QuestionTwo congruent squares are shown in Figures 1 and 2 below.
Figure 1
Figure 2
se the drop-down menus to complete the proof of the Pythagorean Theorem using the figures. lick the arrows to choose an answer from each menu.
The combined area of the shaded triangles in Figure 1 is Choose... the combined area of the shaded triangles in Figure 2. The area of the unshaded square in Figure 1 can be represented by Choose... - The combined area of the two unshaded squares in Figure
2 can be represented by
Choose...
. The areas of the squares in Figure 1 and Figure
ress
Studdy Solution
STEP 1
1. Both figures are based on the same large square with side length .
2. The figures are used to prove the Pythagorean Theorem, which states that in a right triangle with legs and and hypotenuse , the relationship holds.
3. The triangles in both figures are congruent right triangles.
STEP 2
1. Calculate the combined area of the shaded triangles in both figures.
2. Determine the area of the unshaded square in Figure 1.
3. Determine the combined area of the two unshaded squares in Figure 2.
4. Relate the areas to complete the proof of the Pythagorean Theorem.
STEP 3
Calculate the area of one right triangle with legs and . The area of one triangle is given by:
Since there are four triangles in each figure, the combined area of the shaded triangles in each figure is:
The combined area of the shaded triangles in Figure 1 is equal to the combined area of the shaded triangles in Figure 2.
STEP 4
The area of the unshaded square in Figure 1 is the area of the smaller square with side length :
STEP 5
In Figure 2, the large square is divided into two smaller squares with side lengths and . The combined area of these two unshaded squares is:
STEP 6
Since the total area of the large square in both figures is the same, we equate the expressions derived from each figure:
(from Figure 1)
(from Figure 2)
Since both expressions represent the total area of the large square, we equate the unshaded areas:
This completes the proof of the Pythagorean Theorem.
The proof of the Pythagorean Theorem using the figures is completed.
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