Math Circle Beginners Group January 17, 2016 Geometry II

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Math Circle Beginners Group January 17, 2016 Geometry II Warm-up Problem 1. How many equilateral triangles can you make using six identical line segments? You can make eight equilateral triangles with six identical line segments two big triangles and six small triangles. Let us now look at the Pythagorean Theorem. The Pythagorean Theorem states that, in a right triangle with two side lengths a and b and hypotenuse of length c, the following will be true. a 2 + b 2 = c 2 Any three numbers that satisfy the above equality form a Pythagorean Triple. 2. Complete the following Pythagorean Triples: 1

(a) a = 3, b = 4, c =? c = 3 2 + 4 2 = 25 = 5 (b) a = 5, b = 12, c =? c = 5 2 + 12 2 = 169 = 13 (c) a = 6, b =?, c = 10 b = 10 2 6 2 = 64 = 8 (d) a =?, b = 24, c = 25 a = 25 2 24 2 = 25 = 5 3. Can you think of any real-world applications of the Pythagorean Theorem? Answers can vary. 2

Similarity in Triangles and Shadow Geometry We are now going to learn how to measure the heights of tall objects outside. Imagine that you are an engineer in the 19th century, and you do not have the physical resources to measure the height of a very tall granite wall, except your incredulous wits. This is what you come up with1 : You use a straight stick, 10 feet long, as a reference with which the height of the wall will be measured. You move approximately 500 feet away from the granite wall, and then affix the stick perfectly vertically in the ground and firmly cement it. Then you walk slightly away from the stick at such a distance that lying on the ground, it is possible to see the top of the stick and the top of the wall in one straight line. You carefully mark this point in the ground using a milestone. What you have here are two similar triangles. Similar figures are figures that have the same shape but not necessarily the same size. 1. Can you spot the two similar triangles in the picture above? The triangle formed between the wall and milestone is similar to the triangle formed between the stick and the milestone. 1 The following explanation is an adaptation of an excerpt from The Mysterious Island written by Jules Verne in 1874. 3

Two triangles can only be similar (have the same shape) if they have angles that are pairwise equal. This means that if ABC A B C ( is the sign of similarity), A = A B = B C = C In addition, two triangles are similar if and only if they have side lengths with pairwise equal ratios. This means that AB A B = BC B C = CA C A 2. Now think back to the granite wall and the 10-feet-long stick. Draw a geometric picture of the two triangles that are similar, and label their sides. Explain why the triangles are similar. In the picture, AB represent the wall, A B represents the stick, BC represents the distance between the wall and the milestone, and B C represents the distance between the stick and the milestone. ABC A B C because 4

C is common to both triangles B = B = 90 A = A because AB A B and A and A are corresponding angles that are equal to each other. Since all angles are equal, the two triangles are similar. 3. Write a proportion in terms of the side lengths of the triangles that you can use to find the height of the wall. Since the triangles are similar, their side lengths are in proportion. To find the height of the wall AB, AB A B = BC B C = CA CA AB = BC B C A B 4. If the distance between the milestone and the stick is 15 feet and the distance between the milestone and the wall is 500 feet, what is the height of the wall? From problem 3, AB = BC B C A B. Therefore, 500 10 = 333 feet is the height of the wall. 15 5. Isaac and Derek are measuring the heights of various objects outside. They do not know what time it is, but they notice that Derek is 6 feet tall, and he has a shadow that is 2 feet long. (a) Isaac looks at his shadow and notices that it is 3 feet long. Show the two triangles that are similar. How tall is Isaac? 5

Since the rays of the sun are parallel to each other, the two triangles formed will be similar. height of Isaac Using similarity, height of Derek = length of Isaac s shadow length of Derek s shadow Therefore, Isaac s height= 3 6 = 9. 2 Isaac is 9 feet tall. (b) Isaac and Derek look at a building nearby and notice that its shadow is 12 feet long. How tall is the building? The triangle formed above will be similar to the triangles in the previous part. height of building Using similarity, height of Derek = length of building s shadow length of Derek s shadow Therefore, building s height= 12 6 = 36. 2 The building is 36 feet tall. (c) Isaac dislikes the sun, so he wishes to stand in the shadow of the building. How far away from the building can Isaac stand and still be in the shade? There are two similar triangles formed with the building and its shadow, and with Isaac and his shadow. 6

height of building Using similarity, height of Isaac = length of building s shadow length of Isaac s shadow Therefore, length of Isaac s shadow= 12 9 = 3. 36 Isaac s shadow is 3 feet tall, this means that he is 9 feet away from the building. (d) Derek loves to be in the sun. As a result, he uses a ladder to get from the bottom of the building to its top. His requirement for placing the ladder is that the entirety of the ladder should be in the sun. Suppose that he wants to climb a building of height 4 units that has a shadow of length 3 units. How long does his ladder need to be? l = 3 2 + 4 2 = 5 Therefore, the ladder is 5 feet long. (e) Derek now wants to scale a building of length 12 units, and he needs a ladder of length 13 units to do so. How long is the shadow of the building? s = 13 2 12 2 = 5 Therefore, the shadow is 5 feet long. 7

