The law of segregation is the law which states that two factors controlling a characteristic separate and go to different
gametes.
TRUE
FALSE

Answer:

1. They provide home and shelter for millions of species of marine organisms.

2. They play a role as nutrient recyclers and in carbon and nitrogen fixation.

3. They are vital in the marine food chain as they are the main source of essential nutrients.

Explanation:

Cnidarians are extremely ecologically important organisms that play a significant role in the animal kingdom and nature.

For instance, coral reefs, which are built by hundreds to thousands of cnidarians, provide home and shelter for millions of species of marine organisms, from small crustaceans to large fish such as sharks. Furthermore, they play a role as nutrient recyclers and in carbon and nitrogen fixation. In addition, they are vital in the marine food chain as they are the main source of essential nutrients such as nitrogen.

Today, these organisms are threatened due to human activities and anthropogenic climate change, so it is fundamental to develop better strategies to protect and restore them.

Answer:

Cecropia trees in the rain forest ecosystem make their

own food. Like all plants, they use energy from the sun

to turn carbon dioxide and water into food molecules.

They change these food molecules into molecules that

build their bodies or release energy. The cecropia trees

must not be getting the sunlight, water molecules, or

air molecules that they need to grow and thrive.

BRING WATER TO AFRICA

Answer:-if you "snip" below a node, a clade falls off

Explanation:

Answer:

What image?

Explanation:

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a lack of resources cause organisms to fight for the resources and some organisms use said resources to obtain what they need to survive such as how predators act around a water hole.

Answer:The respiratory system helps create sound that enables humans to communicate with each another.

Explanation:

Answer:

The respiratory system helps create sound that enables humans to communicate with each another.

Explanation:

Answer:

No

Explanation:

The short answer is no, but the more complex one is that it depends on the virus. In the case of *****-19, the answer is no, as many people have recovered from  it. But almost any viral infection can lead to sepsis, which is a chain reaction that can trigger inflammation throughout the body and damage multiple organs. This, however, is very rare, though potentially fatal.

Answer:

Not all viruses are fatal.

Explanation: This pandemic is a virus thing that is going around and not all people are dying. There is some people who have the virus and got "rid of it". Not all viruses is fatal because viruses can include not only bacteria, but it can spread through saliva, air, blood.I hope this helps.

A) The tundra biome low precipitation levels, similar to deserts.

Tundra biome is characterized by short growing seasons and little precipitation. Deserts are also characterized by low precipitation levels, making them comparable to tundras in terms of precipitation amount.

Answer:

Chromosome number in gametes- haploid (n)

Chromosome number in zygote- diploid (2n)

Explanation:

Sexually-reproducing organisms make use of gametes to reproduce. The gametes are produced via the process of meiosis, which is a cell division that results in daughter cells (gametes) that have their chromosomal number reduced by half. A diploid (2n) organism i.e. possess two set of chromosomes undergoes meiosis to produce haploid (n) gametes i.e. contains one set of chromosomes. The male parent produces haploid sperm while the female parent produces haploid egg.

During reproduction, these haploid gametes (sperm and egg) combine in a process called FERTILIZATION to produce a diploid ZYGOTE. The diploid zygote then divides and grows into the full organism. Hence, since a zygote is formed by the fusion of two haploid gametes (sperm and egg), it contains a diploid chromosome number i.e. sperm (n) + egg (n) = zygote (2n)

Answer: Survival and reproduction of animals results from genetic variation in their behavior and physiology. differential survival and evolutionary theory. variation exists among individuals, most offspring do not survive to reproduce, some survive and produce more offspring.

Answer: B

Explanation:

Chemical reaction represents the chemical changes in a reactant that results in a product. As the reaction proceeds, the electron rearranges themselves to form or break bonds. Thus, option a is correct.

A chemical reaction is a conversion process where the reactant undergoes chemical changes to get converted into one or more products that are different and new.

The product or the new substance is formed as a result of the electron rearrangement that leads to the splitting or formation of the bonds among the reactants.

Some chemical reactions absorb heat from surroundings, while some releases heat into the environment. But in a reaction, the mass remains conserved.

Therefore, option a. the electron rearranges to split and create new bonds is correct for a chemical reaction.

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Explanation:

The atmosphere is a thin layer of gases that surrounds the Earth. It seals the planet and protects us from the vacuum of space.The lowest layers interact with the surface of the Earth while the highest layers interact with space. On your level, you may feel the atmosphere as a cool breeze.

Final answer:

A microclimate defines the distinct atmospheric state in a specific, limited geographic area, contrasting with the broader climate of the region.

Explanation:

The state of the atmosphere in a small geographic area refers to a microclimate. This is a distinctive climate that can be very different from the surrounding area's climate. Microclimatology is a branch of climatology that specifically examines the climate at a localized level, focusing on variations that occur over short distances.

While weather represents the short-term state of the atmosphere, including conditions like temperature, humidity, and precipitation, climate encompasses the long-term patterns of these atmospheric conditions. The term 'microclimate' reflects the nuanced variations that can exist within even a small geographic locale, possibly due to factors like shading, altitude, or water bodies, which can all influence the localized atmospheric characteristics in a significant way.

Answer:

During the day, the Sun shines through the atmosphere. Earth's surface warms up in the sunlight. At night, Earth's surface cools, releasing heat back into the air. But some of the heat is trapped by the greenhouse gases in the atmosphere. That's what keeps our Earth a warm and cozy 58 degrees Fahrenheit (14 degrees Celsius), on average.

Explanation:

Final answer:

The Moon's stark temperature fluctuations compared to Earth are attributed to the lack of an atmosphere and the greenhouse effect on Earth, which regulates surface temperatures by trapping and re-radiating solar energy.

Explanation:

Even though Earth's Moon and Earth are equidistant from the Sun, the temperature range on the Moon is vastly different from that on Earth. The key factor contributing to this difference is the greenhouse effect. Earth is enveloped in an atmosphere rich in greenhouse gases like carbon dioxide (CO₂) and water vapor (H₂O), which trap heat through a process where solar radiation is absorbed and re-radiated at different wavelengths. This thermo-regulatory mechanism maintains Earth's surface temperature at levels conducive to life. In contrast, the Moon lacks an atmosphere. As such, it cannot retain heat nor maintain a stable temperature. Lunar soil, being porous and with no air to modulate temperature fluctuations, heats up to above the boiling point of water during the lunar day and plummets to extremely low temperatures, around 100 K (-173 °C), during the lunar night. This results in the extreme temperature ranges experienced on the Moon's surface compared to Earth. Planetary temperatures are significantly influenced by their atmospheres and their ability to trap heat. The Earth's greenhouse effect is natural, yet on other planets like Mars, the atmosphere is too thin to provide significant greenhouse warming, whereas Venus has a massive carbon dioxide atmosphere leading to a severe greenhouse effect.

Final answer:

P resides closer to the school, P starts earlier for school, Q walks faster and reaches the school earlier

Explanation:

1: Which of the two resides closer to the school?

We can answer this question by knowing the displacements. The total displacements here are OC by P and OD by Q. From the figure, OC < OD. Hence, P resides closer to the school.

2: Which of the two starts earlier for the school?

The start times are point O for P and A for Q on the time axis. Hence, P starts earlier for school.

3: Which of the two walks faster?

The speed is given by the slope of the plot. The slope of the motion of P is smaller than that of Q. Hence, Q walks faster.

4: Which of the two reaches the school earlier?

Q reaches the school earlier since Q walks faster.

Calix's cells having more DNA means a change on a larger scale than a point mutation has occurred. Point mutations only alter a single base pair and do not increase overall DNA quantity. More DNA suggests genetic changes like duplications or insertions.

The reason Clalix's cells have more DNA than a typical cat indicates that a point mutation was not the cause is that point mutations, by definition, only affect one base pair of the genetic code. This minor genetic alteration, like a single letter in a book, does not increase the total amount of DNA. On the other hand, large-scale genetic changes, such as duplication events, insertions, or chromosomal rearrangements, can result in a cell having more DNA than usual.

A point mutation could, for example, occur in the mtDNA and result in a loss of function in essential cellular components like cytochrome c, a key participant in cellular respiration. Even though it results in a functional change, it does not increase the quantity of DNA.

In summary, if Calix's cells contain more DNA than a normal feline cell, it suggests that larger-scale genetic alterations, rather than single-point mutations, are likely at play.

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Calix's cells having more DNA than a normal cat indicates that the genetic change is more significant than a point mutation, as point mutations affect a single nucleotide and would not usually increase DNA quantity. The condition implies larger scale genomic changes like chromosomal rearrangements or gene duplication rather than single nucleotide alterations.

The question pertains to why an increase in DNA content in Calix's cells, unlike that in a normal cat, suggests that a point mutation was not the cause. Point mutations are changes to a single nucleotide in DNA and typically result in alterations in a single gene or polypeptide sequence, and therefore would not usually lead to an increase in the overall amount of DNA within a cell. In contrast, conditions where there is an increase in DNA, such as polyploidy or gene duplication, result from larger-scale genomic changes rather than point mutations.

