show that (2+√5)*2 is not a rational number
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√5 is not rational so 2*√5 isn't and so 4 + 2*√5 isn't
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⇒ Square root of 5 is rational, it can be written as the ratio of two numbers as shown below:
√5 =
⇒ Our next step is to square both sides of the equation
√5 =
⇒ Multiply both sides by y²
√5 = × y²
We get 5 × y² = x²
⇒ Since 5 × y² is equal to x², 5 × y² and x² must have the same number of prime factors
We just showed
x² has an even number of prime factors
y² has also an even number of prime factors
5 × y² will then have an odd number of prime factors.
⇒ The number 5 counts as 1 prime factor, so 1 + an even number of prime factors is an odd numberof prime factors
⇒5 × y² is the same number as x². However, 5 × y² gives an odd number of prime factor while x² gives an even number of prime factors
⇒ This is a contradiction since a number cannot have an odd number of prime factors and an even number of prime factors at the same time
⇒ The assumption that square root of 5 is rational is wrong. Therefore, square of 5 is irrational.
⇒ Since 5 is irrational the statement (2+√5) × 2 is irrational.
⇒A square root of a number is a value that can be multiplied by itself to give the original number. To solve the problem (2+√5) × 2 we have to see is √5 is an irrational number. To prove that square root of 5 is irrational, we will use a proof by contradiction. In mathematics a contradiction is a statement that goes against an assumption.
⇒ Square root of 5 is rational, it can be written as the ratio of two numbers as shown below:
√5 =
⇒ Our next step is to square both sides of the equation
√5 =
⇒ Multiply both sides by y²
√5 = × y²
We get 5 × y² = x²
⇒ Since 5 × y² is equal to x², 5 × y² and x² must have the same number of prime factors
We just showed
x² has an even number of prime factors
y² has also an even number of prime factors
5 × y² will then have an odd number of prime factors.
⇒ The number 5 counts as 1 prime factor, so 1 + an even number of prime factors is an odd numberof prime factors
⇒5 × y² is the same number as x². However, 5 × y² gives an odd number of prime factor while x² gives an even number of prime factors
⇒ This is a contradiction since a number cannot have an odd number of prime factors and an even number of prime factors at the same time
⇒ The assumption that square root of 5 is rational is wrong. Therefore, square of 5 is irrational.
⇒ Since 5 is irrational the statement (2+√5) × 2 is irrational.
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