6. A vertical pole of length 6m casts a shadow 4m long on the ground and at the same time a tower casts a shadow 28m long. Draw a figure and find the following: (a) the similar triangles. Explain why the triangles are similar. The triangles ABC A B C are similar because: C = C because sun rays are parallel to each other and fall on the ground at the same angle B = B because the tower and the pole are erect on the ground A = A because of the angle sum property of triangles. If C = C and B = B, A must be equal to A, since angles in a triangle must add up to 180. (b) the height of the tower Since the triangles are similar, Therefore, x = 28. 6 4 So, x = 42m. AB A B = BC B C = CA C A. 8

7. Here is a different way of determining the height of a tree using a mirror. At some distance from the tree to be scaled, place a mirror horizontally on the ground at point C. Move away from the mirror to a point D, while standing at which the top of the tree (point A) lies at your eye level. (Hint: Light reflects at the same angle as it reaches the mirror. This is called the Law of Reflection.) (a) Show which triangles are similar and explain why. 4ABC 4EDC because the corresponding angles are equal to each other. B = D = 90 because the tree and you are standing erect on the ground. ACB = ECD because of the Law of Reflection. A = E because of the angle sum property of triangles. If B = D and ACB = ECD, A must be equal to E, since angles in a triangle must add up to 180. (b) If your height is 6 feet, the mirror is 4 feet away from you, and you are 32 feet away from the tree, what is the height of the tree? AB Because of similarity, ED Therefore, height of6 the tree = = 28 4 BC AC DC = EC. height of the tree = 42 feet. 9

Math Kangaroo Problems 2 1. A jeweler can make chains of any length using identical links. Figure 1 shows such a chain made out of three links. A single link is shown in figure 2. What is the length of a chain made out of seven links? If two links were simply placed together, the length would be 8mm. When two links are linked together like a chain, the length is 7mm. There is a difference of 1mm for every overlap. If seven links were simply put together, the length would be 28mm. If seven links are linked together in a chain, there are six overlaps, which implies a difference of 6mm. Therefore, the length of a chain of seven links would be 28 6 = 22mm. 2. Rectangle ABCD has a perimeter of 120cm and its diagonals intersect at point P. The distance from P to side BC is twice the distance from P to side AB. What is the area of the rectangle? Let s say that the length AD = BC = m, and the length AB = DC = n. Because point P is the point of intersection of the diagonals, it lies at the center of the rectangle. Therefore, the distance from P to side BC would be n/2, and the distance from P to side AB would be m/2. We know that n = 2 m. Therefore, n = 2m. 2 2 We also know that the perimeter 2(n + m) = 120. Therefore, by substituting, 2(2m + m) = 120. Therefore, m = 20cm, and n = 40cm. Therefore, the area of the rectangle is 800cm 2. 2 The problems are taken from the 2010 Math Kangaroo contest. 10

3. What is the measure of ABC in the quadrilateral ABCD shown in the picture? Divide the figure into two triangles by drawing a line between A and C. We will obtain ADC ABC, because all corresponding sides are equal to each other, and thus in the same proportion. Because of similarity, all corresponding angles should be equal to each other. Therefore, DAC = BAC = 35, and DCA = BCA = 10. By the angle sum property of triangles, ADC = ABC = 180 35 10 = 135. 4. What fraction of the given square is the shaded region? Area of the square = (2 + 4) 2 = 36cm 2. It is easiest to find the area of the white portion first, which are two triangles of the same size. Area of the white portion = 2 1 2 4 6 = 24cm2. Therefore, area of the shaded region = 36 24 = 12cm 2, which is one-third the area of the square. Alternatively, one could directly find the area of the shaded portion. Draw a diagonal of the square inside the shaded region. This diagonal divides the region into two triangles of equal area. The base length of each triangle is 2 and the height is 6. Therefore, area of the shaded region = 2 1 2 2 6 = 12cm 2, which is one-third the area of the square. 11

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