(99)/(99) +9.
It is five.
Ninety nine divided by nine equals eleven
To make 11 using three 9s, you can use the following mathematical expression: ( 9 + \frac{9}{9} ). Here, ( \frac{9}{9} ) equals 1, so the equation simplifies to ( 9 + 1 = 10 ). However, since this equals 10, we can actually use the expression ( 9 + 9/9 = 11 ) as a correct approach.
9 + (9/9) = 10
9s + 7 = -11 9s = -18 s = -18/9 s = -2
It is five.
9.99999999
Ninety nine divided by nine equals eleven
To get 100 using five 9s, you can use the following mathematical expression: (99 + 9/9) = 100 This equation involves adding 99 to the result of 9 divided by 9, which equals 1. This gives you a total of 100 using five 9s.
I'm not quite sure if this is what you mean but: 9/9=1 9+1=10 9/9=1 10*1=10 The whole thing: (9/9)*(9+(9/9))=10
To make 11 using three 9s, you can use the following mathematical expression: ( 9 + \frac{9}{9} ). Here, ( \frac{9}{9} ) equals 1, so the equation simplifies to ( 9 + 1 = 10 ). However, since this equals 10, we can actually use the expression ( 9 + 9/9 = 11 ) as a correct approach.
The GCF of 9s and 63s^3 is 9s.
999 + (999/999) = 1000
9 + (9/9) = 10
You could have one No. 9 or a handful of No. 9s
Yes, there are an infinite number of posibilities. Staying only with positive odd numbers, if duplicates are allowed, then five 9s and five 11s make 100. If duplicates are disallowed, then 1 + 3 + 5 + 7 + 9 + 11 + 13 + 15 + 17 + 19 = 100
9s + 7 = -11 9s = -18 s = -18/9 s = -2