285,083 views
42 votes
42 votes
round side length to the nearest tenth and round the angle measures to the nearest tenth of a degree.

round side length to the nearest tenth and round the angle measures to the nearest-example-1
User Mateo Velenik
by
2.7k points

1 Answer

17 votes
17 votes

Since we have a right triangle we can use the pythagorean theorem to find the length of side QR. Doing so, we have:


\begin{gathered} a^2+b^2=c^2\text{ } \\ (17)^2+b^2=(28)^2\text{ (Replacing)} \\ 289+b^2=784\text{ (Raising each number to the power of 2)} \\ b^2=784-289\text{ (Subtracting 289 from both sides of the equation)} \\ b^2=495\text{ (Subtracting)} \\ b=\sqrt[]{495}\text{ (Taking the square root of both sides)} \\ b=22.248 \\ \text{The length of side QR is 22.2 (Rounded to the nearest tenth) } \end{gathered}

Since we have the hypotenuse and the opposite length of angle R,then we can formulate the following equation with the ratio sine:


\begin{gathered} \sin (R)=\text{ }\frac{\text{ opposite length}}{\text{hypotenuse}} \\ \sin (R)=\text{ }(17)/(28)\text{ (Replacing)} \\ \sin ^(-1)\sin (R)=\sin ^(-1)((17)/(28))\text{ (Using the inverse function of sine to find the angle)} \\ R=\text{ 37.38 \degree} \\ \text{The measure of angle R is 37.4\degree{}rounded to the nearest tenth of a degree.} \end{gathered}

Since we have the hypotenuse and the adjacent length of angle P,then we can formulate the following equation with the ratio cosine:


\begin{gathered} \cos (P)=\frac{\text{adjacent length}}{\text{hypotenuse}} \\ cos(P)=\text{ }(17)/(28)\text{ (Replacing)} \\ \cos ^(-1)cos(P)=\cos ^(-1)((17)/(28))\text{ (Using the inverse function of cosine to find the angle)} \\ P=52.62 \\ \text{The measure of angle P is 52.6\degree{}rounded to the nearest tenth of a degree.} \end{gathered}

User Densekernel
by
2.7k points