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Improve Article Save Article Triangle is a closed figure which is formed by three line segments. It consists of three angles and three vertices. The angles of triangles can be the same or different depending on the type of triangle. There are different types of triangles based on line and angles properties. Properties of a Triangle: 1. Each triangle has 3 sides and 3 angles. 2. Sum of all the angles of triangles is 180° 3. Perimeter of a triangle is the sum of all three sides of the triangle. 4. A triangle has 3 vertices. Types of Triangles based on line PropertiesScalene Triangle: Scalene Triangle is a type of triangle in which all the sides are of different lengths. All the angles of a scalene triangle are different from one another.  Isosceles Triangle: Isosceles Triangle is another type of triangle in which two sides are equal and the third side is unequal. In this triangle, the two angles are also equal and the third angle is different. Right-angled Triangle: A right-angled triangle is one that follows the Pythagoras Theorem and one angle of such triangles is 90 degrees which is formed by the base and perpendicular. The hypotenuse is the longest side in such triangles. Equilateral Triangle: An equilateral triangle is a triangle in which all the three sides are of equal size and all the angles of such triangles are also equal. Finding Third Side of a Triangle given Two SidesLets assume that the triangle is Right Angled Triangle because to find a third side provided two sides are given is only possible in a right angled triangle. We know that the right-angled triangle follows Pythagoras Theorem According to Pythagoras Theorem, the sum of squares of two sides is equal to the square of the third side.
Using the above equation third side can be calculated if two sides are known. Example: Suppose two sides are given one of 3 cm and the other of 4 cm then find the third side.
Sample QuestionsQuestion 1: Find the measure of base if perpendicular and hypotenuse is given, perpendicular = 12 cm and hypotenuse = 13 cm. Solution:
Question 2: Perimeter of the equilateral triangle is 63 cm find the side of the triangle. Solution:
Question 3: Find the measure of the third side of a right-angled triangle if the two sides are 6 cm and 8 cm. Solution:
Question 4: Find whether the given triangle is a right-angled triangle or not, sides are 48, 55, 73? Solution:
Question 5: Find the hypotenuse of a right angled triangle whose base is 8 cm and whose height is 15 cm? Solution:
Eugene is a qualified control/instrumentation engineer Bsc (Eng) and has worked as a developer of electronics & software for SCADA systems. © Eugene Brennan In this second part of a two part tutorial, you'll learn about trigonometry which is a branch of mathematics that covers the relationship between the sides and angles of triangles. We'll find out about: Please Support This Article! Please whitelist this article in your ad-blocker. Ads help to pay for the time it takes authors to research and write these guides. Thank you! In science, mathematics, and engineering many of the 24 characters of the Greek alphabet are borrowed for use in diagrams and for describing certain quantities. You may have seen the character μ (mu) represent micro as in micrograms μg or micrometers μm. The capital letter Ω (omega) is the symbol for ohms in electrical engineering. And, of course, π (pi) is the ratio of the circumference to the diameter of a circle. In trigonometry, the characters θ (theta), φ (phi) and some others are often used for representing angles. Letters of the Greek alphabet. © Eugene Brennan There are several methods for working out the sides and angles of a triangle. To find the length or angle of a triangle, one can use formulas, mathematical rules, or the fact that the angles of all triangles add up to 180 degrees. Pythagoras's theorem uses trigonometry to discover the longest side (hypotenuse) of a right triangle (right angled triangle in British English). It states that for a right triangle: The square on the hypotenuse equals the sum of the squares on the other two sides. If the sides of a triangle are a, b and c and c is the hypotenuse, Pythagoras's Theorem states that: c2 = a2 + b2 c = √(a2 + b2) The hypotenuse is the longest side of a right triangle, and is located opposite the right angle. So, if you know the lengths of two sides, all you have to do is square the two lengths, add the result, then take the square root of the sum to get the length of the hypotenuse. Pythagoras's Theorem © Eugene Brennan The sides of a triangle are 3 and 4 units long. What is the length of the hypotenuse? Call the sides a, b, and c. Side c is the hypotenuse. a = 3 c = Unknown So, according to the Pythagorean theorem: c2 = a2 + b2 So, c2 = 32 + 42 = 9 + 16 = 25 So c2 = 25 and to find c, we just take the square root of 25 giving: c = √25 = 5 A right triangle has one angle measuring 90 degrees. The side opposite this angle is known as the hypotenuse (another name for the longest side). The length of the hypotenuse can be discovered using Pythagoras's theorem, but to discover the other two sides, sine and cosine must be used. These are trigonometric functions of an angle. In