The factor pairs of 15 are (15,1)(5,3)
Neither of them add up to 11.
No integers fulfill your request.
Write a pair of number which have a sum of 11 and a product of 24?
Homework? 3 and 8.
35
-8 and -3 have a sum of -11 and product of 24
The sum of 36 plus 63 can be expressed as a product by first calculating the sum, which is 99. This can be factored and expressed as a product of its prime factors: (99 = 9 \times 11), or as (3^2 \times 11). Thus, the expression for the sum of 36 and 63 as a product is (9 \times 11).
Write a pair of number which have a sum of 11 and a product of 24?
Homework? 3 and 8.
35
19
You cannot. There are seven numbers and you cannot pair an odd number of values.
-8 and -3 have a sum of -11 and product of 24
This question doesn't make sense. The sum of 11 and 60 is 71. The product of 11 and 60 is 660.
product means multiplication sum means adding. 6 * 5 = 30 6 + 5 = 11
The sum of 12 and a product of 11 can be calculated by first finding the product of 12 and 11, which equals 132. Then, adding 12 to this product gives a sum of 144. Mathematically, this can be represented as 12 + (12 x 11) = 12 + 132 = 144.
The sum of 36 plus 63 can be expressed as a product by first calculating the sum, which is 99. This can be factored and expressed as a product of its prime factors: (99 = 9 \times 11), or as (3^2 \times 11). Thus, the expression for the sum of 36 and 63 as a product is (9 \times 11).
A diamond problem is when there's a number on the top and bottom, the number on the top is the product and the number on the bottom is the sum. You must find two numbers that both have a sum of the number on the top and a product of the number on the bottom. For example, there's a 10 on top and 11 on the bottom, the answer would be 10 and 1, because 10 times 1 equals 10, and 10 plus 1 equals 11. Another example would be, 44 on top and -15 on bottom. The answers would be -11 and -4, because -11 and -4 have a product of 44, and have a sum of -15.
Let's call the two integer numbers x and y. We know that xy = -26 and x + y = -11. By trying different combinations, we find that the numbers -13 and 2 satisfy both conditions, as -13 multiplied by 2 equals -26 and -13 plus 2 equals -11. So, the integer pair is (-13, 2).