5. Question
Find the length of `x`
Round your answer to one decimal place- `x=` (69.3) m
Hint
Help VideoCorrect
Well Done!
Incorrect
The Angles of Elevation and Depression are the angles created by the upward or downward slope of the hypotenuse.First, we need to label the components of the triangle.
To solve for `x`, we need to subtract the value of `b` from the value of `a`Next, we need to identify which trig ratio to use.The `28°` angle has `a` as an `\text(adjacent)` side, the `54°` angle has `b` as an `\text(adjacent)` side, and both angles have `60 m` as their `\text(opposite)` side.
Hence, we can use the `tan \text(ratio)` to solve for both `a` and `b`Solve for the value of `a` first:`tan theta` `=` $$\frac{\color{#004ec4}{\text{opposite}}}{\color{#00880a}{\text{adjacent}}}$$ `tan \text(ratio)` `tan28°` `=` $$\frac{\color{#004ec4}{60}}{\color{#cc0000}{a}}$$ Plug in the values `a``xx tan28°` `=` `60` Cross multiply `a` `=` `60/(tan28°)` Divide `tan28°` from both sides to isolate `a` `a` `=` `112.8 m` Rounded to one decimal place Next, use the `tan \text(ratio)` to solve for `b``tan theta` `=` $$\frac{\color{#004ec4}{\text{opposite}}}{\color{#00880a}{\text{adjacent}}}$$ `tan \text(ratio)` `tan54°` `=` $$\frac{\color{#004ec4}{60}}{\color{#9e8600}{b}}$$ Plug in the values `b``xx tan54°` `=` `60` Cross multiply `b` `=` `60/(tan54°)` Divide `tan54°` from both sides to isolate `b` `b` `=` `43.6 m` Rounded to one decimal place Finally, subtract the value of `b` from the value of `a` to find `x``x` `=` `a``-``b` `x` `=` `112.8``-``43.6` Plug in the values `x` `=` `69.3 m` `x=69.3 m` -
Question 6 of 9
6. Question
Solve for `x`
Round your answer to one decimal place- `x =` (11.7)
Correct
Correct!
Incorrect
Sin Ratio
$$sin=\frac{\color{#004ec4}{\text{opposite}}}{\color{#e85e00}{\text{hypotenuse}}}$$Cos Ratio
$$cos=\frac{\color{#00880a}{\text{adjacent}}}{\color{#e85e00}{\text{hypotenuse}}}$$Tan Ratio
$$tan=\frac{\color{#004ec4}{\text{opposite}}}{\color{#00880a}{\text{adjacent}}}$$First we need to identify which trig ratio to use.One of the known angles `(43°)` has `x` as an `\text(adjacent)` side and the other length `(16)` is the `\text(hypotenuse)`
Hence, we can use the `cos \text(ratio)` to solve for `x``cos theta` `=` $$\frac{\color{#00880a}{\text{adjacent}}}{\color{#e85e00}{\text{hypotenuse}}}$$ `cos \text(ratio)` `cos (43°)` `=` $$\frac{\color{#00880a}{x}}{\color{#e85e00}{16}}$$ Plug in the values Get `x` by itself to find its value`cos (43°)` `=` `x/16` `16 xx cos (43°)` `=` `x` Multiply both sides by `16` `16 xx 0.7313537016` `=` `x` Evaluate `cos(43°)` on the calculator `11.7` `=` `x` Round to one decimal place `x` `=` `11.7` `x=11.7` -
Question 7 of 9
7. Question
Solve for `h`
Round your answer to the nearest metre- `h=` (315, 316) m
Hint
Help VideoCorrect
Well Done!
Incorrect
Sin Ratio
$$sin=\frac{\color{#004ec4}{\text{opposite}}}{\color{#e85e00}{\text{hypotenuse}}}$$Cos Ratio
$$cos=\frac{\color{#00880a}{\text{adjacent}}}{\color{#e85e00}{\text{hypotenuse}}}$$Tan Ratio
$$tan=\frac{\color{#004ec4}{\text{opposite}}}{\color{#00880a}{\text{adjacent}}}$$First we need to identify which trig ratio to use.One of the known angles `(32°15′)` has `h` as an `\text(opposite)` side and `500` as an `\text(adjacent)` side
Hence, we can use the `tan \text(ratio)` to solve for `x``tan theta` `=` $$\frac{\color{#004ec4}{\text{opposite}}}{\color{#00880a}{\text{adjacent}}}$$ `tan \text(ratio)` `tan (32°15′)` `=` $$\frac{\color{#004ec4}{h}}{\color{#00880a}{500}}$$ Plug in the values Now we need to have `x` on one side of the equation`tan (32°15′)` `=` `h/500` `500 times tan (32°15′)` `=` `h` Multiply both sides by `500` `500 times 0.631` `=` `h` Evaluate `cos(43°)` on the calculator `315` `=` `h` Rounded to the nearest metre `h` `=` `315 m` `h=315 m` -
Question 8 of 9
8. Question
Solve for `theta`
Round your answer to the nearest minute- `theta=` (69)`°` (20)`'`
Hint
Help VideoCorrect
Excellent!
