The use of stem cells is without any objections since it can be used in therapies to help humans.
The answer is 0.43
To calculate p we will use one of two formulas of the <span>Hardy-Weinberg principle:
</span>
p² + 2pq + q² = 1 and <u>p
+ q = 1</u>
where:
p - the frequency of the allele for long legs which is a dominant trait.
q - the frequency of the allele for short legs which is a recessive trait.
p² - the frequency of dominant homozygote (with long legs)
2pq - the frequency of heterozygote (with long legs)
q² - the frequency of recessive homozygote (with short legs)
So, 33 of 100 organisms have short legs. The frequency of recessive homozygote is represented by q²:
<span>q² = 33/100 = 0.33</span>
⇒ q = √0.33 = 0.57<span>
</span>
Using the formula:
p + q = 1
p = 1 - q = 1 - 0.57 = 0.43
Therefore, p = 0.43
<span>The correct answer should be Hypersexual</span>
The statement that describes a solute and conditions that will lead to the fastest dissolving rate is a finely divided crystals poured into a warm solution and left alone in the solvent, which is option A.
<h3>What is solubility?</h3>
Solubility is the amount of a substance that will dissolve in a given amount of a solvent, to give a saturated solution, under specified conditions.
However, the solubility of a solute in a solvent is dependent on certain factors.
Therefore, a statement that describes a solute and conditions that will lead to the fastest dissolving rate is a finely divided crystals poured into a warm solution and left alone in the solvent.
Learn more about solubility at: brainly.com/question/8591226
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