the diagram below, one of the angles is represented by the Greek letter θ. (pronounced "thee - tuh" or "thay - tuh" in an American accent).Side a is known as the "opposite" side.Side b is called the "adjacent" side. The vertical lines "||" around the words below mean "length of." So sine, cosine and tangent are defined as follows: sine θ = |opposite side| / |hypotenuse| cosine θ = |adjacent side| / |hypotenuse| tan θ = |opposite side| / |adjacent side| Sine, cosine and tan. © Eugene Brennan Sine and cosine apply to an angle, not just an angle in a triangle, so it's possible to have two lines meeting at a point and to evaluate sine or cosine for that angle even though there's no triangle as such. However, sine and cosine are derived from the sides of an imaginary right triangle superimposed on the lines. For instance, in the second diagram above, the purple triangle is scalene not right angled. However, you can imagine a right-angled triangle superimposed on the purple triangle, from which the opposite, adjacent and hypotenuse sides can be determined. Over a range 0 to 90 degrees, sine ranges from 0 to 1, and cosine ranges from 1 to 0. Remember, sine and cosine only depend on the angle, not the size of the triangle. So if the length a changes in the diagram above when the triangle changes in size, the hypotenuse c also changes in size, but the ratio of a to c remains constant. They are similar triangles. Sine, cosine and tangent are often abbreviated to sin, cos and tan respectively. The Sine RuleThe ratio of the length of a side of a triangle to the sine of the angle opposite is constant for all three sides and angles. So, in the diagram below: a / sine A = b / sine B = c / sine C Now, you can check the sine of an angle using a scientific calculator or look it up online. In the old days before scientific calculators, we had to look up the value of the sine or cos of an angle in a book of tables. The opposite or reverse function of sine is arcsine or "inverse sine", sometimes written as sin-1. When you check the arcsine of a value, you're working out the angle which produced that value when the sine function was operated on it. So:
When should the sine rule be used?The length of one side and the magnitude of the angle opposite is known. Then, if any of the other remaining angles or sides are known, all the angles and sides can be worked out. Example showing how to use the sine rule to calculate the unknown side c. © Eugene Brennan The Cosine RuleFor a triangle with sides a, b, and c, if a and b are known and C is the included angle (the angle between the sides), C can be worked out with the cosine rule. The formula is as follows: c = a2 + b2 - 2ab cos C When should the cosine rule be used?
c = a2 + b2 - 2ab cos C Rearranging the equation: C = arccos ((a2 + b2 - c2) / 2ab) The other angles can be worked out similarly. The cosine rule. © Eugene Brennan Example using the cosine rule. © Eugene Brennan If you know the ratio of the side lengths, you can use the cosine rule to work out two angles then the remaining angle can be found knowing all angles add to 180 degrees. Example: A triangle has sides in the ratio 5:7:8. Find the angles. Answer: So call the sides a, b and c and the angles A, B and C and assume the sides are a = 5 units, b = 7 units and c = 8 units. It doesn't matter what the actual lengths of the sides are because all similar triangles have the same angles. So if we work out the values of the angles for a triangle which has a side a = 5 units, it gives us the result for all these similar triangles. Use the cosine rule. So c2 = a2 + b2 - 2ab cos C Substitute for a,b and c giving: 8² = 5² + 7² - 2(5)(7) cos C Working this out gives: 64 = 25 + 49 - 70 cos C Simplifying and rearranging: cos C = 1/7 and C = arccos(1/7). You can use the cosine rule again or sine rule to find a second angle and the third angle can be found knowing all the angles add to 180 degrees. How to Get the Area of a TriangleThere are three methods that can be used to discover the area of a triangle. Method 1. Using the perpendicular heightThe area of a triangle can be determined by multiplying half the length of its base by the perpendicular height. Perpendicular means at right angles. But which side is the base? Well, you can use any of the three sides. Using a pencil, you can work out the area by drawing a perpendicular line from one side to the opposite corner using a set square, T-square, or protractor (or a carpenter's square if you're constructing something). Then, measure the length of the line and use the following formula to get the area:
"a" represents the length of the base of the triangle and "h" represents the height of the perpendicular line. Working out the area of a triangle from the base lengtth and perpendicular height. © Eugene Brennan The simple method above requires you to actually measure the height of a triangle. If you know the length of two of the sides and the included angle, you can work out the area analytically using sine and cosine (see diagram below). Working out the area of a triangle from the lengths of two sides and the sine of the included angle. © Eugene Brennan Method 3. Use Heron's formulaAll you need to know are the lengths of the three sides.
