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Trigonometry - OCRTrigonometric ratios

The three trigonometric ratios; sine, cosine and tangent are used to calculate angles and lengths in right-angled triangles. The sine and cosine rules calculate lengths and angles in any triangle.

Part of MathsGeometry and measure

Trigonometric ratios

Trigonometry involves calculating angles and sides in triangles.

Labelling the sides

The three sides of a right-angled triangle have special names.

The hypotenuse (\(h\)) is the longest side. It is opposite the right angle.

The opposite side (\(o\)) is opposite the angle in question (\(x\)).

The adjacent side (\(a\)) is next to the angle in question (\(x\)).

Pythagorus triangle with Hypotenuse (h), Adjacent (a), Opposite (o) and angle (x degrees)

Three trigonometric ratios

Trigonometry involves three ratios - sine, cosine and tangent which are abbreviated to \(\sin\), \(\cos\) and \(\tan\).

The three ratios are calculated by calculating the ratio of two sides of a right-angled triangle.

  • \(\sin{x} = \frac{\text{opposite}}{\text{hypotenuse}}\)
  • \(\cos{x} = \frac{\text{adjacent}}{\text{hypotenuse}}\)
  • \(\tan{x} = \frac{\text{opposite}}{\text{adjacent}}\)

A useful way to remember these is:

\(s^o_h~c^a_h~t^o_a\)

Exact trigonometric ratios for 0掳, 30掳, 45掳, 60掳 and 90掳

The trigonometric ratios for the angles 30掳, 45掳 and 60掳 can be found using two special triangles.

An equilateral triangle with side lengths of 2 cm can be used to find exact values for the trigonometric ratios of 30掳 and 60掳.

An equilateral triangle with equal sides of 2 cm shown split into two right-angled triangles with 60 degree angles.

The equilateral triangle can be split into two right-angled triangles.

An equilateral triangle with equal sides of 2 cm shown split into two right-angled triangles with 60 and 30 degree angles.

Using either of these right-angled triangles, Pythagoras can be used to find the third side of the right-angled triangle.

A right-angled triangle with side lengths of 2 cm and 1 cm. The third side is shown as Root(22 鈥 12) = root3 cm.

A right-angled isosceles triangle with two sides of length 1 cm can be used to find exact values for the trigonometric ratios of 45掳.

A right-angled isosceles triangle with two sides of length 1 cm and two angles of 45 degrees. Pythagoras theorem can be used to calculate the missing length.

Calculate the length of the third side of the triangle using Pythagoras' theorem.

A right-angled isosceles  triangle with side lengths of 1 cm. The third side is shown as Root(12 +12) = root2 cm.

The exact trigonometric ratios for 0掳, 30掳, 45掳, 60掳 and 90掳 are:

\(0^\circ\)\(30^\circ\)\(45^\circ\)\(60^\circ\)\(90^\circ\)
\(\sin{x}\)\(0\)\(\frac{1}{2}\)\(\frac{1}{\sqrt{2}}~\text{or}~\frac{\sqrt{2}}{2}\)\(\frac{\sqrt{3}}{2}\)\(1\)
\(\cos{x}\)\(1\)\(\frac{\sqrt{3}}{2}\)\(\frac{1}{\sqrt{2}}~\text{or}~\frac{\sqrt{2}}{2}\)\(\frac{1}{2}\)\(0\)
\(\tan{x}\)\(0\)\(\frac{1}{\sqrt{3}}~\text{or}~\frac{\sqrt{3}}{3}\)\(1\)\(\sqrt{3}\)\(\text{Undefined}\)
\(\sin{x}\)
\(0^\circ\)\(0\)
\(30^\circ\)\(\frac{1}{2}\)
\(45^\circ\)\(\frac{1}{\sqrt{2}}~\text{or}~\frac{\sqrt{2}}{2}\)
\(60^\circ\)\(\frac{\sqrt{3}}{2}\)
\(90^\circ\)\(1\)
\(\cos{x}\)
\(0^\circ\)\(1\)
\(30^\circ\)\(\frac{\sqrt{3}}{2}\)
\(45^\circ\)\(\frac{1}{\sqrt{2}}~\text{or}~\frac{\sqrt{2}}{2}\)
\(60^\circ\)\(\frac{1}{2}\)
\(90^\circ\)\(0\)
\(\tan{x}\)
\(0^\circ\)\(0\)
\(30^\circ\)\(\frac{1}{\sqrt{3}}~\text{or}~\frac{\sqrt{3}}{3}\)
\(45^\circ\)\(1\)
\(60^\circ\)\(\sqrt{3}\)
\(90^\circ\)\(\text{Undefined}\)

\(\tan{90}\) is undefined because \(\tan{90} = \frac{1}{0}\) and division by zero is undefined (a calculator will give an error message).