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Tension Problems Notes The Tension Triangles that you create will be useful when solving certain Tension Problems, such as “sign” problems. Use this guide to create your Tension Triangles and then practice using them on the “Tension Problems Worksheet” problems 4-6. 1. When solving Tension problems using trigonometry, there are four basic rules to remember: a. Find the triangle. b. Fup = Fdown i. Consider: When there are two triangles present, what does that mean about the up and downward forces? c. Fleft = Fright d. Use Pythagorean Theorem, sin, cos, tan or the Law of Sine to solve for the unknowns. 2. Examine your Tension Triangles. These triangles can be used for Tension problems where you find two triangles present. Notice that there are two tensions, two upward forces and a left and right force. 3. Choose one color to represent tension and shade in the tension side of each triangle. 4. Choose a second color to represent the upward forces and shade in the upward force side of each triangle. 5. Choose a third color to represent the left and right forces and shade in the left and right force. 6. Cut out your triangles and set them aside. Look at the example problem. 7. Example: Determine forces A and B. 8. Do you have enough information to solve the problem using sin, cos, or tangent? If not, what options do you have? This is where your Tension Triangles should come in handy. 9. Set your triangles out so that they look like the triangles in the problem. A 30° B 45° 10. Consider sin, cos and tan: a. Look at the upward force on side A. It is opposite the angle 30° and you know A is the hypotenuse. Therefore, you can use sinθ = opp / hyp, where the opposite side is represented by Fup and the hypotenuse is represented by side A. To solve for the opposite side, you would have the equation: opp = Asinθ. b. So solve for the left force, which is adjacent to the angle, you can use cosθ = adj / hyp, where the adjacent side is represented by Fleft and the hypotenuse is represented by side A. To solve for the adjacent side, you would have the equation: adj = Acosθ. c. But what about the triangle on the right side? For the opposite side, you have to use the equation opp = Bsinθ and adj = Bcosθ. d. Whoa, that is a lot of information! Let’s slow down and label our diagram: Asinθ Bsinθ Acosθ Bcosθ 11. Now we know how to solve for each side of the triangle, but that still doesn’t help us solve for force A and B. Well, it actually does. Remember the rules when solving for tension using trigonometry. 12. After identifying the triangle, remember Fup = Fdown. Since the downward force in this problem is 15 lbs, then the sum of the two upward forces must be 15 lbs: Asin30° + Bsin45° = 15. 13. Next, Fleft = Fright. Based on this, it can be stated that Acos30° = Bcos45°. 14. Ok, now that we have all of our information, lets solve: Acos30° = Bcos45° A = (Bcos45°) / (cos30°) A = 0.816B Now we can substitute this value into our next equation: Asin30° + Bsin45° = 15 (0.816B) sin30° + Bsin45° = 15 0.408B + 0.707B = 15 1.12B = 15 B = 13.45 lbs A = 0.816B A = (0.816) (13.45) A = 10.98 lbs 15. Not too bad, right? For some of you, this method will actually be quite easy, but for others, you will prefer the second method. 16. Take a look at your triangle pattern that you set up all the way back in Step 9. You can rotate these two triangles to form a single triangle as shown in the diagram below. Fup A B 30° 45° Fleft Fup Fright 30° 45° A Fup Fup B 17. Use trigonometry to determine the angles in the lower corners of the triangle. 60° 45° 18. Notice the two bottom components on the bottom of the triangle are the upward forces. Since the Fup = Fdown, what value is the bottom of the triangle? If you said 15 lbs, you are correct. 15 19. Now you can use the Law of Sine to solve for A and B. 20. (15 / sin75°) = (A / sin45°) A = 10.98 lbs 21. (15 / sin75°) = (B / sin60°) B = 13.45 lbs 22. Now that you have seen both examples on how to solve Tension Problems, try the two example problems using either sin, cos, tan or the Law of Sine.