Let one of the numbers be x and other be y.
According to question: xy = -3
Put any value of x then value of y = -3/x. Let us say x = 1 then y = -3/1 = -3.
And if x = 3 then y = -3/3 = -1.
So for any value of x(except 0) we get a value of y.
So there are infinitely many solutions of the given equation.
To find two numbers that multiply to 93, we need to factorize 93. The prime factorization of 93 is 3 x 31. Therefore, the two numbers that multiply to 93 are 3 and 31.
3 and 153
3 and 25
The numbers are 3 and -12
The numbers are 3 and 4
Two numbers you could multiply to get 213 are 71 and 3.
To find two numbers that multiply to 93, we need to factorize 93. The prime factorization of 93 is 3 x 31. Therefore, the two numbers that multiply to 93 are 3 and 31.
There are no two real numbers that do. Using complex numbers, these two do: (-3/2 + i√151/2) & (-3/2 - i√151/2) Two numbers that add to -3 and multiply to -40 are -8 & 5 Two numbers that add to 3 and multiply to -40 are 8 & -5 Two complex numbers that add to 3 and multiply to 40 are (3/2 + i√151/2) & (3/2 - i√151/2)
Multiply the two numbers, then take the square root. For the geometric mean of 3 numbers, multiply all numbers, and take the cubic root, etc.Multiply the two numbers, then take the square root. For the geometric mean of 3 numbers, multiply all numbers, and take the cubic root, etc.Multiply the two numbers, then take the square root. For the geometric mean of 3 numbers, multiply all numbers, and take the cubic root, etc.Multiply the two numbers, then take the square root. For the geometric mean of 3 numbers, multiply all numbers, and take the cubic root, etc.
Multiply to do 39 and + - to 1
3 and 153
3 and 25
13 and 3
1 and 9 3 and 3
The numbers are 3 and -12
When you multiply two numbers, you get the product
-1