Dna is a part of the cell.
its found in both animal and plant cells, but seem to be larger in plant cells :D
a perfect square is any integer times it self for example:3 x 3= 9, so 9 is a perfect squareIf you do not have a calculator with 'square root' function or an xy key then you will have to do it by the process of guessing and elimination.To find if a number (N) is a perfect square:Divide the (N) by a number (D) that is reasonabe.If the result is larger than (N) then try a larger (D).If the result of N/D is smaller than (D), choose a smaller (D).Continue until you have narrowed (D) down to an integer that is the square root of (N) or come to the conclusion that (N) is not a perfect square - (D-1)2 is smaller than (N) and D2) is largerTo find if a number (N) is a perfect cube:Do as above but divide the result of N/D by D again - Do N/D2 and compare that result to D
With the same load current the AA will last longer that the AAA. This is due to the physical size of the cells. A C cell will last longer that a AA and a D cell will last longer that a C cell. In dry cells as the cells get larger the amp/hours increase.
n a single-celled organism , the cell gets larger and divides, making other organisms.
Eukaryotic cells are generally larger.
To determine how many doublings it takes to reach 47 trillion cells, we can use the formula for exponential growth due to doubling: ( N = N_0 \times 2^d ), where ( N ) is the final number of cells, ( N_0 ) is the initial number of cells, and ( d ) is the number of doublings. Assuming we start with 1 cell, we set up the equation ( 47 \times 10^{12} = 1 \times 2^d ). Solving for ( d ), we find ( d = \log_2(47 \times 10^{12}) ), which is approximately 45.5. Therefore, it takes about 46 doublings to reach at least 47 trillion cells.
It Is Larger!!
printf ("square of %d is %d\n", $n, $n*$n);
how cells are organized into larger and larger groups to help living things survive
Suppose the number is n/d. Then n/d >= d => n <= d2 if d < 0 or n >= d2 if d > 0.
E N G L A N D
bacteria