Answer:
The correct answer would be:
- Frequency of recessive allele (q) = 0.2 or 20 percent
- Frequency of dominant allele (p) = 0.8 or 80 percent
- The frequency of homozygous dominant individuals (p²) = 0.64 or 64 percent.
- The frequency of homozygous recessive individuals (q²) = 0.04 or 4 percent.
- Frequency of heterozygous dominant indivduals (2pq) = 0.32 or 32 percent.
It can be explained with the help of the Hardy-Weinberg equation:
p + q = 1
p² + q² + 2pq = 1
q² represent the frequency of individuals with homozygous recessive genotype. It can be calculated by dividing the number of individuals with homozygous recessive genotype with a total number of individuals in a population.
Thus, q² = 
⇒
⇒ 0.04
Hence, q = 
= 0.2
As we know p + q = 1
thus, p = 1 - 0.2 = 0.8
Same. well i have a question. if we evolved and we are said to be of children of adam and eve then were adam and eve apes, or did we not evolve?
The dehydrated collapsing cells in the leaves and stems cant stay together
Answer:
<u>Option:(A)-</u>
<em>"As temperatures increase, substrates collide with the enzyme more, but even higher temperatures cause too much enzyme movement and the enzyme denatures."</em>
Explanation:
<u>Optimum temperature for Enzyme activity: </u>
As there is an optimum amount of heat required for an enzymatic activity. At first the binding site of the enzyme is prepared for binding of the enzyme and the substrate, after which the enzyme is activated for proper function or carrying out the enzymatic reaction.
- Along with that if the temperature inside the cell or outside in the environment is taken to extreme levels then the enzyme will lose its physical properties and will eventually denature.
- Which will cause most of the reaction to be halted and the conclusion can be of catastrophic level, as there will be less productivity inside the living organisms body and same for the energy production on cellular level.
Answer:
i dont know if its correct cause that information came from Wikipedia..