Where s is the semiperimeter of the triangle
Using Heron's formua to work out the area of a triangle. © Eugene Brennan If you've made it this far, you've learned numerous helpful methods to discover different aspects of a triangle. With all this information, you may be confused as to when you should use which method. The table below should help you identify which rule to use depending on the parameters you have been given.
How Do You Measure Angles?You can use a protractor or a digital angle finder like this one from Amazon. These are useful for DIY and construction if you need to measure an angle between two sides, or transfer the angle to another object. You can use this as a replacement for a bevel gauge for transferring angles e.g. when marking the ends of rafters before cutting. The rules are graduated in inches and centimetres and angles can be measured to 0.1 degrees. Note that this isn't suitable as a technical drawing instrument because the hub won't sit flat on paper unlike a protractor. Also since it's made of stainless steel, it has pointed corners which may be sharp and therefore isn't suitable for young children. You can draw and measure angles with a protractor. © Eugene Brennan Triangles in the Real WorldA triangle is the most basic polygon and can't be pushed out of shape easily, unlike a square. If you look closely, triangles are used in the designs of many machines and structures because the shape is so strong. The strength of the triangle lies in the fact that when any of the corners are carrying weight, the side opposite acts as a tie, undergoing tension and preventing the framework from deforming. For example, on a roof truss, the horizontal ties (which can be joists in a ceiling) provide strength and prevent the roof from spreading out at the eaves. The sides of a triangle can also act as struts, but in this case, they undergo compression. An example is a shelf bracket or the struts on the underside of an airplane wing or the tail wing itself. How to Implement the Cosine Rule in ExcelYou can implement the cosine rule in Excel using the ACOS Excel function to evaluate arccos. This allows the included angle to be worked out, knowing all three sides of a triangle. Using the Excel ACOS function to work out an angle, knowing three sides of a triangle. ACOS returns a value in radians. © Eugene Brennan References1. Trigonometry. from Wolfram MathWorld. (n.d.). Retrieved May 24, 2022, from https://mathworld.wolfram.com/topics/Trigonometry.html 2. Equilateral triangle. from Wolfram MathWorld. (n.d.). Retrieved May 24, 2022, from https://mathworld.wolfram.com/EquilateralTriangle.html 3. Isosceles Triangle. from Wolfram MathWorld. (n.d.). Retrieved May 24, 2022, from https://mathworld.wolfram.com/IsoscelesTriangle.html 4. Scalene Triangle. from Wolfram MathWorld. (n.d.). Retrieved May 24, 2022, from https://mathworld.wolfram.com/ScaleneTriangle.html 5. Prof. David E. Joyce. The laws of cosines and Sines. Laws of Cosines & Sines. (n.d.). Retrieved May 24, 2022, from https://www2.clarku.edu/faculty/djoyce/trig/laws.html This content is accurate and true to the best of the author’s knowledge and is not meant to substitute for formal and individualized advice from a qualified professional. © 2016 Eugene Brennan Eugene Brennan (author) from Ireland on July 03, 2020: Hi Jacob, If you two angles, you can calculate the third one because all angles sum to 180 degrees. Then you need at least one side length and you can use the sine rule to calculate the others. Jacob Halstead on July 03, 2020: Finding lengths of a trisngle’s sides using two base interior angles? Eugene Brennan (author) from Ireland on June 05, 2020: Hi Swetha, You need to know the length of at least one side. There are an infinite number of right angle triangles with the same three angles (similar triangles). If you know one side, you can use sine and cos to work out the other sides. Swetha on June 05, 2020: How to find 3 sides when angles are given in a right angle triangle.Give a formula to solve it? Eugene Brennan (author) from Ireland on June 02, 2020: Hi Kayla, Draw your triangle with the side 8cm as the base. Call this a. Then draw side c at an angle of 45.5 to side a starting at the left of a. This is angle B. You don't know it's length, so just continue on the line Draw side b starting at the right of the base a. You don't know the length of b either, so just continue it on to intersect side b. Use method 2 above for area to first find the length of side c. So area = 1/2 ac sin B = 1/2 (8) c sin 45.5 = 4c sin 45.5 = 18.54 square cm Rearranging gives c = 18.54 / (4 sin 45.5) When you work out this value for c, you can use the cosine rule to find the length of the side b opposite the 45.5 degrees angle. Now you know the lengths of all the sides so you can use the sine rule to work out the angles. Kayla on June 01, 2020: Can yu please explain this question? A triangle has one side length of 8cm and an adjacent angle of 45.5. if the area of the triangle is 18.54cm, calculate the length of the other side that encloses the 45.5 angle Thanks Eugene Brennan (author) from Ireland