The curved paths of global winds and surface currents are caused bya. the revolution of the Earth.
c. warm air near the equator.
b. the Coriolis effect.
d. continental deflection.
Answers
Answer:
The correct answer is option B, The coriolis effect
Explanation:
The coriolis effect describe the pattern followed by an object travelling around the earth. This effect is guided by the rotation of earth. Large air currents appear to bend in the right direction in northern hemisphere while the coriolis effect produces reverse condition in the southern hemisphere where air currents bend to the left
The impact of the Coriolis effect is dependent on velocity of Earth and the velocity of the object and also on the fluid being deflected by the Coriolis effect
Higher Coriolis effect are seen when the speed is high or long distances are traversed.
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How can using a combination of policy tools be more efficient than using one exclusively?a. Using a combination of policy tools assures compliance. b. Using a combination of policy tools allows for a wider range of coverage. c. Using a combination of policy tools prevents the use of mandatory policies. d. All of the above
Which characteristic defines all dichotomous keys?Each key is a series of statements.Each key is organized as a table.Each key is organized as a flowchart.Each key is a mathematical formula.
Answers
Answer;
-5-carbon sugar
Explanation;
-The basic repeating unit of nucleic acids are known as nucleotides. There are two types of nucleic acids, namely RNA and DNA.
-A nucleotide consists of three distinct chemical groups, a 5-carbon sugar (ribose or deoxyribose), a nitrogen-rich base - (cytosine (C), guanine (G), adenine (A), thymine (T) in DNA or uracil (U) instead of T (in RNA), and phosphate.
Final answer:
Nucleotides consist of a phosphate group, a nitrogenous base, and a 5-carbon sugar.
Explanation:
Nucleotides, the building blocks of nucleic acids, consist of a phosphate group, a nitrogenous base, and a 5-carbon sugar. The 5-carbon sugar is called a pentose sugar. In DNA, the 5-carbon sugar is deoxyribose, while in RNA, it is ribose.
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B) 5
C) 0
D) 10
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Answers
simple dominance
codominance
pleiotrophy
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Answer: The correct answer is- " Simple dominance".
Simple dominance refers to the expression of one allelic form of a gene (that is dominant) over the other form (that is recessive).
Example- T allele is dominant that represents tall plant height over t (for dwarf), which only expresses in the absence of dominant allele.
On the contrary, pleiotropy means one gene is responsible for more than one characteristic or phenotypic trait of the organism.
Codominance means equal expression of both the alleles (like AB blood group) of a gene. Incomplete dominance occurs when none of the alleles is completely dominant resulting in an intermediate phenotype.
Thus, simple dominance is the right answer.
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2 It usually contains a great diversity of species.
3 It contains simple food chains that have more consumers than producers.
4 It contains complex food webs that have more heterotrophs than autotrophs.
Answers
Answer:
Autotrophs -
Autotrophs prepare their own food by the process called photosynthesis or by some other raw materials or Energy. Autotrophs are also known as producers.
Some examples of Autotrophs are :
- Plants
- Fungi
- Bacteria
Heterotrophs -
Heterotrophs can not prepare their own food and they depends upon autotrophs. Heterotrophs are also known as consumers.
Some examples of Heterotrophs are :
- Humans
- Birds
- Dogs
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Final answer:
Autotrophs and heterotrophs differ in their energy source, nutritional mode, and carbon source. Autotrophs can produce their own food through photosynthesis or chemosynthesis, while heterotrophs rely on consuming other organisms for energy.
Explanation:
Autotrophs and heterotrophs are two types of organisms that differ in how they obtain energy. Here are three key differences between them:
- Energy Source: Autotrophs can convert sunlight or inorganic compounds into energy through photosynthesis or chemosynthesis, respectively. This means they can produce their own food. Heterotrophs, on the other hand, obtain energy by consuming organic matter. They rely on consuming other organisms for their energy needs.
- Nutritional Mode: Autotrophs are capable of synthesizing their own organic compounds, including carbohydrates, proteins, and lipids. They can produce these essential molecules through metabolic processes. Heterotrophs, however, rely on consuming preformed organic compounds for their nutritional needs. They cannot synthesize these molecules on their own.
- Carbon Source: Autotrophs utilize carbon dioxide from the atmosphere or dissolved in water as their carbon source for photosynthesis. They convert this carbon dioxide into organic compounds. Heterotrophs, on the other hand, obtain their carbon from the organic compounds they consume. They break down these organic compounds to release energy.
Understanding these differences helps us appreciate the diverse ways in which organisms obtain and utilize energy.
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