2 and 4
One-half mile.
In theory, 3 bits are enough to represent up to 8 (23) combinations.In theory, 3 bits are enough to represent up to 8 (23) combinations.In theory, 3 bits are enough to represent up to 8 (23) combinations.In theory, 3 bits are enough to represent up to 8 (23) combinations.
6 bits 111110 = 32 + 16 + 8 + 4 + 2 + 0
VIII
-4
You could represent it as 4/8.
1101
Answer = 0 + 2 + 4 + 8 = 14
3/4, 0.75, 6/8
Subtracting 4 from 12 will equal 8, but it is also subtracting 1/3 of 12.
3/8 + 1/2In order to figure this out we need to get each fraction to have the same denominator. The easiest way to do this is to represent 1/2 as 4/8.3/8 + 4/8Once we have done this, we can simply add the numberators:3/8 + 4/8 = (3+4)/8 = 7/8
One-half mile.
It represent eighty thousand.
In theory, 3 bits are enough to represent up to 8 (23) combinations.In theory, 3 bits are enough to represent up to 8 (23) combinations.In theory, 3 bits are enough to represent up to 8 (23) combinations.In theory, 3 bits are enough to represent up to 8 (23) combinations.
It appears to be (8, 0) when plotted out on the Cartesian plane
Here is that set. (1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12) Choose whatever doesn't represent that.
It could represent the area of an 8 feet by 8 feet square or the area of a 4 feet by 16 feet rectangle amongst other possibilities.