on May 13, 2020: Hello, So call the sides a, b and c and the angles A, B and C and assume the sides are a = 5 units, b = 7 units and c = 8 units. It doesn't matter what the actual lengths of the sides are because all similar triangles have the same angles. So if we work out the values of the angles for a triangle which has a side a = 5 units, it gives us the result for all these similar triangles. Use the cosine rule. So c² = a² + b² - 2abCos C Substitute for a,b and c giving: 8² = 5² + 7² - 2(5)(7)Cos C Working this out gives: 64 = 25 + 49 - 70Cos C Simplifying and rearranging: Cos C = 1/7 and C = arccos(1/7). You can use the cosine rule again to find a second angle and the third angle can be found knowing all the angles add to 180 degrees. Hello on May 13, 2020: Can I find sinus of the biggest or the smallest angle, if the only thing I know is that the triangle is acute and it's sides are proportional to 5:7:8? Eugene Brennan (author) from Ireland on May 10, 2020: Hi Abike, No, because, there are an infinite number of combinations of angles for the other two angles or two sides. Draw two lines with the known angle between them. You'll see that you can make the ratio of their lengths anything you want, changing the angles also so that one is big and the other small or vice versa. Abike on May 10, 2020: Hello, Is it possible to find the angles of an acute triangle with only one known angle and no known side? Eugene Brennan (author) from Ireland on April 29, 2020: Use the simple formula: area = 1/2 the base x height Multiply both sides of equation by 2 2area = 2 x 1/2 x base x height = base by height Divide both sides by height 2area/height = base x height/height = base and switch around the two sides so base = 2area / height. Suzy on April 28, 2020: Find the length of the base. Where the height is 8 and the area is 20. Solve for the length base? Emmy on April 07, 2020: Thank you so much! Himanshu gond india on March 12, 2020: Thanks a lot sir Eugene Brennan (author) from Ireland on February 27, 2020: Hi Hassan, if we don't know the length of the side c, we need to know an additional piece of information, the angle between side a and b or one of the other angles. Hassan on February 27, 2020: Mr. Brennan, if we have only two side information for example a=5, b=10, and we know nothing about the angles then how to calculate c and any angle. the triangle is not right triangle. Eugene Brennan (author) from Ireland on February 20, 2020: No problem Bob, glad to help! Have a great day too! Bob longnecker on February 20, 2020: Mr. Brennan Thank you very much. This is what I was looking for. Have a great day and best regards . Bob L. Eugene Brennan (author) from Ireland on February 20, 2020: Hi Bob, The length of the short side is 3.6" x tan(30) which works out at 2.08" approx. If the angle changes to 31 degrees, the short side is 3.6" x tan(31) = 2.16" approx. So the length variation of the short side would vary with the tan of the angle. If you look at the graph of tan, there's an approximately linear variation up to about 45 degrees (so the long side increases proportionately with the angle). Then the graph gets steeper at an increasing rate, so the short side would change a lot for small variations of angle. Bob longnecker on February 18, 2020: The 3.6 side is opposite the 60° angle. The 3.6 side is the longest of the two short sides. I don't care about the hypotinuse. Just want to really see what a change in the 30° angle does and how it affects the short side. First I need the length of that side and then the length of that side when I change the 30° angle to 31°. How much does 1° change affect the length? Eugene Brennan (author) from Ireland on February 18, 2020: In your first problem Bob, which angle is the 3.6" length opposite? (or is this side the hypotenuse, the longest side?) Bob longnecker on February 17, 2020: Still trying but no luck! Eugene Brennan (author) from Ireland on February 17, 2020: You can also use a triangle calculator like this one and all you have to do is input values for side length and angle. If you have sufficient information, it will calculate the remaining sides and angles. https://www.calculator.net/triangle-calculator.htm... Eugene Brennan (author) from Ireland on February 17, 2020: If the triangle is right angled, then: sine (angle) = length of side opposite angle / length of hypotenuse Therefore length of side opposite angle = length of hypotenuse x sine(angle) Similarly cos (angle) = length of side adjacent to angle / length of hypotenuse. Therefore length of side adjacent to angle = length of hypotenuse x cos(angle) Tan(angle) = length of side opposite angle/length of side adjacent. So if you know all the angles (which you do), and one side, you can work out the remaining sides. Bob longnecker on February 17, 2020: Sorry to say I'm 77 years old. I took trig and calc as a senior in high school "60" years ago. Learning it taught me how to think and problem solve in life back then but never used it Perdue after that. Forgot what I learned back then. Do have a valid reason for the answer just don't have the wear with all