Answer:
[tex]\displaystyle A_{\text{Total}}\approx45.0861\approx45.1[/tex]
Step-by-step explanation:
We can use the trigonometric formula for the area of a triangle:
[tex]\displaystyle A=\frac{1}{2}ab\sin(C)[/tex]
Where a and b are the side lengths, and C is the angle between the two side lengths.
As demonstrated by the line, ABCD is the sum of the areas of two triangles: a right triangle ABD and a scalene triangle CDB.
We will determine the area of each triangle individually and then sum their values.
Right Triangle ABD:
We can use the above area formula if we know the angle between two sides.
Looking at our triangle, we know that ∠ADB is 55 DB is 10.
So, if we can find AD, we can apply the formula.
Notice that AD is the adjacent side to ∠ADB. Also, DB is the hypotenuse.
Since this is a right triangle, we can utilize the trig ratios.
In this case, we will use cosine. Remember that cosine is the ratio of the adjacent side to the hypotenuse.
Therefore:
[tex]\displaystyle \cos(55)=\frac{AD}{10}[/tex]
Solve for AD:
[tex]AD=10\cos(55)[/tex]
Now, we can use the formula. We have:
[tex]\displaystyle A=\frac{1}{2}ab\sin(C)[/tex]
Substituting AD for a, 10 for b, and 55 for C, we get:
[tex]\displaystyle A=\frac{1}{2}(10\cos(55))(10)\sin(55)[/tex]
Simplify. Therefore, the area of the right triangle is:
[tex]A=50\cos(55)\sin(55)[/tex]
We will not evaluate this, as we do not want inaccuracies in our final answer.
Scalene Triangle CDB:
We will use the same tactic as above.
We see that if we can determine CD, we can use our area formula.
First, we can determine ∠C. Since the interior angles sum to 180 in a triangle, this means that:
[tex]\begin{aligned}m \angle C+44+38&=180 \\m\angle C+82&=180 \\ m\angle C&=98\end{aligned}[/tex]
Notice that we know the angle opposite to CD.
And, ∠C is opposite to BD, which measures 10.
Therefore, we can use the Law of Sines to determine CD:
[tex]\displaystyle \frac{\sin(A)}{a}=\frac{\sin(B)}{b}[/tex]
Where A and B are the angles opposite to its respective sides.
So, we can substitute 98 for A, 10 for a, 38 for B, and CD for b. Therefore:
[tex]\displaystyle \frac{\sin(98)}{10}=\frac{\sin(38)}{CD}[/tex]
Solve for CD. Cross-multiply:
[tex]CD\sin(98)=10\sin(38)[/tex]
Divide both sides by sin(98). Hence:
[tex]\displaystyle CD=\frac{10\sin(38)}{\sin(98)}[/tex]
Therefore, we can now use our area formula:
[tex]\displaystyle A=\frac{1}{2}ab\sin(C)[/tex]
We will substitute 10 for a, CD for b, and 44 for C. Hence:
[tex]\displaystyle A=\frac{1}{2}(10)(\frac{10\sin(38)}{\sin(98)})\sin(44)[/tex]
Simplify. So, the area of the scalene triangle is:
[tex]\displaystyle A=\frac{50\sin(38)\sin(44)}{\sin(98)}[/tex]
Therefore, our total area will be given by:
[tex]\displaystyle A_{\text{Total}}=50\cos(55)\sin(55)+\frac{50\sin(38)\sin(44)}{\sin(98)}[/tex]
Approximate. Use a calculator. Thus:
[tex]\displaystyle A_{\text{Total}}\approx45.0861\approx45.1[/tex]
