Here you will learn formula to find the length of conjugate axis and transverse axis of hyperbola with examples.
Letโs begin โ
Conjugate and Transverse Axis of Hyperbola
(i) For the hyperbola \(x^2\over a^2\) โ \(y^2\over b^2\) = 1
The length of the transverse axis = 2a
And the length of the conjugate axis = 2b
(ii) For the conjugate hyperbola -\(x^2\over a^2\) + \(y^2\over b^2\) = 1
The length of the transverse axis = 2b
And the length of the conjugate axis = 2a
Also Read : Equation of the Hyperbola | Graph of a Hyperbola
Example : For the given hyperbola, find the length of conjugate axis and transverse axis.
(i)ย \(16x^2 โ 9y^2\) = 144
(ii)ย \(9x^2 โ 16y^2 โ 18x + 32y โ 151\) = 0
Solution :
(i)ย We have,
\(16x^2 โ 9y^2\) = 144 \(\implies\) \(x^2\over 9\) โ \(y^2\over 16\) = 1,
This is of the form \(x^2\over a^2\) โ \(y^2\over b^2\) = 1
where \(a^2\) = 9 and \(b^2\) = 16 i.e. a = 3 and b = 4
Length of the transverse axis = 2a = 6
And the length of the conjugate axis = 2b = 8
(ii) We have,
\(9x^2 โ 16y^2 โ 18x + 32y โ 151\) = 0
\(\implies\) \(9(x^2 โ 2x)\) โ \(16(y^2 โ 2y)\) = 151
\(\implies\)ย \(9(x^2 โ 2x + 1)\) โ \(16(y^2 โ 2y + 1)\) = 144
\(\implies\)ย \(9(x โ 1)^2\) โ \(16(y โ 1)^2\) = 144
\(\implies\)ย \((x โ 1)^2\over 16\) โ \((y โ 1)^2\over 9\) = 1
Here, a = 4 and b = 3
Length of the transverse axis = 2a = 8
And the length of the conjugate axis = 2b = 6