to go back and learn trig again. What I really need to know is how much B changes per degree of change in the hypothesis. Example going from 30 to 31°how much increase in B length ? What is your calculated answer. Sorry just too tired to go back and visit 60 years ago when I was 17! Thank you and best regards, Bob longnecker Eugene Brennan (author) from Ireland on February 17, 2020: Hi Bob, you can use the sine, cos and tan relationships to work out problems like this. Bob longnecker on February 17, 2020: I have a triangle with angles of: 30,60 and 90°. Side A is know to be 3.6". I want to know what short side B is. Can anyone give me the answer? Problem #2. I have a triangle with angles of 31, 59, and 90°. Long side A is 3.6". I want to know the length of short side B. Hi on February 12, 2020: solve two triangle and 4 triangle in quadrilateral by use of sine rule a/sin A= b/sinB that i know But a = sin A/ sinB what is that formula I don't understand that formula but that true Duran on January 22, 2020: Hi Mr. Brennan. I have a problem that is difficult for me: Known:I have two angles:∠A and ∠B then I have a bundle of similar triangle-ABCs. Now there must be a point T inside the triangles who forms three new sides: TA, TB and TC. I know that the angles between all these three sides are equally 120 deg. Q: Can I solve the angle-BAT. That realy confused me for a while ! Eugene Brennan (author) from Ireland on January 04, 2020: If the angle is 45 degrees, the remaining angle is also 45 degrees, so the triangle is isosceles as well as being right angled. So if the length of the hypotenuse is a and the other two sides are b and c, then from Pythagoras's theorem: a^2 = (b^2 + c^2) = (2b^2) so b^2 = (a^2)/2 and b = c = a / square root of 2 Nathaniel Gloyd on January 04, 2020: If you have a right angle triangle, how would you find the distance from the corner of the 90 degree, to the hypotenuse on a 45 degree angle Eugene Brennan (author) from Ireland on December 19, 2019: Hi Rj, Use the sine rule. So if your sides are a,b and c and you know their lengths and your angles are A, B and C and you know one angle A, then: a/sin A = b/sin B Turn both sides of the equation upside down, so: sin A / a = sin B / b Multiply both sides by b b sin A / a = sin B Work out b sin A /a on your calculator and this gives you sin B. Then take the arcsin of the result to get B. Once you have A and B, add together and subtract from 180 to get C. Rj on December 19, 2019: If one angle and all three sides of the scalane triangle is given then how will you get the measure of other two angle Eugene Brennan (author) from Ireland on October 24, 2019: Hi Natalia, Look at method 2 in the tutorial for finding the area of a triangle. So the area is 1/2 the product of two sides multiplied by the sine of the angle between them. In your question the sides are PQ and QR and the angle between them is PQR. So area = (1/2) PQ sin PQR Substitute for P, Q, angle PQR and the area: 14.2 = (1/2) x 7 x 5 x sin PQR Rearrange: sin PQR = 14.2 / ( (1/2) x 7 x 5 ) Take the arcsin of both sides. You can do all this on a calculator, but take care entering all the brackets and numbers because it's very easy to make a mistake. Make sure the calculators is set to "DEG" and use the sin ^ -1 (usually shift on sin) to work out arcsin. I would recommend HiPer Calc as a good, free scientific calculator app for Android if you have a smartphone. PQR = arcsin (14.2 / ( (1/2) x 7 x 5 ) ) = 54.235° = 54° 15' approx natalia on October 24, 2019: HI EUGENE, can you solve this problem for me and provide me with working out. the area of triange PQR is 14.2cm squared, find angle PQR to the nearest minute, given PQ is 7cm and QR is 5cm. Eugene Brennan (author) from Ireland on October 09, 2019: Hi Pavel, By diagonal, I presume you mean the hypotenuse. So you can use Pythagoras' Theorem. The square on the hypotenuse equals the sum of the squares on the other two sides. Square the two sides and add together: (n + 4)² + 16² = (n + 8)² Expand out: n² + 8n + 16 + 256 = n² + 16n + 64 Rearrange and simplify: 8n = 208 Giving n = 26 So the two sides are n + 4 = 30 cm and n + 8 = 34 cm Pavel on October 09, 2019: I have a problem about a question can you help me please? I have a right angled triangle the bottom line is 16 cm the one on the side is n+4 and the diagonal line is n+8 can you help me find the two sides please? Eugene Brennan (author) from Ireland on September 28, 2019: Hi Carcada. You can't. You can have as many triangles as you want with exactly the same three angles. These are called similar triangles. You need to know at least the length of one side, then you can use the sine rule to work out the others. Carcada Keischa on September 28, 2019: if only the angles of each side of the triangle is given then how can we find the length of each side of the triangle? Eugene Brennan (author) from Ireland on September 08, 2019: You don't have enough information. You need to have at least one of a, c, A or C. Sin B = 1/ sqrt 3, only gives you the angle B = (acos (1/sqrt 3)). So if a is the base, side c can be any length without knowing