No, 300/2 = 150, which is a rational number.
It's also the ratio of two whole numbers, and that's
exactly the definition of a rational number.
No because it doesn't have decimals and does repeat
Yes
The product of two irrational numbers may be rational or irrational. For example, sqrt(2) is irrational, and sqrt(2)*sqrt(2) = 2, a rational number. On the other hand, (2^(1/4)) * (2^(1/4)) = 2^(1/2) = sqrt(2), so here two irrational numbers multiply to give an irrational number.
Rational number can be divided into more that the number 2. Irrational number are numbers that can only be divided evenly with the number 2.
2 is a prime number and its square root is an irrational number that cannot be expressed as a fraction
2 times pi is not an integer. Since Pi is an irrational number, 2 pi is also an irrational number.
No. 81 is a rational number. An irrational number is a number with an endless amount of digits like pi or the square root of 2.
300 = 2 x 2 x 3 x 5 x5 and sqrt(2) is irrational then sqrt(300) is irrational
The result would be an irrational number
If you multiply or divide an irrational number - such as pi - by ANY rational number (except zero), you will ALWAYS get an irrational number.
Rational
Sometimes. eg the irrational number √2 squared is 2 which is rational (2 = 2/1) eg the irrational number √(√2) squared is √2 which is irrational.
The product of two irrational numbers may be rational or irrational. For example, sqrt(2) is irrational, and sqrt(2)*sqrt(2) = 2, a rational number. On the other hand, (2^(1/4)) * (2^(1/4)) = 2^(1/2) = sqrt(2), so here two irrational numbers multiply to give an irrational number.
It is equal to 21/2 which is a rational number
It is irrational because when you divide 2 by 8 you get a terminating decimal,0.205.
No.3*sqrt(2) and sqrt(2) are irrational. But their quotient is 3, which is rational.
The square root of 2 is irrational, yet the product of it with itself is 2. So the answer is no.
-- 4 pi -- (pi)2 -- e3 -- square root of 300
No, it is not even a real number. It is an imaginary number.