Wiki User
∙ 7y agoIt is: 32
Wiki User
∙ 7y agoMultiple
Polynomial
No, the result of a division of one whole number into another might be a whole number, but could also be a fraction.
Numbers whose product is one is called multiplicative inverses.
There can be infinite ways you can do it. One could be: 2.89701928365892894658902395649829012393475602668936689384920938578 94387668937894872904893894278947866890298476....... and so on! The "straight in the middle" one is 2.5 or 2.50 or 2.50000000000000000000000000000000000000000000000000000000000000...
If zero is counted as a whole number, then the first three whole numbers are zero, one and two and the product of ANY series containing zero is ZERO. If, on the other hand, only non-zero numbers are considered, then the series is one, two and three and the product is six.
no
a multiplicand
Yes, it certainly could.
For the product to be zero, one of the numbers must be 0. So the question is to find the maximum sum for fifteen consecutive whole numbers, INCLUDING 0. This is clearly achived by the numbers 0 to 14 (inclusive), whose sum is 105.
Integers are whole numbers such as: ..., -3, -2, -1, 0, 1, 2, 3, ... Counting numbers are whole numbers such as: 1, 2, 3, 4, ... So the product can be a whole positive number or zero. Example: (-2)(-3)= 6 (-2)(0) = 0
12 7x5 = 35 7+5 = 12
10, -9 sum is 1 product is -90. any two numbers one positive one negative, positive has to be larger
1,2,3,4,5,6,7,8,9
No. One half is positive but not whole.
Every composite number ... that is, one that is not a prime ... can be written as the product of two or more prime numbers. The primes themselves are the exceptions. A prime number is the product of only ' 1 ' and itself, and ' 1 ' is not considered a prime number.
If the product of 2 numbers is one, than those 2 numbers are recipricals