.11 base 10 is approx (0.00011100001) base 2
It does not - unless you are counting in base 11.
The base could be 11 and the exponent 2, giving 112 But, it could equally be base = 14641, and exponent = 0.5, or base = 10, and exponent = 2.082785 (approx)
11 is 50% of 22 11 is the portion 50% is the rate 22 is the base The rate is a percent or fraction, the base is the whole unit, and the portion is a part of the base
You can choose the base to be any number (other than 0, -1 and 1) and calculate the appropriate exponent, or you can choose any exponent and calculate the appropriate base. For example, base 10: 121 = 10^2.08278537 (approx) Or exponent = 10: 121 = 1.615394266^10 (approx). I expect, though, that the answer that is required is 121 = 11^2.
11000000111001 base 2
101 in base 2 is 5 in decimal. 11 in base 2 is 3 in decimal. 5 - 3 is 2 in decimal. 2 is 10 in base 2.
1
11 = 1*8 + 1*2 + 1*1 = 1(2)3 + 1(2)1+ 1(2)0. Thus, in binary (base 2) 11 is represented as: 1011. To double check we get: 8 + 2 + 1 = 11 (base 10).
Each place value column in base 2 is twice that of the column to its right. → 11₂ = 1 × 2 + 1 = 3 in base 10.
1010 base 2 = 10 base 10 1010 base 10 = 11 1111 0010 base 2
2 plus 2 can equal 11 when you are counting in base 3. However, as it is not expressed in a decimal base, this answer would not be read "eleven" but "one one".
It does not - unless you are counting in base 11.
85839
Expressed as a sum in base 2:11 + 10 = 101
11
11
Your question, "Is there any way 2 plus 2 can equal anything but 4?" My answeris YES. If you were to use base 3 math, 2 plus 2 would then equal "11" (base 3) 2 plus 2 = 11 (base 3)