piat: an evolutionarily intelligent system for deep phenotyping of chinese electronic health records

Accorfing to me science is all about logic and imagination.First, imaginating and putting own views then finding reasons behind it and proving.........

Answer:

Science is the study of both living and non-living things that are present in the huge diversity in this mysterious yet unique world.

Answer:

5. The part of a plant that is most similar to a solar cell is the chloroplast. Chloroplasts are specialized organelles found in plant cells that contain chlorophyll, a pigment that absorbs sunlight. They function in photosynthesis, the process by which plants convert sunlight, water, and carbon dioxide into glucose (a form of energy) and oxygen.

In photosynthesis, chloroplasts capture light energy from the sun and use it to generate chemical energy in the form of glucose. This process occurs in the thylakoid membranes within the chloroplasts, where chlorophyll molecules absorb light energy and convert it into chemical energy through a series of complex reactions. The chemical energy stored in glucose is then utilized by the plant for various cellular processes, including growth, development, and metabolism.

So, just like a solar cell converts sunlight into electricity, chloroplasts in plants harness sunlight to produce chemical energy in the form of glucose.

Cell structure provides important clues about its function. The specific organization and components of a cell determine its capabilities and the tasks it can perform within an organism.

For example, the presence of specialized organelles like mitochondria suggests that a cell is involved in energy production, as mitochondria are responsible for cellular respiration, the process that generates ATP (adenosine triphosphate), the energy currency of cells.

Similarly, the presence of ribosomes indicates that a cell is involved in protein synthesis, as ribosomes are responsible for assembling amino acids into proteins.

The shape and structure of a cell can also suggest its function. For instance, nerve cells have long, branching extensions called dendrites that enable them to receive and transmit electrical signals over long distances. Muscle cells are elongated and contain specialized proteins that allow them to contract and generate force for movement.

Overall, the structure of a cell is intricately related to its function, and by examining its components, organelles, and shape, we can gain insights into the specific roles and capabilities of different cell types within an organism.

Explanation:

Answer:

A period happens because of changes in hormones in the frame. Hormones are chemical messengers. The ovaries launch the lady hormones estrogen and progesterone . those hormones motive the liner of the uterus (or womb) to build up. The constructed-up lining is prepared for a fertilized egg to connect to and begin developing. If there is no fertilized egg, the liner breaks down and bleeds. Then the identical manner occurs all once more.

It normally takes about a month for the liner to build up, then smash down. this is why a lot of ladies and women get their periods round once a month.

Source:

https://kidshealth.org/en/teens/menstruation.html

https://www.plannedparenthood.org/learn/health-and-wellness/menstruation

thectgod ig follow

Answer:

Double Helix

Explanation:

It is shaped like a ladder, and a double helix is a pair of parallel helices intertwined about a double axis, especially that in the structure of the DNA Molecule

Answer:

A) Atoms are hard, solid balls of matter that are the smallest known particles.

Explanation:

uracil.

uracil is present in RNA instead of thymine.

The year without a summer” be considered destructive it is because as we all know that summer is the season of growing wheat who is very important food crop .....That's why

The basic process of DNA replication is similar in prokaryotes and eukaryotes, but there are significant differences in the details of how replication occurs in these two types of organisms.

DNA replication is a fundamental process that is essential for the survival and reproduction of all living organisms.

While the overall mechanism of DNA replication is conserved between prokaryotes and eukaryotes, there are some key differences in the way that DNA replication occurs in these two types of organisms.

Here are some of the differences between DNA replication in prokaryotes and DNA replication in eukaryotes:

DNA polymerases: In prokaryotes, DNA replication is carried out by DNA polymerase III. In eukaryotes, DNA replication is carried out by multiple DNA polymerases.

Origin of replication: Prokaryotes have a single origin of replication on their circular chromosome, while eukaryotes have multiple origins of replication on their linear chromosomes.

Chromosome structure: Prokaryotes have a single circular chromosome that is not associated with histones, while eukaryotes have multiple linear chromosomes that are tightly packed with histone proteins.

Replication speed: Prokaryotes replicate their DNA much faster than eukaryotes.

Proofreading: Eukaryotic DNA polymerases have a built-in proofreading mechanism that can detect and correct errors in the newly synthesized DNA. In contrast, prokaryotic DNA polymerases do not have this proofreading ability and instead rely on a separate repair mechanism to correct errors after replication has occurred.

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The electron transport pathway shown in the diagram is utilized whenever more ATP is needed relative to NADPH to drive photosynthesis.

This pathway is part of the light-dependent reactions of photosynthesis, which occur in the thylakoid membranes of chloroplasts.

During photosynthesis, light energy is absorbed by chlorophyll and other pigments, initiating a series of reactions that generate ATP and NADPH.

These energy-rich molecules are then used in the Calvin cycle (light-independent reactions) to convert carbon dioxide into glucose.

In some instances, the demand for ATP exceeds the demand for NADPH.

This can occur when the rate of carbon fixation, or the conversion of carbon dioxide into glucose, is relatively low compared to the requirements for ATP.

In such cases, the electron transport pathway shown in the diagram becomes more predominant.

This pathway involves cyclic electron flow, where electrons from photosystem I (PSI) are redirected back to the electron transport chain between PSI and photosystem II (PSII).

As a result, additional ATP is generated through the production of a proton gradient across the thylakoid membrane. However, this cyclic electron flow does not produce NADPH.

