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This Triangle Calculator helps you quickly determine unknown sides, angles, heights, medians, area, and more. It simplifies complex trigonometry calculations for students, teachers, and professionals.
The equation that is used to find the height of the triangle is as follows:
\(\ h = \frac{2A}{b} \)
Where
Calculate the area of a triangle by using the following formula:
\( \text{Area} = \frac{1}{2} b h \)
Where
There is another way to calculate the area of triangle and it is known as Heron’s formula. It uses the sides of the triangle to find the area. Let's take a look!
\(\ s = \frac{a+b+c}{2} \)
\(\ \text{Heron's Formula = Area} = \sqrt{s(s-a)(s-b)(s-c)} \)
Triangles are polygons having three vertices.
Using the Pythagorean theorem, the Law of Sines, and the Law of Cosines, you can find the sides and angles of the triangles.
By using the law of sine, you can easily find any side of a triangle or the missing angle of a triangle without any hurdle.
\(\frac{a}{\sin A} = \frac{b}{\sin B} = \frac{c}{\sin C}\)
If the triangle angles and the hypotenuse are given, then use the law of sines to get the side lengths of the right triangle as follows:
\(a = c \cdot \sin \alpha \quad\text{or}\quad a = c \cdot \cos \beta\)
\(b = c \cdot \sin \beta \quad\text{or}\quad b = c \cdot \cos \alpha\)
If any two sides of a right triangle are known you can easily find the third side with the help of this theorem which states:
\(a^2 + b^2 = c^2\)
If you know any of the two sides of the right triangle, simply use the Pythagorean theorem.
When side a is missing, transform the equation as:
\(a = \sqrt{c^2 - b^2}\)
To find For hypotenuse c:
\(c = \sqrt{a^2 + b^2}\)
The law of cosines states:
\( a^2 = c^2 + b^2 - 2bc \cos A, \text{ solving for } \cos A,\)
\( \cos A = \frac{b^2 + c^2 - a^2}{2bc}\)
\( b^2 = a^2 + c^2 - 2ca \cos B, \text{ solving for } \cos B,\)
\( \cos B = \frac{c^2 + a^2 - b^2}{2ca}\)
\( c^2 = b^2 + a^2 - 2ab \cos C, \text{ solving for } \cos C,\)
\( \cos C = \frac{a^2 + b^2 - c^2}{2ab}\)
If one triangle angle and one side are given:
If the triangle area and one side of the triangle are given:
\( b = \frac{2 \times \text{Area}}{a} \)
\( c = \sqrt{a^2 + (\frac{2 \times \text{Area}}{a})^2} \)
It is the radius of the inscribed circle. In general, it's the circle that can fit inside the triangle and it is perpendicular to each side of the polygon.
Use the below-mentioned formula to calculate the inradius of a triangle:
\(r = \frac{\text{Area}}{\text {semi perimeter}}\)
As the name shows it is the radius of the circumscribed circle. It is the minimum size of the circle that can fit inside the triangle.
Let's see the following formula that is used to calculate the circumradius of the triangle:
\(R = \frac{a}{2 \sin A}\)
Predict a triangle along with its terms with the following given information:
Given:
As we are given two angles and one side, let us start!
Step 1: Find the Third Angle
\( m\angle C = 180^{\circ} - A - B \)
\( m\angle C = 180^{\circ} - 60^{\circ} - 20^{\circ} \)
\( m\angle C = 100^{\circ} \)
Now converting all angles into radians as follows:
\( m\angle A = 60^{\circ} \times \frac{\pi}{180}\)
\( m\angle A = 60^{\circ} \times \frac{3.14}{180}\)
\(m\angle A = \frac{188.4}{180}\)
\(m\angle A = 1.0472 \text{ rad}\)
Similarly:
\( m\angle B = 20^{\circ} \times \frac{\pi}{180}\)
\(m\angle B = 20^{\circ} \times \frac{3.14}{180}\)
\(m\angle B = \frac{62.8}{180}\)
\(m\angle B = 0.34907 \text{ rad}\)
Likewise:
\( m\angle C = 100^{\circ} \times \frac{\pi}{180}\)
\( m\angle C = 100^{\circ} \times \frac{3.14}{180}\)
\(m\angle C = \frac{314}{180}\)
\(m\angle C = 1.74533 \text{ rad}\)
Step # 02 (How To Find The Side of A Triangle?):
As we are given only one side, we need to find the length of the triangle sides. Calculate triangle sides as follows:
\(b = \frac{a \times \sin(B)}{\sin(A)}\)
\(b = \frac{2 \times \sin(0.34907)}{\sin(1.0472)}\)
\(b = 0.78986\)
Similarly, we have:
\(c = \frac{a \times \sin(C)}{\sin(A)}\)
\(c = \frac{2 \times \sin(1.74533)}{\sin(1.0472)}\)
\(c = 2.27432\)
That's how you can find the missing side of a triangle but you can easily depict the unknown sides of the triangle with the help of the calculator.
Step 3: Calculate Area
\(A = \frac{ab \cdot \sin C}{2} = 0.77786\)
Step 4: Perimeter and Semiperimeter
\(p = a + b + c = 5.06418\)
\(s = \frac{p}{2} = 2.53209\)
Step 5: Heights
\(h_a = \frac{2A}{a} = 0.77786\)
\(h_b = \frac{2A}{b} = 1.96961\)
\(h_c = \frac{2A}{c} = 0.68404\)
Step 6: Medians
\(m_a = 1.37775, \ m_b = 2.10482, \ m_c = 1.00936\)
Step 7: Inradius
\(r = \frac{A}{s} = 0.3072\)
Step 8: Circumradius
\(R = \frac{a}{2 \sin A} = 1.1547\)
Other Languages: Výpočet Trojúhelníku, Calculer Triangle, Dreieck Rechner, Kalkulator Segitiga, Kalkulator Trójkata, Калькулятор Треугольника, Calcular Triangulo, Üçgen Hesaplama, Calculadora De Triángulos
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