The LCM is 2x.
There are no such integers. Proof: choose any positive whole number x two consecutive even integers: (2x) (2x+2) Take the sum (2x)+(2x+2) (2x)+(2x+2)=340 4x+2=340 4x=338 x=338/4=84.5 Since this is not a whole number, there is no whole number that satisfies the conditions. (There are two consecutive odd integers which add up to 340: 169 and 171)
no
4x2 - 16x + 12
What is the quotient of twice the number and three
The sum of any two consecutive whole numbers is always odd, and equal to one more than twice the first number (2x+1).
Take the first number. Add it to itself. Keep adding that number to the total three more times. The first five nonzero multiples of 9 are 9, 18, 27, 36, and 45. Put another way, let each number equal x. The first five nonzero multiples of x are 1x, 2x, 3x, 4x and 5x.
2x
There are no such integers. Proof: choose any positive whole number x two consecutive even integers: (2x) (2x+2) Take the sum (2x)+(2x+2) (2x)+(2x+2)=340 4x+2=340 4x=338 x=338/4=84.5 Since this is not a whole number, there is no whole number that satisfies the conditions. (There are two consecutive odd integers which add up to 340: 169 and 171)
30xy
no
4x2 - 16x + 12
5 is 56 is 2x 315 is 3 x 5then the LCM is 5 x 2 x 3 = 30
Let the unknown number be x: 8x+1 = 2x+25 8x-2x = 25-1 6x = 24 x = 4
The answer to your question is (2x + 2y)^-1 = 1/(2x + 2y)^1. When you raise a number to a negative power, you can rewrite it by dividing one by the original number with the negative sign dropped from the exponent. Because the power here is 1, you can rewrite the answer again to 1/(2x + 2y) since any number raised to the power of 1 is simply the number itself. You can't add 2x and 2y because they are two different variables.
Let the number be x 12-2x = -7 -2x = -7-12 -2x = -19 x = 9.5
What is the quotient of twice the number and three
The sum of any two consecutive whole numbers is always odd, and equal to one more than twice the first number (2x+1).