A point mutation might affect critical functions if it occurs within a gene encoding an essential protein, such as cytochrome c. However, for Calix's cells to have more DNA than normal, it suggests genomic changes beyond a single nucleotide alteration. These changes might involve insertions, deletions, or changes that affect the overall structure and number of chromosomes, not just a point mutation in mitochondrial DNA (mtDNA).

Chromosomal rearrangements or gene duplications would result in a net increase in DNA and, unlike point mutations, could explain structural changes in the genome as a whole. For instance, certain cells might obtain extra gene copies that confer a new property to the cells or alter their growth patterns, which could lead to a physical increase in total DNA.

A mutation causing a significant increase in the total amount of DNA would likely involve more complex genetic reorganization, such as through genomic rearrangements or the presence of extra genomic material, which contrasts with the simpler changes attributed to point mutations.

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ANS: The scientific term of rain sleet, snow and hail is precipitation.

Scientists first thought dinosaurs resembled lizards due to their reptilian features and close relation to reptiles like crocodiles. The discovery of feathered dinosaurs like Archaeopteryx has since provided evidence for their bird-like characteristics, although not all dinosaurs were warm-blooded or feathered.

When scientists look at the bones of a dinosaur, they initially surmised that dinosaurs had scaly, lizard-like skin rather than being furry or feathered based on their closest living relatives, such as crocodiles, and overall reptilian morphology. However, recent discoveries have challenged this notion, uncovering the existence of feathered dinosaurs. Archaeopteryx, an ancient fossil, displays characteristics of both dinosaurs and birds, suggesting a transitional form. It possesses both teeth, like dinosaurs, and feathers modified for flight, which are typically associated with birds. These feathery dinosaurs might not necessarily have been warm-blooded like modern birds, as not all dinosaurs had feathers, suggesting a diversity in their thermoregulatory strategies.

Moreover, birds are descendants of a specific group of dinosaurs known as theropods, sharing several anatomical features, such as a furcula and specific bone structures in their hips and wrists, further supporting the feathered dinosaur hypothesis. Despite this feathered evidence, not all dinosaurs were endothermic, and the depictions of dinosaurs as lizard-like may have originated from the fact that some dinosaurs indeed had scaly skin, and this representation became culturally embedded before the discovery of feathered dinosaur fossils.

Final answer:

Between 79% and 87% of marine species live in coastal waters, which are rich in biodiversity. Coastal waters are of significant interest to conservation efforts, as they are home to the vast majority of marine creatures.

Explanation:

Although precise estimates can vary, a significant majority of marine species are found within these regions. One figure suggests that 96% of marine species and 70% of terrestrial species are reliant on the coastal ecosystem. Given that invertebrates make up nearly 97% of animal species, with many species like the sea star thriving in coastal zones, the biodiversity in coastal areas is substantial.

Understanding the concentration of marine life in coastal waters is essential for conservation efforts, as highlighted by studies and initiatives like the Tagging of Pacific Predators (TOPP) program. The health of coastal ecosystems is critical not just for the species that live there, but for global biodiversity and human communities as well. For example, many coastal countries are striving to protect coastal and oceanic waters, with the goal of achieving conservation targets to sustain marine populations and ecosystems.

Answer:

It has adapted to feed on available food.

Explanation:

Answer:

IT HAS ADAPTED TO FEED ON AVAILABLE FOOD

Explanation:

Ligand in cell signaling is defined as the molecules, which bind to specific receptors. Two ligands, for instance, ligand A and ligand B can generate a similar cellular response by binding to different receptors.

The ligands interact with the specific molecule in the target cell. If two same ligands are attached to the two different receptors, then they will generate two different responses.

Acetylcholine is such an example of a ligand, which when attached to two different receptors will generate the same response.

This type of response can also be generated in epinephrine and glucagon. These ligands are responsible for controlling the transcription process in the DNA molecule.

Therefore, the ligands are the molecules that bind to the receptor and generate a signal.

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Ligand A and ligand B can cause identical cellular responses by binding to the same receptor or different receptors that activate the same signal transduction pathway using common second messengers and similar downstream components.

The phenomenon where ligand A and ligand B cause identical cellular responses can be explained through the concept of signal transduction pathways. These pathways start with the binding of a ligand to its specific receptor, initiating a cascade of biochemical events inside the cell. It is possible for different ligands to bind to the same type of receptor (or different receptors that trigger the same pathway) and produce the same response due to the use of common second messengers and similar downstream signaling components within the cell.

One scenario is that different cell types produce the same receptor, which binds to the same ligands, but triggers different responses in each cell type. Alternatively, cells may contain different genes that produce different receptors capable of binding to the same ligand, leading to diverse responses. Moreover, the interaction between ligands and G-protein-linked receptors, ligand-gated ion channels, and receptor tyrosine kinases can activate varied intracellular reactions even though the same second messengers are involved.

