Rough ER is connected to the nuclear membrane and to smooth ER.
It is a membranous organelle that is a part endo-membrane system in the cell. It is connected to the nuclear membrane and arises as flattened projections. These organelles are attached to ribosomes and therefore, called rough.
The rough endoplasmic reticulum has many folds that are connected to smooth endoplasmic reticulum as these lack ribosomes on its surface.
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B. It is an energy source from the lungs.
C. It is waste produced by the cells in her body.
D. It is an energy source produced by the cells in her body.
her question?
Answer:
suspension
Explanation:
colorless fluid holds blood cells in suspension.
B) its beta particles
C) the nuclei in a sample
nuclie in a sample is the answer
B. lakes
C. rivers
D. ponds
Answer:
The correct answer is A. Marshes. :)
Explanation:
An example of a wetland ecosystem would be marshes, as they are regions where water is the primary factor controlling the environment and the associated plant and animal life. Lakes, rivers, and ponds are examples of aquatic ecosystems, not wetland ecosystems.
The correct answer to your question, 'Which of the following would be an example of a wetland ecosystem?' is marshes (option A). Wetlands are regions where water is the primary factor controlling the environment and the associated plant and animal life. They occur where the water table is at, or near the surface of the land. Different types of wetland ecosystems include marshes, swamps, and bogs.
Marshes, specifically, are a type of wetland where vegetation is dominated by herbaceous plants. Lakes, rivers, and ponds (options B, C and D respectively) are all instances of aquatic ecosystems, rather than wetland ecosystems. Lakes and ponds are standing or lentic waters, while rivers are flowing or lotic waters.
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The main benefit of ozone is that it absorbs ultravioletradiation from the Sun. The correct option is B.
The Earth's atmosphere contains ozone (O3), which is essential for absorbing solar ultraviolet (UV) radiation.
Only a small fraction of UVArays are allowed to reach the Earth's surface because of the protective shielding effect of the ozone layer, which is found in the stratosphere.
Ozone helps shield living things from the negative consequences of excessive UV exposure, which include skin damage, eye issues, and a higher risk of skincancer, by absorbing UV radiation.
Increased UV radiation levels that reach the Earth's surface as a result of the ozone layer being depleted, as seen in some areas (like the ozone hole above Antarctica), pose serious threats to human health and the environment.
Thus, the correct option is B.
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the answer is B) absorbs ultraviolet radiation from the Sun.
cause of the atmosphere and physic reasons. Good Luck!
Answer:
Glycolysis.
Explanation:
Aerobic respiration involves complete breakdown of glucose molecule in the presence of oxygen to release 36 molecules of ATP. On the other hand, anaerobic respiration involves partial breakdown of glucose molecule, when oxygen is absent to release only two molecules of ATP.
Glycolysis is a universal process as it is common in both aerobic and anaerobic respiration. It does not require oxygen and can occur in both presence or absence of oxygen. Glycolysis forms two [pyruvate molecules, two ATP molecules. along with two NADH molecules from one glucose molecule.
Thus, the correct answer is 'glycolysis.'
Both aerobic and anaerobic respiration involve the breakdown of glucose for energy, but aerobic respiration requires oxygen and produces carbon dioxide and water, while anaerobic respiration occurs without oxygen and produces either ethanol or lactic acid.
Aerobic respiration and anaerobic respiration are two different processes that cells use to generate energy, but they share some similarities. Both processes involve the breakdown of glucose molecules to release energy in the form of ATP (adenosine triphosphate). Additionally, both processes occur in the cytoplasm of cells and involve the initial step of glycolysis, where glucose is converted into pyruvate.
However, the key difference between aerobic and anaerobic respiration lies in the final steps. Aerobic respiration requires oxygen and proceeds with the conversion of pyruvate into carbon dioxide and water through the Krebs cycle and the electron transport chain in the mitochondria. In contrast, anaerobic respiration occurs in the absence of oxygen and follows either alcoholic fermentation or lactic acid fermentation, where pyruvate is converted into either ethanol or lactic acid, respectively.
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