12/10/2023 0 Comments Kite side length calculatorThe area of a rhombus can also be calculated using the length of one side (a) and the measure of one angle (α) using the formula: Calculating Rhombus Area by Side and Corner: This formula is derived from the fact that a rhombus can be divided into four congruent right triangles, each with base and height equal to half the length of the diagonals. The area of a rhombus can be calculated using its diagonals, represented as d 1 and d 2, using the formula: Below are the formulas for calculating the area of a rhombus using each method: Calculating Rhombus Area by Diagonals: To calculate the area of a rhombus, our calculator offers three methods: by the diagonals, by the side and corner, and through the base and height. The calculator displays the result! In our case the angles are equal to α = 41.41°, β = 55.77° and γ = 82.82°.Īfter such an explanation, we're sure that you understand what the law of cosine is and when to use it.A rhombus is a four-sided polygon with all sides equal in length. Type the sides: a = 4 in, b = 5 in, and c = 6 in. We need to pick the second option – SSS (3 sides).Įnter the known values. If you want to save some time, type the side lengths into our law of sines calculator - our tool is a safe bet! Just follow these simple steps:Ĭhoose the option depending on given values. You may calculate the second angle from the second equation in an analogical way, and the third angle you can find by knowing that the sum of the angles in a triangle is equal to 180° (π/2). Assume we have a = 4 in, b = 5 in and c = 6 in. If your task is to find the angles of a triangle given all three sides, all you need to do is to use the transformed cosine rule formulas: If you're curious about these law of cosines proofs, check out the Wikipedia explanation. The one based on the definition of dot product is shown in another article, and the proof using the law of sines is quite complicated, so we have decided not to reproduce it here. The last two proofs require the distinction between different triangle cases. The great advantage of these three proofs is their universality – they work for acute, right, and obtuse triangles. The theorem states that for cyclic quadrilaterals, the sum of products of opposite sides is equal to the product of the two diagonals:Īfter reduction, we get the final formula: Then, for our quadrilateral ADBC, we can use Ptolemy's theorem, which explains the relation between the four sides and two diagonals. Thus, we can write that BD = EF = AC - 2 × CE = b - 2 × a × cos(γ). CE equals FA.įrom the cosine definition, we can express CE as a × cos(γ). The heights from points B and D split the base AC by E and F, respectively. We also take advantage of that law in many Omnitools, to mention only a few:Īlso, you can combine the law of cosines calculator with the law of sines to solve other problems, for example, finding the side of the triangle, given two of the angles and one side (AAS and ASA).Īnother law of cosines proof that is relatively easy to understand uses Ptolemy's theorem:Īssume we have the triangle ABC drawn in its circumcircle, as in the picture.Ĭonstruct the congruent triangle ADC, where AD = BC and DC = BA The law of cosines is one of the basic laws, and it's widely used for many geometric problems. That's why we've decided to implement SAS and SSS in this tool, but not SSA. Just remember that knowing two sides and an adjacent angle can yield two distinct possible triangles (or one or zero positive solutions, depending on the given data). The third side of a triangle, knowing two sides and an angle opposite to one of them (SSA): The angles of a triangle, knowing all three sides (SSS): The third side of a triangle, knowing two sides and the angle between them (SAS): You can transform these law of cosines formulas to solve some problems of triangulation (solving a triangle).
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