Question

. an extremely large sink hole has opened up in a field just outside of the city limits. it is difficult to measure across the sink hole without falling in so you use congruent triangles. you have one piece of rope that is 50 ft. long and another that is 70 ft. long. you pick a point on one side of the sink hole and on the other side. you tie a rope to each spot and pull the rope out diagonally back away from the sink hole so that the two ropes meet at point . then you recreate the same triangle by using the distance from and and creating new segments and . the distance is 52.2 ft.

Answer 1

Explanation:

Dividing both sides by 50, we obtain:

CD = 3654/50 = 73.08 ft

Since triangle CDE is a right triangle (as ropes AC and BC meet at a point outside the sinkhole), we can use trigonometry to find the measure of angle CDE. We have the length of the opposite side DE and the length of the adjacent side CD. Using the tangent function:

tan(CDE) = DE/CD

Substituting the known values, we get:

tan(CDE) = 52.2/73.08

Calculating the arctan (inverse tangent) of both sides, we find:

CDE ≈ arctan(52.2/73.08)

Using a calculator, we get:

CDE ≈ 35.76 degrees

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