Answers
Answer:
It is absorbed or reflected by clouds, gasses, and dust, or is reflected off of Earth's surface.
Explanation:
Final answer:
The solar energy that is not absorbed by Earth's surface is reflected back into space or absorbed by the atmosphere, contributing to the greenhouse effect.
Explanation:
The solar energy that is not absorbed by Earth's surface can be reflected, scattered, or absorbed by the atmosphere. Some of the solar energy is reflected back into space by clouds, particles in the atmosphere, and Earth's surface. This is known as albedo. The rest of the solar energy is absorbed by gases such as carbon dioxide and water vapor in the atmosphere.
This absorption of solar energy by the atmosphere contributes to the greenhouse effect, which helps to regulate Earth's temperature. The absorbed energy is re-emitted as heat, warming the lower layers of the atmosphere. This is why the Earth's surface is warmer than it would be without an atmosphere.
In summary, the solar energy that is not absorbed by Earth's surface is either reflected back into space or absorbed by the atmosphere, contributing to the greenhouse effect and warming the atmosphere.
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Related Questions
Which type of neuron is completely contained within the CNS?
What sources of information might you ise to determine the relative motion of Earth compared to other planets in the solar system?
Brown and colleagues studied competition among small rodents in the Chihuahuan Desert near Portal, Arizona. To assess whether interspecific competition had any influence on population size of these rodent species, they conducted a:
____ is a form of vigorous physical activity. strength training yoga aerobic dancing static stretching
Answers
Answer:
Deep
Explanation:
Answer:A
Explanation: CAPPING
o A. temperate grasslands
B. Northwest coniferous forest
C. tropical dry forest
O
D. boreal forest (taiga)
Answers
Among the options, the name of the biome that the team visited is known as boreal forest (taiga). Thus, the correct option for this question is D.
What is Biome?
A biome may be defined as a very large ecosystem that is tunning in nature in a very unmanaged way. It may also be characterized as a very large area that is characterized by a particular type of vegetation. Some examples of biomes may include tropical rainforests, coral reefs, grasslands, etc.
According to the context of this question, taiga (boreal forests) are the types of coniferous forests that are located below the tundra in the biome triangle. These types of biomes may have a dense forest of pines and other coniferous evergreens. They leave the forest before the winter, which is long and cold. They generally possess temperatures lower than the temperare or tropical forests.
Therefore, the name of the biome that the team visited is known as boreal forest (taiga). Thus, the correct option for this question is D.
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Answer:
It's D
Explanation:
Answers
The graph that would best predicts the change in the break length of the bird population is that of the third graph.
How are the beaks of the seed-eating birds developed?
The seed-eating birds includes the Sparrows and finches, and redpolls. Grouse has different sizes of beaks as per the body ratio. Evolution and natural selection play a crucial role in the development of the beaks. The shape of the break determines the type and shape of seed it will eat.
As per the graph given the length of beaks will increase as the number of individual birds increases. Thus the diversity of breaks depends on the diversity of the species. Hence the option C is correct.
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Answer:
its the last one
Explanation:
because it was good then bad after drought
A) 0.25
B) 0.15
C) 0.05
D) 0.04
E) there is not enough information to answer this question
Answers
Answer:
D) 0.04
Explanation:
Assuming that a is the recessive allele when homozygous that causes the polycystic kidney disease and A is the dominant one:
Since Penelope's sisters has the disease, she must be homozygous recessive (aa). Her parents must both be Aa (otherwise her sister wouldn't have inherit the disease). So, the probability of Penelope of being heterozygous (Aa) is 0.5.
On the other hand, the probability of having the disease in the population is 0.04 (1 minus the probability of not having the disease which is 0.96). This, according the Hardy–Weinberg principle, in the population would represent the genotype frequency . So, the allele a would have a frequency
=
= 0.2. Since the gene has only two alleles, all alleles must be either A or a , therefore p + q = 1. So, the A population's frequency is p = 1 - q = 1 - 0.2 = 0.8.
The European man's probability of being Aa (doesn't have the disease but can carry the disease allele) is 2pq = 2 x 0.8 x 0.2 = 0.32.
The probability of Penelope and the European man of having an ill kid (assuming they both are Aa) is 0.25.
Finally, given the Penelope's probability of being Aa (0.5), the European man's 's probability of being Aa (0.32) and the probability of having a kid homozygous recessive aa (0.25) = 0.5 x 0.32 x 0.25 = 0.4 is the probability that they will have a child with ARPKD.
Answers
Answer:
The answer would be A. igneous
Explanation: