Answer:
https://search.yahoo.com/search?fr=mcafee&type=E210US91088G91495&p=brainly.com
Explanation:
Answer:
Yes, the climate on the Indian side of the Himalayas is different from that on the Tibetan side.
Explanation:
That's because Tibet is on the rain shadow side of the Himalayas.
When the warm air from India hits the mountains, it must rise over them.
As the air rises, it expands and cools. As it cools, its water vapour condenses to form clouds that precipitate as rain and snow.
The rain is responsible for the monsoons of India.
The Himalayas are at a latitude of about 30° N, so the climate at the foothills is humid subtropical. At higher altitudes, there is permanent snow and ice.
According to the Punnett square for this cross, 50% of offspring is predicted to have blue feathers. This is because the trait of a blue feather is dominant over the trait of a white feather. Thus, the correct option is B.
<h3>What is Punnett Square?</h3>
Punnett square may be defined as a kind of table in which all of the probable products for a genetic cross between two individuals with known genotypes are presented in a precise manner.
The complete question is described in the image given below:
When a Parakeet that is heterozygous (Bb) for blue feather (dominant) is crossed with a Parakeet that is purebred (bb) for white feather (recessive), the genotypes of the resultant offspring are Bb, bb, Bb, and bb.
In which 50% of the offspring possess blue feathers (Bb) while 50% of the offspring possess white feathers (bb).
Therefore, the correct for this question is B.
To learn more about Punnett square, refer to the link:
brainly.com/question/3522181
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Answer: They can be either of the same species (intraspecific interactions), or of different species (interspecific interactions). These effects may be short-term, like pollination and predation, or long-term; both often strongly influence the evolution of the species involved. A long-term interaction is called a symbiosis.
Explanation:
A Punnett Square is used to predict the chances of an offspring to have its parents' traits. These squares are most commonly divided into four parts, with each part equaling a 25% chance of the offspring receiving that set of genes.