Answer:
particle movement in hotter waters will be higher than particle movement in cold water. I dont have exact numbers because I did not do the expirement.
Explanation:
Answer:
genetic diversity
Explanation:
because of the alleles in the organisms genotype every offspring has a diffenent trait from each of the partents
Turbined water draining <span>transmission to consumers</span>
overhead connection
network connection
<span>voltage decrease </span><span>high-tension electricity transmission</span> <span>head of water </span><span>water under pressure </span><span>transformation of mechanical work into electricity </span>
generator unit
<span>transmission of the rotative movement to the rotor </span><span>rotation of turbine</span>
hydraulic turbine
<span>production of electricity by the generator </span><span>energy integration </span><span>voltage increase </span><span>energy transmission </span>
I believe that would impact biodiversity in the way that, all those preys the predator feeds on, will start to overpopulate.
Like for example, I’ll use a wolf. Wolves eat many other animals, so it would be a top predator in an ecosystem. But when the population of wolves start to drop, their prey’s population will increase. This isn’t necessarily a positive thing because there has to be a balance in the food chain.
Wolves probably also do something for the environment, so a decrease would maybe change somethings there too.
I hope this answers your question :)
Answer:
H Flies with long wings can produce offspring with short wings.
Explanation:
For example, if we name the gene for the wings length with A, then the fruit flies with short wings have the genotype aa (recessive homozygous), while those with long wings can have either AA (dominant homozygous) or Aa (heterozygous) genotype. So, if two fruit flies with long wings and Aa genotype are crossed:
P: Aa x Aa
F1: AA Aa Aa aa
There is a 25% chance that offspring will have short wings.