<h2>Answer: This Look's Hard But I will Try And Help You If These Answer's I Write Is Right! :o</h2><h2></h2><h2>Explanation: 1st. Complete the following table based on the observations you made during the lab, Experiment Observations Cold water.</h2><h2>2. Materials: 2 liter (untinted) plastic pop bottle with lid, book of matches, 250 ml beaker (or larger), hot water, ice water.</h2><h2>3rd. Give two examples of condensation nuclei: salt, smoke, bacteria. Materials: Untinted 2 liter plastic bottle, matches, beaker, funnel, warm water. Trial 1. 1.</h2><h2 />
Answer:
nucleas
Explanation:
i looked it up and we had a unit on this in school ,not that I actually remembered anything they taught me :P
Answer: The chances of their children having hemophilia is zero. All their children will be carriers of one gene for hemophilia.
Explanation: When they cross breed, 100% of their will have a single gene for hemophilia. The products of the cross breed is 2 XhXH and 2 XhY. See the attached diagram for illustration.
We solve the problem using the Hardy-Wineberg equation.
Let us start with the homozygous dominant number of red toes trait,
∴ p² = = 0.4
We have the frequency for red toe trait as p = = 0.63
Solving for the frequency of white toe trait by using the fact that,
p + q = 1
∴ q = 1 - p = 1 - 0.63 = 0.37
Now we can calculate 2pq in p² + 2pq + q², which is the frequency for pink toes.
∴ 2pq = 2 x 0.63 x 0.37 = 0.47
Therefore, in a population of 1000 people, 47% have pink toes.
Hence 47% of 1000 will be 470.
The answer is 470.