the other sides/angles. Hannah Adams on September 07, 2019: I have a question. How do I find the missing sides of a triangle if I know that sin B=1/sqrt 3 and a=2 Eugene Brennan (author) from Ireland on August 14, 2019: tan (ɵ) = opposite / adjacent so opposite = adjacent x tan (ɵ) Now you know the opposite and adjacent sidfes, use Pythagoras' theorem to work out the hypotenuse. Phoebe on August 13, 2019: Hey, i have a triangle, all that is known is the adjacent, the right angle and the theta, how do i figure out the other sides, asaba charles on July 23, 2019: thanks Maribel Gibbs from Paoli, Pennsylvania on May 22, 2019: Wow, amazing! One of the best works I ever have seen here! Khaleel Yusuf on May 18, 2019: A good review of many years of wining and dining with math calculations. Awesome! Ur mum gay on April 24, 2019: This is a decent website Christopher on March 26, 2019: Wow this is really helpful thanks Michael on January 20, 2019: Hi, I'm wrapping my head around this problem: I know one side, and the two angles produced by the median on the opposing corner. I'd like to know the length of the other two sides. I drew a scheme, available here: www.Stavrox.com/image/Triangle.png The green values are known (a, alpha, beta) , I'd like to calculate b, c and also x. Can you help me. Ferny Vise from San Francisco, CA on January 19, 2019: I really like this article. As a math major myself, I believe math is beautiful! Oscar Skabar on December 02, 2018: I have an example I cannot work out..... Two birds sitting on a 90 degree mask one at 9m up & the other at 6m up but are 15m apart from each other, they see a fish in the water, how do I calculate the distance of the fish from the birds so they are equal in distance Rodrigo on November 19, 2018: Hi, Eugene! You can calc the three angles inside a triangle using tangent half-angle like this: tan(alpha/2) = r / (p-a) tan(beta/2) = r / (p-b) tan(gamma/2) = r / (p-c) p = (a+b+c) / 2 (semiperimeter) r = sqrt( (p-a)(p-b)(p-c) / p ) alpha + beta + gamma = 180 (they are the internal angles of the triangle :) Congrats for your site! Eugene Brennan (author) from Ireland on November 18, 2018: Hi Carla. There may be a simpler way of doing it, but you can use the cosine rule in reverse to work out the angle B. Then since it's bisected, you know half this angle. Then use the cosine rule in reverse or the sine rule to work out the angle between sides AB and CA. You know the third angle (between the bisector line and side CA) because the sum of angles is 180 degrees. Finally use the sine rule again to work out the distance from A to the bisection point knowing the length of AB and half the bisected angle. Eugene Brennan (author) from Ireland on November 05, 2018: You can't find side lengths with angles alone. Similar triangles have the same angles, but the sides are different. You must have the length of at least one side and two angles. william on November 05, 2018: how do you find side lengths with only angle measurements Eugene Brennan (author) from Ireland on November 03, 2018: If you have the angle at each end, then you can work out the third angle because you know all the angles add up to 180 degrees. Then use the sine rule to work out each side (see example above in the text) Karen on November 02, 2018: i have the the length of one side and the angle at each end, what is the sum to work out the length of the other sides Eugene Brennan (author) from Ireland on November 02, 2018: Hi Tom, If you know the lengths of all three sides, use the cosine rule first and the arccos function to work out one of the angles. Then use the sine rule (or the cosine rule again) to work out the one of the other two angles and the fact that they add up to 180 degrees to find the last angle As regards Excel, I've added a photo to the article showing how to implement a formula for working out an angle using the cosine rule. tom sparks on October 23, 2018: I have a right angled triangle and know the lengths of all three sides. I would like to calculate the other angles. I have tried TAN in Excel but it says using this 'Returns the tangent of the given angle,. What would be the best way to work this out Hope you can help Kind regards Eugene Brennan (author) from Ireland on October 21, 2018: You need more information, either another side or angle to solve. Sanjeev on October 21, 2018: Right angle and h is 421.410 How find 2 angles and two sides. Eugene Brennan (author) from Ireland on September 28, 2018: You kneed to know at least one other angle or length. The exception is a right-angled triangle. If you know one angle other than the right angle, then you can work out the remaining angles using sine and cos relationships between sides and angles and Pythagoras' Theorem. SUDHAKAR G on September 28, 2018: how to i find the length in a Scalene triangle? we konw only one angle and one length. Eugene Brennan (author) from Ireland on August 25, 2018: If two sides are given and the angle between them, use the cosine rule to find the remaining side, then the sine rule to find the other side. If the angle isn't between the known side, use the