4/4 + 4/4 = 2 (one)
4 - (4+4)/4 = 2 (two)
(4*4)/(4+4) = 2 (three)
4*(4/(4+4)) = 2 (four)
((4+4)/4) mod 4 = 2 (five)
4 + √4 - √4 - √4 = 2 (six)
((√4)/(√4)) + ((√4)/(√4)) = 2 (seven)
4 + 4 - 4 - √4 = 2 (eight)
(√4)^4 / (4+4) = 2 (nine)
(√(4*4)) / (4+4) = 2 (ten)
Two make combinations you would take 2x1=2 combinations only
16 i think
42 combinations.
If the 6 digits can be repeated, there are 1296 different combinations. If you cannot repeat digits in the combination there are 360 different combinations. * * * * * No. That is the number of PERMUTATIONS, not COMBINATIONS. If you have 6 different digits, you can make only 15 4-digit combinations from them.
one hundred and twenty
Two make combinations you would take 2x1=2 combinations only
Four of them.
16 i think
Four.
20 different combinations of silverware
25 different combinations.
42 combinations.
18
No is a word. On is a word.
Their is 25 combinations
10
If the 6 digits can be repeated, there are 1296 different combinations. If you cannot repeat digits in the combination there are 360 different combinations. * * * * * No. That is the number of PERMUTATIONS, not COMBINATIONS. If you have 6 different digits, you can make only 15 4-digit combinations from them.