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This is a basic question, and based on my thoughts I really think this is true, but I just want some verification. If I have similar triangles, are the ratios between two sides of one triangle equal to the ratio of the corresponding sides on the other triangle? Show
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Now that we are done with the congruent triangles, we can move on to another concept called similar triangles. In this article, we will learn about similar triangles, features of similar triangles, how to use postulates and theorems to identify similar triangles, and lastly, how to solve similar triangle problems. What are Similar Triangles?The concept of similar triangles and congruent triangles are two different terms that are closely related. Similar triangles are two or more triangles with the same shape, equal pair of corresponding angles, and the same ratio of the corresponding sides. Illustration of similar triangles:  Consider the three triangles below. If:
AB/PQ = AC/PR= BC= QR, AB/XY= AC/XZ= BC/YZ
Therefore, ΔABC ~ΔPQR~ΔXYZ Comparison between similar triangles and congruent triangles
How to identify similar triangles?We can prove similarities in triangles by applying similar triangle theorems. These are postulates or the rules used to check for similar triangles. There are three rules for checking similar triangles: AA rule, SAS rule, or SSS rule. Angle-Angle (AA) rule: Side-Angle-Side (SAS) rule: Side-Side-Side (SSS) rule: How to Solve Similar Triangles?There are two types of similar triangle problems; these are problems that require you to prove whether a given set of triangles are similar and those that require you to calculate the missing angles and side lengths of similar triangles. Let’s take a look at the following examples: Example 1 Check whether the following triangles are similar Solution Sum of interior angles in a triangle = 180° Therefore, by considering Δ PQR ∠P + ∠Q + ∠R = 180° 60° + 70° + ∠R = 180° 130° + ∠R = 180° Subtract both sides by 130°. ∠ R= 50° Consider Δ XYZ ∠X + ∠Y + ∠Z = 180° ∠60° + ∠Y + ∠50°= 180° ∠ 110° + ∠Y = 180 ° Subtract both sides by 110° ∠ Y = 70° Hence;
Example 2 Find the value of x in the following triangles if, ΔWXY~ΔPOR. Solution Given that the two triangles are similar, then; WY/QR = WX/PR 30/15 = 36/x Cross multiply 30x = 15 * 36 Divide both side by 30. x = (15 * 36)/30 x = 18 Therefore, PR = 18 Let’s check if the proportions of the corresponding two sides of the triangles are equal. WY/QR = WX/PR 30/15 = 36/18 2 = 2 (RHS = LHS) Example 3 Check whether the two triangles shown below are similar and calculate the value k. Solution By Side-Angle-Side (SAS) rule, the two triangles are similar. Proof: 2 = 2 Now calculate the value of k 12/k = 8/4 12/k = 2 Multiply both sides by k. 12 = 2k Divide both sides by 2 12/2 = 2k/2 k = 6. Example 4 Determine the value of x in the following diagram. Solution Let triangle ABD and ECD be similar triangles. Apply the Side-Angle-Side (SAS) rule, where A = 90 degrees. AE/EC= BD/CD x/1.8 = (24 + 12)/12 x/1.8 = 36/12 Cross multiply 12x = 36 * 1.8 Divide both sides by 12. x = (36 * 1.8)/12 = 5.4 Therefore, the value of x is 5.4 mm. |
When two triangles are similar the ratio of the ratio of the lengths of any two sides of one triangle is equal to the corresponding ratio for the other triangle?
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