The anaerobic breakdown happens in absence of oxygen and produce 2 ATP, and aerobic respiration happens in presence of oxygen and produce 38 ATP.
The breakdown of molecules in the presence of oxygen is called aerobic breakdown, which produce 38 ATP of energy.
The breakdown of glucose produce two molecules of pyruvic acid.
The anaerobic breakdown of glucose is happened in absence of oxygen which convert glucose into lactate and produce 2 ATP of energy.
Thus, The anaerobic breakdown happens in absence of oxygen and produce 2 ATP, and aerobic respiration happens in presence of oxygen and produce 38 ATP.
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Glucose can be broken down in two ways: aerobically (with oxygen), which is more energy-efficient and results in up to 36 ATP molecules, or anaerobically (without oxygen), which is less efficient and yields only 2 ATP molecules.
The breakdown of glucose can happen in two ways: anaerobically (without oxygen) and aerobically (with oxygen). Aerobic glucose breakdown occurs in the mitochondria of a cell and requires oxygen. This process is also known as 'cellular respiration,' and it results in a significant amount of energy (up to 36 ATP molecules from a single glucose molecule). Anaerobic glucose breakdown, also known as 'fermentation,' occurs in the cytoplasm and does not require oxygen. However, this breakdown pathway is less efficient, producing only 2 ATP molecules from a single glucose molecule.
mitosis
binary fission
fertilization
Erosion refers to the process of wearing away or removal of material from the Earth's surface, primarily through the action of natural agents such as water, wind, ice, or gravity. It involves the transportation and deposition of sediment and soil from one location to another.
Erosion occurs when the forces of these agents exceed the resistance of the surface materials, leading to the gradual or rapid removal of soil, rocks, or other geological features. The eroded materials are then transported and may be deposited in different areas, contributing to the reshaping of landscapes over time.
Erosion can have both natural and human-induced causes. Natural erosion processes, such as water erosion caused by rivers or wind erosion in arid regions, are part of the Earth's natural geological cycle. However, human activities, such as deforestation, overgrazing, construction, and improper land management practices, can accelerate erosion rates and cause significant environmental damage.
Overall, erosion plays a crucial role in shaping the Earth's surface, creating landforms like valleys, canyons, deltas, and beaches. Understanding erosion processes is essential for managing and conserving natural resources and mitigating the negative impacts of erosion on ecosystems and human activities.
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Answer: Hiya!
The definition of erosion is "the process of eroding or being eroded by wind, water, or other natural agents."
Explanation:
Erosion is a process where natural forces like water, wind, ice, and gravity transport rocks and soil.
Hopefully this helps you
- Matthew :)
Answer:
9.47 x 10^17 meters
Explanation:
To find the distance from Earth to Pluto in meters in scientific notation, we first need to convert 300 light years into meters.
A light year is the distance light travels in one year, and light travels at a speed of approximately 299,792,458 meters per second.
To convert light years to meters, we can use the following steps:
1. Multiply the speed of light by the number of seconds in a year (365 days x 24 hours x 60 minutes x 60 seconds) to find the distance light travels in one year.
299,792,458 meters/second x (365 days x 24 hours x 60 minutes x 60 seconds)
2. Multiply the distance light travels in one year by 300 (the number of light years between Earth and Pluto) to find the distance in meters.
(299,792,458 meters/second x (365 days x 24 hours x 60 minutes x 60 seconds)) x 300
The final answer in scientific notation will be a number between 1 and 10 multiplied by a power of 10.
Therefore, the distance from Earth to Pluto in meters in scientific notation is approximately 9.47 x 10^17 meters.
Answer:
The answer is D. the cells must be specialized.
Explanation:
A multicellular organism is one that is constituted by two or more cells which arise from a single cell which multiplies generating an organism. The cells of multicellular organisms aredifferentiated to perform specialized functions and reproduce by mitosis and meiosis.Cellular specialization includes the division of biochemical functions, the specialization of cells for contact with the environment and the separation between somatic cell and germ cell.
Meiosis I produces two cells, both of which are haploid. This means each cell has half the number of chromosomes as the parent cell. This is a crucial step in sexual reproduction, promoting genetic diversity.
Meiosis I produces two cells, each of which is haploid.
During the process of meiosis, a cell initially has two copies of each chromosome, one from the mother and one from the father (46 in humans). This is called a diploid state. However, after meiosis I, it splits into two cells each containing half the number of chromosomes (23 in humans). These cells are said to be haploid because they only possess one copy of each chromosome. The division which occurs during meiosis I is a fundamental part of the sexual reproduction process, as it leads to genetic diversity in offspring.
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A. Fungi
B. Plantae
C. Animalia
D. Eubacteria
An organism has a nucleus and is multicellular but has no cell wall and no chloroplasts.This organism belongs to Animalia kingdom. Thus, option C is correct.
Due to the existence of multicellular bodies, a heterotrophic source of food, eukaryotic cells, and cells without a cell wall, the Kingdom Animalia stands apart among them.
All animals have been divided into these five groups using the five Kingdoms concept. Due to the existence of multicellular organisms, a heterotrophic mode of nourishment, eukaryotic cells, and cells without a cell wall, the Kingdom Animalia stands out among them.
The Protista kingdom encompasses all types of algae, protozoa, and eukaryotic unicellular creatures. Multicellular heterotrophic eukaryotes with chitinous cell walls are part of the kingdom fungus. Kingdom Plantae contains cellulose-based autotrophs, while Kingdom Animalia contains heterotrophs.
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Answer:
this is so late but, I got Animalia
Explanation: