8x2=16. 16x1=16. 32 divided by 2=16 and more
An infinite number of combinations of fractions can be aded together to equal three fourths.
16 = 4 squared = 2 times 8 = or just... 16! Funny?
If you have n objects and you are choosing r of them, then there are nCr combinations. This is equal to n!/( r! * (n-r)! ).
2 to the power 16.
16 time 1 equals 16 16 times 2 equal 32 16 times 3 equal 48 16 times 4 equal 64 16 times 5 equal 80 16 times 6 equal 96 16 times 7 equal 112 16 times 8 equal 128 16 times 9 equal 144 16 times 10 equal 160
4 bits. 24 = 16, so you have 16 different combinations.4 bits. 24 = 16, so you have 16 different combinations.4 bits. 24 = 16, so you have 16 different combinations.4 bits. 24 = 16, so you have 16 different combinations.
An infinite number of combinations of fractions can be aded together to equal three fourths.
16
There are 16C4 = 16*15*14*13/(4*3*2*1) = 1820 combinations.
16 = 4 squared = 2 times 8 = or just... 16! Funny?
121
If you have n objects and you are choosing r of them, then there are nCr combinations. This is equal to n!/( r! * (n-r)! ).
2 to the power 16.
2^n possible combinations
16 time 1 equals 16 16 times 2 equal 32 16 times 3 equal 48 16 times 4 equal 64 16 times 5 equal 80 16 times 6 equal 96 16 times 7 equal 112 16 times 8 equal 128 16 times 9 equal 144 16 times 10 equal 160
16
double 16