The product of a whole number and another whole number is a whole number.
Yes,0,1,2,3..... Are whole numbers
No. 7 is a whole number and 54 is a whole number but 7 is not "a whole number for" any number.
Remember that a whole number has nothing to the right of the decimal point. .09 is not big enough to round the 8 that is in the ones place up to a 9, so 448.09 is rounded down to 448.
0 is a whole, integer, and rational number. O is whole number because a whole number is every positive number
0.333... repeating = 1/3It can't be a mixed number. A mixed number is a whole number plus a fraction.There's isn't enough to 1/3 to make a whole number.
2/33 can't be a mixed number. A mixed number is a whole number plus a fraction. There's not enough to 2/33 to make any whole number.
There are an infinite number of them and there are not enough electrons in the whole universe to list them all.
The product of a whole number with a whole number is a whole number. A whole number is an integer ( a counting number).
A mixed number is a whole number plus a fraction, so it has to be more than ' 1 '.0.03 is a little bit less than ' 1 ', so there's not enough there to make a whole number,and way too little to make a mixed number.
The product of a whole number and another whole number is a whole number.
Yes, slope can be written as a whole number instead of a fraction if the slope is a whole number. In slope-intercept form (y = mx + b), the slope (m) represents the rate of change between two variables. If the slope is a whole number, it can be written as a whole number without the need for a fraction. For example, a slope of 3 would be written as "3" rather than "3/1."
The answer can be another fraction and a whole number or it can be a whole number.
Yes,0,1,2,3..... Are whole numbers
The multiples of a number are the whole-number products when that number is a factor. Thus, 61x1 61x2 61x3 61x4 61x5 . . . I think that's enough to make it clear
No. 7 is a whole number and 54 is a whole number but 7 is not "a whole number for" any number.
A product of a given whole number and another whole number = whole numbers