4, if you multiply them.
20 of them
To find the pairs of whole numbers that multiply to equal 40, we can identify the factor pairs of 40. The pairs are (1, 40), (2, 20), (4, 10), and (5, 8). Including the reverse pairs, there are a total of 8 pairs: (1, 40), (40, 1), (2, 20), (20, 2), (4, 10), (10, 4), (5, 8), and (8, 5). Thus, there are 8 pairs of whole numbers that equal 40.
An infinite amount if you add, subtract or divide them. 3 pairs if you multiply them.
2,000,000,000,000
100
20 of them
To find the pairs of whole numbers that multiply to equal 40, we can identify the factor pairs of 40. The pairs are (1, 40), (2, 20), (4, 10), and (5, 8). Including the reverse pairs, there are a total of 8 pairs: (1, 40), (40, 1), (2, 20), (20, 2), (4, 10), (10, 4), (5, 8), and (8, 5). Thus, there are 8 pairs of whole numbers that equal 40.
An infinite amount if you add, subtract or divide them. 3 pairs if you multiply them.
2,000,000,000,000
100
51
The prime factors of 333 are 3,3 and 37 Thus the pairs of whole numbers that go into 333 are: 1 and 333 3 and 111 9 and 37 There are 3 pairs.
One. 997 and 2
To find the pairs of whole numbers that multiply to give 99, we need to determine its factors. The factors of 99 are 1, 3, 9, 11, 33, and 99. The pairs of whole numbers that multiply to 99 are (1, 99), (3, 33), and (9, 11), resulting in a total of 3 distinct pairs.
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An infinite number.
Eight has two factor pairs. Including their negative counterparts, that makes four pairs.