There are no real numbers with the sum of 4 and a product of -477. The factors of -477 are (1,-477), (3, -159) and (9, -53). The negatives can be switched to the other numbers in those pairs of factors.
169
Associative
You can't have the sum of one thing. Factors multiply to get a product. 7 x 9 = 63. If you add those two numbers, you will get a sum. 7 + 9 = 16
1 x 2 x 3 x 4 x 5 x 6 = 720 When they are multiplied they produce a product, not a sum. Addition produces a sum.
(5 x 6) + (9 x 6) = 14 x 6 = 84
find two positive numbers whose product is a maximum. 1.) the sum is s.
5+5 = 10 (Sum is ten)5*5 = 25 (Product is 25)*this product is maximum for all any 2 real numbers that == 10
The grouping in which the numbers are taken does not affect the sum or product.
No - the product of numbers is the answer to a multiplication sum, while the sum of numbers is the answer to an addition sum.
19
Two numbers have a product of 80 their sum is 24?
two real numbers, whose sum is 8 and product is max, are 4,4. 4+4=8 and 4*4=16.
This is mathematically impossible. The highest product that you can get with two numbers that make thirteen is 42 (7*6). The lowest sum you can get for two numbers with a product of 155 is 36 (31 and 5). All in all, it's impossible.
If the sum of 2 numbers is 25 and their product is 156, the numbers are 12 and 13.
the product of 3 whole numbers is 5. Their sum is 7. what are the numbers
1/x + 1/y = (y+x)/xy But y + x = sum = 150, and xy = product = 40 So sum of reciprocals = 150/40 = 3.75
There are no such integers. In fact, there are no real numbers that satisfy the requirements.