Alveolar sacs, bronchi, trachea, pharynx is the list that describes the path carbon dioxide takes to the nose. Thus, option D is correct.
The respiratory system has been refers to the system of the organs and tissues which would work together to take in oxygen into the cells and remove carbon dioxide from the body. Parts of the respiratory system include the lungs, the bronchi, trachea, etc.
The path of the carbon dioxide as it leaves the body describes the path through which carbon dioxide takes as it goes from the capillaries to be exhaled via the nose or mouth. During the inhalation through the nose or mouth the air first enters the "pharynx" which is also called as throat, then the air moves towards the "larynx" . Is a passage between the pharynx and the trachea.
Carbon dioxide would follows the following path on the leaves the capillaries: alveoli--->bronchioles--->bronchi---> trachea --->larynx --->pharynx---> mouth/nose
Therefore, Alveolar sacs, bronchi, trachea, pharynx is the list that describes the path carbon dioxide takes to the nose. Thus, option D is correct.
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Answer:
D
Explanation:
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Answer:
Thus, the common feature of the organelles within the list is that they are surrounded by a membrane. However, the membranes of each of the organelles are slightly different. For example, the nuclear membrane contains pores through which mRNA can travel to the cytoplasm in order for protein synthesis to occur.
Explanation:
Answer:
Burning fossil fuels is different from other processes that cycle carbon in environments on Earth in the following ways:
Speed: Burning fossil fuels releases carbon dioxide into the atmosphere much more quickly than other natural processes. For example, it takes millions of years for carbon dioxide to be released from rocks and sediments through natural processes, but fossil fuels can be burned in a matter of seconds.
Scale: The amount of carbon dioxide released into the atmosphere from burning fossil fuels is much greater than the amount released from other natural processes. In 2019, humans emitted about 38 billion tons of carbon dioxide into the atmosphere, of which about 89% came from burning fossil fuels.
Location: Burning fossil fuels releases carbon dioxide into the atmosphere in specific locations, such as cities and power plants. This can lead to high concentrations of carbon dioxide in certain areas, which can have negative impacts on human health and the environment.
Other processes that cycle carbon in environments on Earth include:
Photosynthesis: Plants use carbon dioxide from the atmosphere to produce food.
Respiration: Plants and animals release carbon dioxide into the atmosphere when they breathe.
Decomposition: When plants and animals die, their bodies are decomposed by bacteria and fungi, which release carbon dioxide into the atmosphere.
Weathering: Rocks and sediments are weathered over time, releasing carbon dioxide into the atmosphere.
Volcanic eruptions: Volcanic eruptions can release large amounts of carbon dioxide into the atmosphere.
These natural processes cycle carbon between the atmosphere, land, and oceans. The carbon cycle is a natural process that has been happening for millions of years. However, human activities, such as burning fossil fuels, are disrupting the carbon cycle and causing carbon dioxide levels in the atmosphere to rise. This is leading to climate change, which is having negative impacts on the planet and its inhabitants.
To reduce the impact of burning fossil fuels on the carbon cycle, we can transition to renewable energy sources, such as solar and wind power. We can also improve energy efficiency and reduce our reliance on fossil fuels.
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Monosaccharide and disaccharide
Glucose and glycogen are carbohydrates that provide short-term energy storage.
The carbohydrates that provide short-term energy storage are glucose and glycogen. Glucose is a simple sugar that is readily available in the bloodstream and can be used for immediate energy. Glycogen is a complex carbohydrate that is stored in the liver and muscles and can be broken down into glucose when needed for energy.
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