In the context of autocrine signaling, a cell may send and receive the same signal, which can regulate processes such as pain sensation, inflammation, and programmed cell death. Whether the signal impacts only the signaling cell or also affects neighboring cells can determine the overall biological outcome. Such specificity in signaling allows for precise control over cellular function and differentiation during organism development.

Answer: The ovaries.

Explanation: The ovaries are two oval-shaped organs that lie to the upper right and left of the uterus. They produce, store, and release eggs into the Fallopian tubes in the process called ovulation.

Final answer:

Volcanic activity is the geological process that returns carbon to the atmosphere as carbon dioxide, playing a crucial role in the carbon cycle by releasing carbon stored within the Earth's mantle.

Explanation:

The geological process that returns carbon to the atmosphere in the form of carbon dioxide is volcanic activity. This activity brings carbon stored deep within the Earth's mantle back into the carbon cycle. Volcanic eruptions release carbon dioxide into the atmosphere that was locked in the mantle or in long-term carbon reservoirs such as carbonates and fossilized organic materials.

Other processes involving carbon include photosynthesis, where carbon dioxide is converted to organic carbon by plants and algae, and respiration, where living organisms release carbon dioxide back into the atmosphere. Additionally, carbon is cycled slowly through other geological processes such as the formation and decomposition of limestone, and through human activities like the burning of fossil fuels.

Final answer:

Volcanic activity is the geological process that returns carbon to the atmosphere as carbon dioxide, playing a critical role in the Earth's carbon cycle.

Explanation:

The geological process that returns carbon to the atmosphere in the form of carbon dioxide is volcanic activity. Volcanoes release carbon dioxide gas that has been stored within the Earth's mantle. This process is a part of the carbon cycle, which includes the exchange of carbon among the atmosphere, oceans, and living organisms on Earth. Long-term storage of carbon also occurs when organic matter from living organisms becomes fossilized deep underground, and volcanic activity plays a key role in returning this carbon back to the carbon cycle through eruptions that release stored carbon dioxide into the atmosphere.

Answer: False

Explanation: The phylum Chordata (chordates) includes two other subphyla: Cephalochordata (e.g. lancelets) and Urochordata (e.g. tunicates). Both subphyla encompass organisms which do possess a notochord and a dorsal nerve cord, lost after the embryonic stage or otherwise.

Answer:

The envelope come from the host cell membrane as the virus leaves the host cell

Explanation:

A virus is an organism that is incapable of replicating on its own without infecting a living host. A virus consists of a genetic material (DNA or RNA) , a protein coat called CAPSID, and sometimes some viruses possess an envelope, which is an outer covering or enclosure. Viruses that possess this envelope are referred to as ENVELOPED VIRUS.

The virus lacks the ability to produce any structure, hence, they gain this envelope made of phospholipid from the cell membrane of the host they infect. During the infection cycle of a virus, a process called budding enables a portion of the host's plasma membrane to cover or encapsulate the virion cells, hence, making them enveloped in the process.

Answer:

this would make more bacteria resistant to antibodies which could lead to extreme sickness or even death

Answer:

d

Explanation:

photosynthesis creates the end product of glucose used for energy while cellular respiration breaks down glucose in order to make its own energy

Answer:

Option D.  Photosynthesis and cellular respiration both produce energy, but while photosynthesis assembles glucose  molecules in plant cells, cellular respiration breaks down glucose molecules in plant and animal cells.​

Explanation:

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Final answer:

The number of individuals that die in a population during a certain time period is referred to as the mortality rate, which is typically expressed as the number of deaths per 1,000 individuals per year, calculated based on age groups or sex within the defined time period.

Explanation:

The concept being described is known as the “mortality rate,” which is a measure of the number of deaths in a population during a specified time period. This can be applied generally or to specific causes of death. The typical expression of mortality rate is in units of deaths per 1,000 individuals per year. To accurately assess mortality, one would need to count the number of individuals that died within different age groups and possibly differentiate between sexes over a defined period. This could help determine age-specific mortality rates and sex-specific mortality differences which may be important in understanding the demographic characteristics of the population.

When calculating mortality rates, it is common to divide the number of individuals dying during an age interval by the number of individuals surviving at the beginning of that interval, and then multiplying by 1,000 to obtain a rate per 1,000 individuals. A high mortality rate in a population suggests a shorter life expectancy and can impact the population size and structure over time. The mortality rate is also referenced as the death rate, which especially in human demographics, is quantified as the number of deaths per 1,000 people per year.