q3-q2+2q-2 = (q-1)(q2+2) = (q-1)(q+2.5i)(q-2.5i)
2
here first we looking on the given diagram and after this we select all the incoming input like in q1 all the input are q1=q2 0+ q1 1 or q2=q3 1 + q2 0 q1 is a state and when q2 sent 0 then its going to q1 so the value add into the q1 ok same in q2...
you read the q
q2
To generate twice as many recessive homozygotes as heterozygotes, the allelic frequency must be 0.5 for the recessive allele and 0.5 for the dominant allele. This is because the recessive homozygotes will be represented by the square of the frequency of the recessive allele (0.5 * 0.5 = 0.25), while heterozygotes will be represented by the product of the frequencies of the two alleles (2 * 0.5 * 0.5 = 0.5).
Factoring the left and right parts separately gives: q3 - q2 + 2q - 2 = q(q2 - 1) + 2(q - 1) = q(q + 1)(q - 1) + 2(q - 1) Now we have a common factor (q - 1) that we can take out. I'll combine the remaining terms again: (q - 1)[q(q + 1) + 2(q - 1)] = (q - 1)[q2 + q + 2q - 2] = (q - 1)(q2 + 3q - 2) The right part has no obvious factorization; but you can use the quadratic formula to get the factors, which will probably include square roots.
test for Q2
Release date(s)PlayStation 3JP - Q4 2009NA - Q2 2010PAL - Q2 2010Xbox 360NA - Q2 2010PAL - Q2 2010
cd /q2-jan14
oxide
It is not an equation, but q2 meaning q^2 represents q being multiplied by itself.
q3-q2+2q-2 = (q-1)(q2+2) = (q-1)(q+2.5i)(q-2.5i)
p2+2pq+q2=1
The question is incomplete in the sense that there is no +/- sign between q2 and 2q. Considering plus '+' sign. q3 - q2 + 2q - 2 q2(q - 1) + 2(q - 1) (q2 + 2)(q - 1) Considering minus '-' sign. q3 - q2 - 2q - 2 The expression can't be factored. However if we consider the question complete then it is written as: q3 - q2(2q) - 2 q3 - 2q3 - 2 -q3 - 2 -(q + 21/3)(q2 - 21/3 + 22/3)
2
better buy another set throw away q2+