Incorrect
Sin Ratio
$$sin=\frac{\color{#004ec4}{\text{opposite}}}{\color{#e85e00}{\text{hypotenuse}}}$$Cos Ratio
$$cos=\frac{\color{#00880a}{\text{adjacent}}}{\color{#e85e00}{\text{hypotenuse}}}$$Tan Ratio
$$tan=\frac{\color{#004ec4}{\text{opposite}}}{\color{#00880a}{\text{adjacent}}}$$First we need to identify which trig ratio to use.One of the known lengths `(6)` is `\text(adjacent)` to `theta` and the other length `(17)` is the `\text(hypotenuse)`
Hence, we can use the `cos \text(ratio)` to solve for `theta``cos theta` `=` $$\frac{\color{#00880a}{\text{adjacent}}}{\color{#e85e00}{\text{hypotenuse}}}$$ `cos \text(ratio)` `cos theta` `=` $$\frac{\color{#00880a}{6}}{\color{#e85e00}{17}}$$ Plug in the values `cos theta` `=` `0.353` Evaluate `6/17` to 3 decimal places Use the inverse function for `cos` on your calculator to get `theta` by itself`theta` `=` `cos^(-1) (0.353)` The inverse of `cos` is `cos^(-1)` `theta` `=` `69.3327` Use the `\text(shift) cos` function on your calculator `theta` `=` `69°19’57”` Use the `\text(degrees)` function on your calculator `theta` `=` `69°20’` Round up the minutes `theta=69°20’` -
Question 9 of 9
9. Question
Solve for angle `theta`
Round your answer to the nearest minuteHint
Help VideoCorrect
Great Work!
Incorrect
The Angles of Elevation and Depression are the angles created by the upward or downward slope of the hypotenuse.First, we need to label the components of the triangle.
To solve for `theta`, we need to subtract the added value of `gamma` and `beta` from the total interior angle of a triangle, which is `180°`In order to find `gamma`, we need to first solve for `alpha`.Angle `alpha` has `8.5 m` as an `\text(opposite)` side and `10.2 m` as an `\text(adjacent)` side.
Hence, we can use the `tan \text(ratio)` to solve for `alpha``tan``alpha` `=` $$\frac{\color{#004ec4}{\text{opposite}}}{\color{#00880a}{\text{adjacent}}}$$ `tan \text(ratio)` `tan``alpha` `=` $$\frac{\color{#004ec4}{8.5}}{\color{#00880a}{10.2}}$$ Plug in the values `tan``alpha` `=` `0.833` Evaluate Use the inverse function for `tan` on your calculator to get `alpha` by itself`alpha` `=` `tan^(-1) (0.833)` The inverse of `tan` is `tan^(-1)` `alpha` `=` `39.794` Use the `\text(shift) tan` function on your calculator `alpha` `=` `39° 48′ 20.06″` Use the `\text(degrees)` function on your calculator `alpha` `=` `39° 48’` Rounded to the nearest minute Recall that a straight line has an angle of `180°`Since we have the value of `alpha`, we can subtract that to `180°` to find the value of `gamma``gamma` `=` `180°-``alpha` `gamma` `=` `180°-``39°48’` Plug in the values `gamma` `=` `140° 12’` Next, identify which trig ratio to use for finding `beta`.Angle `beta` has `8.5 m` as an `\text(opposite)` side and `17.2 m` (`10.2+7`) as an `\text(adjacent)` side.
Thus, use the `tan \text(ratio)` to solve for `beta``tan``beta` `=` $$\frac{\color{#004ec4}{\text{opposite}}}{\color{#00880a}{\text{adjacent}}}$$ `tan \text(ratio)` `tan``beta` `=` $$\frac{\color{#004ec4}{8.5}}{\color{#00880a}{17.2}}$$ Plug in the values `tan``beta` `=` `0.494` Evaluate Use the inverse function for `tan` on your calculator to get `beta` by itself`beta` `=` `tan^(-1) (0.494)` The inverse of `tan` is `tan^(-1)` `beta` `=` `26.298` Use the `\text(shift) tan` function on your calculator `beta` `=` `26° 17′ 53″` Use the `\text(degrees)` function on your calculator `beta` `=` `26° 18’` Rounded to the nearest minute Finally, we can subtract the added value of `gamma` and `beta` from `180°` to find the value of `theta``theta` `=` `180°-(``gamma``+``beta``)` `theta` `=` `180°-(``140°12’``+``26°18’``)` Plug in the values `theta` `=` `13° 30’` `theta=13° 30’`
Quizzes
- Intro to Trigonometric Ratios (SOH CAH TOA) 1
- Intro to Trigonometric Ratios (SOH CAH TOA) 2
- Round Angles (Degrees, Minutes, Seconds)
- Evaluate Trig Expressions using a Calculator 1
- Evaluate Trig Expressions using a Calculator 2
- Trig Ratios: Solving for a Side 1
- Trig Ratios: Solving for a Side 2
- Trig Ratios: Solving for an Angle
- Angles of Elevation and Depression
- Trig Ratios Word Problems: Solving for a Side
- Trig Ratios Word Problems: Solving for an Angle
- Area of Non-Right Angled Triangles 1
- Area of Non-Right Angled Triangles 2
- Sine Rule: Solving for a Side
- Sine Rule: Solving for an Angle
- Cosine Rule: Solving for a Side
- Cosine Rule: Solving for an Angle
- Trigonometry Word Problems 1
- Trigonometry Word Problems 2
- Trigonometry Mixed Review: Part 1 (1)
- Trigonometry Mixed Review: Part 1 (2)
- Trigonometry Mixed Review: Part 1 (3)
- Trigonometry Mixed Review: Part 1 (4)
- Trigonometry Mixed Review: Part 2 (1)
- Trigonometry Mixed Review: Part 2 (2)
- Trigonometry Mixed Review: Part 2 (3)