Question

2.Show that is an irrational number, given that positive square root of 15​

Answer 1

Answer:

This proof uses the unique prime factorisation theorem that every positive integer has a unique factorisation as a product of positive prime numbers.

Suppose

√

15

=

p

q

for some

p

,

q

∈

N

. and that

p

and

q

are the smallest such positive integers.

Then

p

2

=

15

q

2

The right hand side has factors of

3

and

5

, so

p

2

must be divisible by

3

and by

5

. By the unique prime factorisation theorem,

p

must also be divisible by

3

and

5

.

So

p

=

3

⋅

5

⋅

k

=

15

k

for some

k

∈

N

.

Then we have:

15

q

2

=

p

2

=

(

15

k

)

2

=

15

⋅

(

15

k

2

)

Divide both ends by

15

to find:

q

2

=

15

k

2

So

15

=

q

2

k

2

and

√

15

=

q

k

Now

k

<

q

<

p

contradicting our assertion that

p

,

q

is the smallest pair of values such that

√

15

=

p

q

.

So our initial assertion was false and there is no such pair of integers.

Step-by-step explanation:

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