sine rule to find the angles first, then the unknown side. You at least need to know the angle between the sides or one of the other angles so in your example it's the sine rule you need to use. Akhyar on August 24, 2018: If only two sides are given of a non right angled triangle .. then how to find angle between them Eugene Brennan (author) from Ireland on July 19, 2018: Hi Imran, There's an infinite number of solutions for angles A and B and sides a and B. Draw it out on a piece of paper and you'll see that you can orientate side c with a known length (e.g. pick a length of 10 cm) and change the angles A and B to what ever you want. You need to know either the length of one more side or one more angle. Imran Hussain from India on July 19, 2018: Call the angles A,B and C and the lengths of the sides a, b and c. a is opposite A b is opposite B c is opposite C C is the right angle = 90º and c is the hypotenuse. How to find the sides of triangle a and b and other 2 angles A and B, if i know only angle C and side c which is hypotenuse? Eugene Brennan (author) from Ireland on May 28, 2018: Hi Liam, You need to know at least one of the sides. You could have a very large or very small triangle with the same angles. These are called similar triangles. See the diagram in the tutorial. Liam on May 27, 2018: How do I find a side in a right angle triangle if I know all three angles but no sides? Eugene Brennan (author) from Ireland on May 24, 2018: If the holes are equally spaced around the imaginary circle, then the formula for the radius of the circle is: R = B / (2Sin(360/2N)) Where R is the radius B is the distance between holes N is the number of holes Divya on May 24, 2018: how to calculate distance of each hole at PCD from centre circle Amar36 on April 17, 2018: Hi sir how is that possible to know angle by just having ratios of two heights of triangle and u need not use protector or some other instruments and not even inverse trigonometric functions just simply by ratio do we calculate them or not if then how I asked it because how they have founded the angles of different triangles with it any discovery of inverse trigonometric functions. Thank in advance Eugene Brennan (author) from Ireland on February 13, 2018: No enough information shahid! If you think about it, there's an infinite number of triangles that satisfy those conditions. Area = (1/2) base x height. So there's no unique values of base and height to satisfy equation (1/2) base x height = 10 m squared. shahid abbasi on February 13, 2018: area of right angle triangle is 10m and one angle is 90degree then how calculate three sides and another two angles. Eugene Brennan (author) from Ireland on January 14, 2018: If you assign lengths to all sides, you easily can work out the angles. Which sides did assign a length to? Gem on January 13, 2018: Any luck Eugene? I have figured out some of the angles by folding a part of the paper that can let me use trig to figure it out if I assign each side a length. Eugene Brennan (author) from Ireland on January 07, 2018: Hi Danya, Because you know two of the angles, the third angle can simply be worked out by subtracting the sum of the two known angles from 180 degrees. Then use the Sine Rule described above to work out the two unknown sides. danya61 on January 07, 2018: Hi I have a triangle with two known angles and one known length of the side between them, and there is no right angle in the triangle. I want to calculate each of unknown sides. How can I do that? (The angle between unknown sides is unknown.) Eugene Brennan (author) from Ireland on January 04, 2018: Draw a diagram jeevan. I can't really visualize this. jeevan on January 04, 2018: there are 3 circles 1 large circle is a pitch circle having 67 diameter and medium circle is drawn on the circumference of pitch circle at the angle of 5 degree hvaing 11.04 radius and a small circle with only moves in x y direction on pitch circle radius having 1.5 radius so if the medium circle is moved 5degree then at which point the small circle is coinciding and the distance from small circle to center of large/pitch circle.? sir please help me finding the answer thank you. Gem on December 29, 2017: It is tough to prove for sure. I thought I had it by assigning each side a random length ( such as 2cm) and then taking the middle point as half, which looked like the right angle triangle on the top right hand side was half of the half. But it still can't be proven to be half because of the fold. Eugene Brennan (author) from Ireland on December 16, 2017: If it's an equilateral triangle, the sides and angles can be easily worked out. Otherwise the triangle can have an infinite number of possible side lengths as the apexes A and C are moved around. So if none of the magnitudes of lengths are known, the expression for lengths of sides of the triangle and its angles would have to be expressed in terms of the square's sides and the lengths AR and CP? Gem on December 15, 2017: The whole problem has no measurements or angles. It only has angle names such as A,B,C,D etc. My starting point is from the common knowledge that