Telophase occurs during the final stage of mitosis and meiosis, concluding nuclear division and leading to cell separation .
Mitosis:
Mitosis is the process of cell division that results in two identical daughter cells, each with the same number of chromosomes as the original cell. It consists of several stages: prophase, prometaphase, metaphase, anaphase, telophase, and cytokinesis.
In mitosis, telophase is the final stage. During telophase, the separated sister chromatids, which were pulled to opposite poles in anaphase, arrive at the poles and start to decondense back into chromatin.
The nuclear envelope reforms around the separated chromatids, resulting in the formation of two distinct nuclei in the cell. This marks the completion of nuclear division.
Meiosis:
Meiosis, on the other hand, is a specialized cell division process that occurs in sexually reproducing organisms.
It involves two sequential divisions: meiosis I and meiosis II, resulting in the formation of four non-identical daughter cells with half the chromosome number of the original cell.
In meiosis, telophase I occurs at the end of the first division. Telophase I shares similarities with telophase in mitosis, involving the reformation of nuclear envelopes around the separated chromatids.
Then, the cell proceeds to meiosis II, where another round of division occurs, culminating in the formation of four daughter cells.
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Telophase is the final stage of mitosis, or the process by which cells divide. Mitosis consists of five phases - prophase, prometaphase, metaphase, anaphase, and telophase. During telophase, the nuclei for the daughter cells finally form and the cell begins to split into two.
Answer:
The biggest difference is that hurricanes need a warm moist water to keep on going and never forms over land, while thunderstorms can form over land or water. Tornadoes are also associated with cumulonimbus clouds.
Explanation:
A hurricane is a swirling, low-pressure system that develops over the tropics with sustained winds that have reached at least 74 miles per hour.
Warm, moist air near the ocean's surface rises upward, cools, and condenses, forming clouds. With less air than before at the surface, the pressure drops there. Because air tends to move from high to low pressure, moist air from surrounding areas flows inward toward the low-pressure spot, creating winds. This air is warmed by the ocean's heat and the heat released from condensation, so it rises. This starts a process of warm air rising and forming clouds and surrounding air swirling in to take its place. Before long, you have a system of clouds and winds that begins to rotate as a result of the Coriolis effect, a type of force that causes rotational or cyclonic weather systems.
Hurricanes are the most dangerous when there is a big storm surge, which is a wave of seawater that floods communities. Some surges can reach depths of 20 feet and sweep away homes, cars, and even people.
A thunderstorm is produced by a cumulonimbus cloud, or thunderhead, that includes rain showers, lightning, and thunder.
They start when the sun heats the earth's surface and warms the layer of air above it. This warmed air rises and transfers heat to the upper levels of the atmosphere. As the air travels upward, it cools and the water vapor contained within it condenses to form liquid cloud droplets. As air continually travels aloft in this way, the cloud grows upward in the atmosphere, eventually reaching altitudes where the temperature is below freezing. Some of the cloud droplets freeze into ice particles, while others remain "supercooled." When these collide, they pick up electric charges from one another; when enough of those collisions happen, the big buildup of charge discharges, creating lightning.
Thunderstorms are most hazardous when rain decreases visibility, hail falls, lightning strikes or tornadoes develop.
Range of error/precision vs. accuracy plots.
The reliability and validity of thermometers are determined by their ability to consistently and accurately measure temperature. Different types of thermometers have varying degrees of reliability and validity. Factors such as the type of the thermometer, its temperature-dependent properties, and the scale of measurement used are crucial in determining reliability and validity.
The reliability and validity of the thermometers can be determined by evaluating their ability to consistently and accurately measure temperature. Reliability of a thermometer refers to its ability to produce consistent results. Different types of thermometers, such as alcohol, liquid crystal, and infrared radiation (pyrometer) thermometers, have varying degrees of reliability.
Validity, on the other hand, refers to the accuracy of the thermometer, in other words, how closely the measurements represent the true temperature. This can be affected by various factors including the type of thermometer, its temperature-dependent properties, and the scale of measurement used.
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Why is it important to humans?
Answer:
The ozone layer absorbs most of the Sun's ultraviolet radiation in the Earth's stratosphere.
Explanation:
It is important to humans because it protects us from getting sun burnt and from our body receiving too much radiation.
Answer:
it protects us from radiation from the sun
B. tree roots growing downward because of gravity
C. sunflowers turning toward light
D. vines curling around a fence
I AM THinking b but im not sure
One example that is not a behavioral adaptation in plants is tree roots growing downward because of gravity. The correct option is B.
Behavioral adaptation is what creatures do to survive. If we are talking about animals, the behavior can be acquired and carried down over generations, or it can be an innate adaption, which entails adaptions being passed down through generations genetically.
Individual organisms or entire groups can benefit from behavioral adaptations. Behavioral adaptations are actions taken by a plant to increase its chances of survival. Tropisms are an example of a behavioral adaptation in plants. Tropism refers to plant growth toward sunlight.
Roots growing downward due to gravity is not an adaptation because it is a natural cause, adaptations are the ones that save them from extreme conditions.
Therefore, the correct option is B.
To learn more about behavioral adaptations, refer to the below link:
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B)The respiratory system brings in carbon dioxide so the circulatory system can transport it throughout the body.
C)The circulatory system transports nutrients and oxygen brought in by the respiratory system throughout the body.
D)The circulatory system removes oxygen and other nutrients from the body to make room for carbon dioxide in the respiratory system.