5 Must Know Facts For Your Next Test

1. In a right triangle, $$ ext{sine} = \frac{\text{opposite}}{\text{hypotenuse}}$$, $$ ext{cosine} = \frac{\text{adjacent}}{\text{hypotenuse}}$$, and $$ ext{tangent} = \frac{\text{opposite}}{\text{adjacent}}$$.
2. The ratios defined by sohcahtoa can be used to find unknown side lengths or angles in right triangles using inverse functions.
3. Sohcahtoa is particularly useful in real-world applications such as architecture, engineering, and physics where right triangles frequently occur.
4. Calculators often have sine, cosine, and tangent functions available, which can be used to quickly compute values when solving for angles and sides in right triangles.
5. Using sohcahtoa effectively requires understanding which sides correspond to which angles in a given triangle configuration.

Review Questions

• How does sohcahtoa help in solving for unknown angles and sides in right triangles?
  • Sohcahtoa provides a clear method to relate angles to their corresponding side lengths through specific ratios. By identifying which sides are opposite, adjacent, or hypotenuse based on a known angle, one can apply the sine, cosine, or tangent functions accordingly. For instance, if one knows an angle and one side length, they can use the appropriate function to calculate unknown lengths or other angles in the triangle.
• Evaluate a scenario where you would apply sohcahtoa to determine an unknown side length and explain your steps.
  • Imagine you have a right triangle where one angle measures 30 degrees and you know the length of the hypotenuse is 10 units. To find the opposite side using sohcahtoa, you'd use sine because it relates opposite to hypotenuse: $$\text{sine}(30) = \frac{\text{opposite}}{10}$$. Since sine(30) equals 0.5, you set up the equation as 0.5 = opposite/10. Multiplying both sides by 10 gives you an opposite side length of 5 units.
• Create a complex problem involving multiple triangles that utilizes sohcahtoa to find all unknowns, and demonstrate your solution process.
  • Consider two right triangles sharing a common angle A, with triangle 1 having an adjacent side of 4 units and angle A measuring 45 degrees, while triangle 2 has an opposite side adjacent to A measuring 3 units. For triangle 1, use cosine: $$\text{cos}(45) = \frac{4}{\text{hypotenuse}}$$ leading to a hypotenuse of approximately 5.66 units. Then apply sohcahtoa for triangle 2 using tangent: $$\text{tan}(A) = \frac{3}{\text{adjacent}}$$ leading to an adjacent side length calculated as approximately 2.12 units. This way you’ve solved for all unknowns by leveraging sohcahtoa effectively across multiple triangles.

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