(uint)Convert.ToInt32(elements) << 24;
The << is the left shift operator.
Given that the number is a binary number, it will shift all the bits the specified amount to the left.
If we have
This will take the number 2 in binary (00000010) and shift it to the left one bit. This gives you 4 (000000100).
Note that once you get to the very left, the bits are discarded. So assuming you are working with an 8 bit sized integer (I know c# uint like you have in your example is 32 bits - I dont want to have to type out a 32 bit digit, so just assume we are on 8 bits)
will return 254 (11111110).
Being very careful of the overflows mentioned before, bit shifting is a very fast way to multiply or divide by 2. In a highly optimised environment (such as games) this is a very useful way to perform arithmetic very fast.
However, in your example, it is taking only the right most 8 bits of the number making them the left most 8 bits (multiplying it by 16,777,216) . Why you would want do this, I could only guess.
As Mongus Pong said, shifts are usually used to multiply and divide very fast. (And can cause weird problems due to overflow).
I'm going to go out on a limb and trying to guess what your code is doing.
If elements is a byte element(that is to say, it contains only 8 bits), then this code will result in straight-forward multiplication by 2^24. Otherwise, it will drop the 24 high-order bits and multiply by 2^24.