i am a sum. my addends are five different whole numbers. all my addends are greater than zero and less than eleven. all my addends are odd numbers. what am i?
ÃŒn that case you can multiply one of the addends, times the number of addends.
Suppettrand
In 1 + 2 = 31 and 2 are the addends and 3 is the sum of the two addends.
In 1 + 2 = 31 and 2 are the addends and 3 is the sum of the two addends.
i am a sum. my addends are five different whole numbers. all my addends are greater than zero and less than eleven. all my addends are odd numbers. what am i?
in the equation 3+4=7, 3 and 4 are the addends. 7 is the sum.
ÃŒn that case you can multiply one of the addends, times the number of addends.
You can do just about anything if you use 4/4 as one of your addends.
The sum of a set of addends whose sign is the same is the sum of the absolute values of the addends with the same sign as the addends.
In the sentence 3 + 3 = 6, the threes are the addends.
That's the mean (average) of all the addends.
This is possible because the order of the addends does not matter. For example, 3+8 is the same as 8+3. No matter how you list the addends, the sum will always be the same.
If all addends are the same, or very near the same, you can take one of the addends and multiply it by the number of addends that exist, and you have the sum. For example: 100 + 101 + 99 + 102 + 100 + 103 + 98 = ? In this case, all addends are close to 100, and there are 7 of them. So, you can approximate the sum by saying: 100 * 7 ...which is 700.
Suppettrand
It is a negative number. The answer is the same whether there is an odd or even number of addends.
Both words? Being syllable addends? 5 total, for both words