The square root of 48 is not an integer which means a whole number.
No - 48 is not the square of an integer, though 49 is.
Because when you divide 8 into 48, the result is an integer.
No, an integer is a whole number. For example, 2 is an integer but 2.25 is not. -48 is an integer but -48.5 is not.
It is any fraction of the form (48*x)/(64*x) where x is a non-zero integer or 1/x is an integer common factor of 48 and 64.
It is: 48/69 times 100 = 70% rounded to the nearest integer
48 is an integer and not a fraction. However, it can be expressed in rational form as 48/1 which cannot be simplified.
14 does not go into 48 evenly. To test whether it does, you can divide 48 by 14. If your answer is an integer (ex. 1, 2, 3, etc..) it can go into it evenly. 48/14=3.24857 Since the answer isn't an integer, 14 does not go into 48 evenly.
48 is an integer, not a fraction. There is not really a sensible way of writing it as a fraction or mixed number. However, if you must, you can use (48*k)/k where k is any non-zero integer.
Any member of the infinite set of numbers of the form 48*k where k is an integer.
48 + 58 = 106, which is an integer, not a fraction.
48 is an integer and not a fraction. However, it can be expressed in rational form as 48/1. Or, you can then calculate equivalent rational fractions if you multiply both, its numerator and denominator, by any non-zero integer. So the answer would be 48/1 ounces and 48/1 inches or equivalent fractions.
48 is an integer and not a fraction. However, it can be expressed in rational form as 48/1.
The two largest integers when multiplied together is 48 are 6 and 8. To get the single highest integer when multiplying it would be 1 and 48.
Let x = 1st integer, since consecutive even integer differs by 2 then the 2nd integer = x + 2. So we have, x + 4(x + 2) = 48 x + 4x + 8 = 48 5x = 40 x = 8 (1st integer) Thus, the integers are 8 and 10. Check.
Yes, 48 is a multiple of 6. A multiple is the result of multiplying a number by an integer. 6: 6, 12, 18, 24, 30, 36, 42, 48
48 + 168k hours, where k is an integer.
It is any fraction of the form (12*x)/(48*x) where x is a non-zero integer or where 1/x is a common factor of 12 and 48.
They are members of the infinite set of numbers of the form 48*k where k is an integer. Since the set is infinite, it is not possible to list them.