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There is no single word to describe what happens. A two-word phrase is "arithmetic sequence".

Q: What word means found by adding the same number to the previous term?

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It means the numbers you use when you count things. They are the positive integers, beginning with ' 1 ', and finding each number on the list by adding 1 to the previous number.

There is really no such thing as a "greatest common denominator". Once you find the least common denominator of a set of numbers, you can keep adding the LCD to itself over and over again. Each new number you get will be a common denominator of your set of numbers, but each new number will always be larger than the previous. This means that you can keep adding while the number approaches infinity and you will still never find a greatest denominator.There is really no such thing as a "greatest common denominator". Once you find the least common denominator of a set of numbers, you can keep adding the LCD to itself over and over again. Each new number you get will be a common denominator of your set of numbers, but each new number will always be larger than the previous. This means that you can keep adding while the number approaches infinity and you will still never find a greatest denominator.There is really no such thing as a "greatest common denominator". Once you find the least common denominator of a set of numbers, you can keep adding the LCD to itself over and over again. Each new number you get will be a common denominator of your set of numbers, but each new number will always be larger than the previous. This means that you can keep adding while the number approaches infinity and you will still never find a greatest denominator.There is really no such thing as a "greatest common denominator". Once you find the least common denominator of a set of numbers, you can keep adding the LCD to itself over and over again. Each new number you get will be a common denominator of your set of numbers, but each new number will always be larger than the previous. This means that you can keep adding while the number approaches infinity and you will still never find a greatest denominator.

There is really no such thing as a largest multiple. Once you find the least common multiple of a set of numbers, you can keep adding the LCM to itself over and over again. Each new number you get will be a common multiple of your set of numbers, but each new number will always be larger than the previous. This means that you can keep adding while the number approaches infinity and you will still never find a greatest multiple.

There is really no such thing as a "greatest common multiple". Once you find the least common multiple (LCM) of a set of numbers, you can keep adding the LCM to itself over and over again. Each new number you get will be a common multiple of your set of numbers, but each new number will always be larger than the previous. This means that you can keep adding while the number approaches infinity and you will still never find a greatest multiple.

There is really no such thing as a "highest common multiple". Once you find the least common multiple of a set of numbers, you can keep adding the LCM to itself over and over again. Each new number you get will be a common multiple of your set of numbers, but each new number will always be larger than the previous. This means that you can keep adding while the number approaches infinity and you will still never find a highest multiple.

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It means the numbers you use when you count things. They are the positive integers, beginning with ' 1 ', and finding each number on the list by adding 1 to the previous number.

it means adding that much more value to the original number

There is really no such thing as a "greatest common denominator". Once you find the least common denominator of a set of numbers, you can keep adding the LCD to itself over and over again. Each new number you get will be a common denominator of your set of numbers, but each new number will always be larger than the previous. This means that you can keep adding while the number approaches infinity and you will still never find a greatest denominator.There is really no such thing as a "greatest common denominator". Once you find the least common denominator of a set of numbers, you can keep adding the LCD to itself over and over again. Each new number you get will be a common denominator of your set of numbers, but each new number will always be larger than the previous. This means that you can keep adding while the number approaches infinity and you will still never find a greatest denominator.There is really no such thing as a "greatest common denominator". Once you find the least common denominator of a set of numbers, you can keep adding the LCD to itself over and over again. Each new number you get will be a common denominator of your set of numbers, but each new number will always be larger than the previous. This means that you can keep adding while the number approaches infinity and you will still never find a greatest denominator.There is really no such thing as a "greatest common denominator". Once you find the least common denominator of a set of numbers, you can keep adding the LCD to itself over and over again. Each new number you get will be a common denominator of your set of numbers, but each new number will always be larger than the previous. This means that you can keep adding while the number approaches infinity and you will still never find a greatest denominator.

Each number describes the previous one: 10 means there is "one zero" in the previous number; 1110 means that in the previous number there is "one one, followed by one zero", etc.

There is no such number. Once you find the least common multiple of a set of numbers, you can keep adding the LCM to itself over and over again. Each new number you get will be a common multiple of your set of numbers, but each new number will always be higher than the previous. This means that you can keep adding while the number approaches infinity and you will still never find a highestmultiple.

It means you are taking one number or item and adding it to another item or number.

If you have 1 and 1, that means it is two. To add a number, count up the number you have from the original number you are adding to.

There is no such thing as a "greatest common multiple". Once you find the least common multiple of a set of numbers, you can keep adding the LCM to itself over and over again. Each new number you get will be a common multiple of your set of numbers, but each new number will always be larger than the previous. This means that you can keep adding while the number approaches infinity and you will still never find a greatest multiple.

There is really no such thing as a largest multiple. Once you find the least common multiple of a set of numbers, you can keep adding the LCM to itself over and over again. Each new number you get will be a common multiple of your set of numbers, but each new number will always be larger than the previous. This means that you can keep adding while the number approaches infinity and you will still never find a greatest multiple.

It means that each number in the sequence is formed from the previous number by adding d to it. So, 1, 1+d, 1+2d, 1+3d, etc or 4, 4+d, 4+2d, 4+3d, etc

There is really so such thing as a "highest common multiple." Once you find the least common multiple of a set of numbers, you can keep adding the LCM to itself over and over again. Each new number you get will be a common multiple of your set of numbers, but each new number will always be larger than the previous. This means that you can keep adding while the number approaches infinity and you will still never find a highest multiple.

There is really so such thing as a "greatest common multiple." Once you find the least common multiple of a set of numbers, you can keep adding the LCM to itself over and over again. Each new number you get will be a common multiple of your set of numbers, but each new number will always be larger than the previous. This means that you can keep adding while the number approaches infinity and you will still never find a greatest multiple.