Advertisements
Advertisements
Question
if `x = 2 + sqrt3`,find the value of `x^2 + 1/x^2`
Solution
We know that `x^3 + 1/x^3 = (x + 1/x)(x^2 - 1 + 1/x^2)`. We have to find the value of `x^3 + 1/x^3`
As x = `2 + sqrt3` therefore
`1/x = 1/(2 + sqrt3)`
We know that rationalization factor for `2 + sqrt3` is `2 - sqrt3`. We will multiply numerator and denominator of the given expression `1/2 + sqrt3` by `2 - sqrt3` to get
`1/x = 1/(2 + sqrt3) xx (2 - sqrt3)/(2 - sqrt3)`
`= (2 - sqrt3)/((2)^2 - (sqrt3)^2)`
`= (2 - sqrt3)/(4 - 3)`
`= 2 - sqrt3`
Putting the value of x and 1/x we get
`x^3 + 1/x^3= (2 + sqrt3 + 2 - sqrt3)((2 + sqrt3)^2 - 1+ (2 - sqrt3)^2)`
= `4(2^2 + (sqrt3))^2 + 2 xx 2 xx sqrt3 - 1 + 2^2 + (sqrt3)^2 - 2 xx 2 xx sqrt3)`
`= 4(4 + 3 + 4sqrt3 - 1 + 4 + 3 - 4sqrt3)`
= 52
Hence the value of the given expression 52.
APPEARS IN
RELATED QUESTIONS
Recall, π is defined as the ratio of the circumference (say c) of a circle to its diameter (say d). That is, π = `c/d`. This seems to contradict the fact that π is irrational. How will you resolve this contradiction?
Simplify the following expressions:
`(4 + sqrt7)(3 + sqrt2)`
Simplify the following expressions:
`(sqrt8 - sqrt2)(sqrt8 + sqrt2)`
Find the value to three places of decimals of the following. It is given that
`sqrt2 = 1.414`, `sqrt3 = 1.732`, `sqrt5 = 2.236` and `sqrt10 = 3.162`
`(sqrt10 + sqrt15)/sqrt2`
`
Find the value of `6/(sqrt5 - sqrt3)` it being given that `sqrt3 = 1.732` and `sqrt5 = 2.236`
Write the value of \[\left( 2 + \sqrt{3} \right) \left( 2 - \sqrt{3} \right) .\]
Write the reciprocal of \[5 + \sqrt{2}\].
If x= \[\sqrt{2} - 1\], then write the value of \[\frac{1}{x} . \]
Simplify the following:
`(sqrt(3) - sqrt(2))^2`
Simplify:
`64^(-1/3)[64^(1/3) - 64^(2/3)]`