a square has 4 x 90 degree angles. If I could determine one other angle then I could figure out the whole problem by using the 180 degree rule of triangles. I will snap a picture of it and try and upload it here on Monday, or sketch and upload it. It seems to be a real stumper, 2/70 people at a workshop were able to figure it out, as I was told by the person who passed it along to me. I appreciate your reply, and I look forward to sharing the appropriate visual information with you. Eugene Brennan (author) from Ireland on December 15, 2017: Hi Gem, Is any information given about where the corners of the triangle touch the sides of the square or the lengths of the square's sides? If the triangle isn't equilateral (or even if it is), it seems that there would be an infinite number of placing the triangle in the square. Gem on December 14, 2017: Problem: A triangle is placed inside a square. The triangle doesn't have measurements or any listed angles. So we can't identify the type (although it looks equilateral) or make any concrete assumptions about the triangle. I'm suppose to figure out the angles of the triangle without a protractor or ruler based on the only angles I am given which are the 90 degrees from each corner of the square it's in. Since the lines that cut through the square from the main triangle inside the square make new sets of smaller triangles, I still can't make out complimentary or supplementary angles since most of those smaller triangles aren't definitely right angles isosceles triangles. I'm not sure if my question is clear, so if you answer back I'll try and add a picture or sketch to clarify. Just picture a square with a triangle in it touching all 3 sides of its points to the square with no units of measure and no angles. We can only assume that the square has 90 degree angles in the corners and that's all we are given to work with. Thanks Gem Eugene Brennan (author) from Ireland on December 01, 2017: Hi Maxy, Call the angles A,B and C and the lengths of the sides a, b and c. a is opposite A b is opposite B c is opposite C C is the right angle = 90º and c is the hypotenuse. If the angle A is known and the side opposite it, a, is known Then Sin A = opposite/hypotenuse = a/c So c = a/Sin A Since you know a and A, you can work out c. Then use Pythagoras's theorem to work out b c² = a² + b² So b² = c² - a² So b = √(c² - a²) If the angle A is known and the side adjacent to it, b, is known Then Cos A = adjacent/hypotenuse = b/c So c = b / Cos A Since you know b and A, you can work out c. Then use Pythagoras's theorem to work out a. c² = a² + b² So a² = c² - b² So a = √(c² - b²) Eugene Brennan (author) from Ireland on November 27, 2017: You need to use the cosine rule in reverse. So if the angles are A, B, and C and the sides are a,b and c. Then c² = a² + b² - 2abCos C Rearranging gives angle C = Arccos ((a² + b² - c²) / 2ab) You can work out the other angles similarly using the cosine rule. Alternatively use the sine rule: So a/Sin A = c/Sin C So Sin A = a/c (Sin C) and A = Arccos ( a/c (Sin C) ) and similarly for the other angles Hannah on November 27, 2017: How do you find the angle if all three sides are given Eugene Brennan (author) from Ireland on November 25, 2017: Polygons are a lot more complicated than triangles because they can have any number of sides (they do of course include triangles and squares). Also polygons can be regular (have sides the same length) or non-regular (have different length sides). Here's two formulae: For a regular or non-regular polygon with n sides Sum of angles = (n-2) x 180 degrees For a regular convex polygon (not like a star) Interior angles = (1 - 2/n) x 180 degrees Eugene Brennan (author) from Ireland on November 23, 2017: Hi Jeetendra, This is called a scalene triangle. The longest edge of any triangle is opposite the largest angle. If all angles are known, the length of at least one of the sides must be known in order to find the length of the longest edge. Since you know the length of an edge, and the angle opposite it, you can use the sine rule to work out the longest edge. So if for example you know length a and angle A, then you can work out a/Sin A. If c is the longest side, then a/sin A = c/Sin C , so rearranging, c = a Sin C / Sin A a, C and A are known, so you can work out c Jeetendra Beniwal( from India) on November 23, 2017: If all three angles are given then how we find largest edge of triangle,if all angles are acute Eugene Brennan (author) from Ireland on July 21, 2016: Thanks Ron, triangles are great, they crop up everywhere in structures, machines, and the ligaments of the human body can be thought of as ties, forming one side of a triangle. Ron Bergeron from Massachusetts, US on July 21, 2016: I've always found the math behind triangles to be interesting. I'm glad that you ended the hub with some examples of triangles in every day use. Showing a practical use for the information presented makes it more interesting and demonstrates a purpose for learning about it. |
How to find one side of a triangle when two is given
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