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.
155
The grouping in which the numbers are taken does not affect the sum or product.
19
There are no such integers. In fact, there are no real numbers that satisfy the requirements.
The product is 1254. The sum is 79.
It is 155 greater.
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
155
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.
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.
Two numbers have a product of 80 their sum is 24?
19
The factor pairs of 3000 all have a product of 3000. None of them add up to -155.
two real numbers, whose sum is 8 and product is max, are 4,4. 4+4=8 and 4*4=16.
If the sum of 2 numbers is 25 and their product is 156, the numbers are 12 and 13.