They are: -3 and 4
As a product of its prime factors in exponents: 23*52 = 200
Two numbers are factors of a product when they multiply with each other to become the product. For example, if the product number is 10, then our factors can be 2 and 5, or 1 and 10.
The product is the answer you get when you multiply two numbers. The two numbers are called factors. The number the factors make when you multiply them is called the product
xy = 112 x/y = 7 x = 7y 7y^2 = 112 y^2 = 112/7 = 16 y = 4 x = 28
give an example of two fractions whose product equals 1
40 and 60
They are: -3 and 4
4.5 - 9.579i and 4.5 + 9.579i where i is the imaginary number which is the square root of -1
As a product of its prime factors in exponents: 23*52 = 200
Two numbers are factors of a product when they multiply with each other to become the product. For example, if the product number is 10, then our factors can be 2 and 5, or 1 and 10.
The same way that factoring a number is different from multiplying two factors. In general, it is much easier to multiply two factors together, than to find factors that give a certain product.
There cannot be a common factor of just one number. To be common there need to be at least two numbers.
The product is the answer you get when you multiply two numbers. The two numbers are called factors. The number the factors make when you multiply them is called the product
xy = 112 x/y = 7 x = 7y 7y^2 = 112 y^2 = 112/7 = 16 y = 4 x = 28
Two numbers differing by 9 whose product is 112? 7 & 16 (x + 7)(x - 16)
a composite number seems a reasonable answer.