By utilizing the electron transport pathway in this manner, the cell can optimize ATP production to meet its energy needs while maintaining a balance with NADPH production.

This ensures that both ATP and NADPH are available in appropriate ratios for the synthesis of glucose during photosynthesis.

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Answer:

A

Explanation:

Because chemosynthesis is the biological conversion of one or more carbon-containing molecules and nutrients into organic matter using the oxidation of inorganic compounds or ferrous ions as a source of energy, rather than sunlight, as in photosynthesis.  So it can only be this because decomposition is something decaying and cellular respiration is the process by which organisms combine oxygen with foodstuff molecules, diverting the chemical energy in these substances into life-sustaining activities and discarding, as waste products, carbon dioxide and water.

Read each of the sentences that describe a phase of mitosis. Drag each sentence number onto the correct place on the diagram.

cytokinesis

metaphase

interphase

anaphase

prophase

telophase

Sentence 1: The cytoplasm pinches in half is cytokinesis.

Sentence 2: The centromeres of the duplicated chromosomes line up across the center of the cell is metaphase.

Sentence 3: The cell grows and replicates its DNA and centrioles is interphase.

Sentence 4: The chromosomes which were distinct and condensed begin to spread out into a tangle of chromatin anaphase.

Sentence 5: The genetic material inside the nucleus condenses and the duplicated chromosomes become visible prophase.

Sentence 6: The chromosomes separate and move along spindle fibers to opposite ends of the cell id Telophase

Thus, Read each of the sentences that describe a phase of mitosis. Drag each sentence number onto the correct place on the diagram.

cytokinesis

metaphase

interphase

anaphase

prophase

telophase

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What process allows the amount of DNA in an organism's cells to be kept constant in sexually reproducing species?

Meiosis is the process through which sexually reproducing organisms maintain their particular chromosomal numbers from generation to generation. In humans, meiosis generates sperm and eggs, each having 23 chromosomes. By fertilizing sperm and ova, the chromosome number is restored in the zygote (46 chromosomes).

The sperm and egg carry half as many chromosomes as body cells since they are haploid (n) (in humans, 23 in each sperm and egg).

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Answer:

B. These places once had a warmer climate.

Explanation:

They're fossils meaning they're extremely old therefore the climate they once grew in was suitable for its needs until the climate changed causing them to die.

Two pressures that oppose filtration are hydrostatic pressure and colloid osmotic pressure.

During the process of filtration in the capillaries, two opposing pressures regulate the movement of fluid across the capillary walls. Hydrostatic pressure, also known as blood pressure, is the force exerted by the fluid within the capillaries against the vessel walls. It tends to push fluid out of the capillaries and into the surrounding tissues. The hydrostatic pressure value in capillaries ranges from approximately 17 mmHg at the arteriolar end to 35 mmHg at the venular end.

Colloid osmotic pressure, also referred to as oncotic pressure, is a result of the presence of proteins, particularly albumin, within the blood plasma. These proteins create an osmotic force that pulls fluid back into the capillaries. Colloid osmotic pressure opposes hydrostatic pressure and helps prevent excessive loss of fluid from the blood vessels. Typically, the colloid osmotic pressure in capillaries ranges from 25 to 30 mmHg.

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Answer:

I heats water to produce steam thar spins a turbine.

Rare alleles may be lost due to genetic drift, which can also reduce the size of a gene pool.The idea that genetic drift contributes to the creation of novel species is based on the fact that it can also make a new population genetically different from its ancestral population.

Due to random sampling error, small populations typically lose genetic diversity less quickly than huge populations (i.e., genetic drift).This is because small populations make it more likely for some gene variants to be lost as a result of random chance.

By retaining a substantial genetic diversity, organisms can adapt to shifting environmental conditions and avoid inbreeding.Inbreeding occurs in small, isolated groups, which may render a breed less able to survive and reproduce.

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It's untrue to say that the ileum and ascending colon are connected by a chyme that travels through the space.

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Answer:

A

Explanation:

this is because all of the other options lower carbon emissions while driving pollutes

A.

Driving releases carbon by burning oil.

Have you ever wondered what would happen if Earth lost its atmosphere? It's believed that the planet is slowly losing its atmosphere, bit by bit, as it bleeds off into space. But what if Earth instantly lost its atmosphere, all at once? Just how bad would it be? Would people die? Would everything die? Could the planet recover?

What Would Happen?

Here's a breakdown of what could be expected:

It would be silent. Sound requires a medium to transmit waves. You could feel vibrations from the ground, but you wouldn't hear anything.

Birds and planes would fall from the sky. Although we can't see air (except clouds), it has mass that supports flying objects.

The sky would turn black. It's blue because of the atmosphere. You know those pictures taken from the Moon? The Earth's sky would look like that.

All unprotected plant and animal life on the Earth's surface would die. We can't survive long in a vacuum, which is what we'd have if the atmosphere suddenly vanished. It would be much like being "spaced' or shot out of an airlock, except the initial temperature would be higher. Eardrums would pop. Saliva would boil. But you wouldn't die instantly. If you held your breath, your lungs would pop, which would be the quickest (albeit most painful) death. If you exhaled, you'd pass out in about 15 seconds and die in around three minutes. Even if you were handed an oxygen mask, you wouldn't be able to breathe. This is because your diaphragm uses the pressure difference between the air inside your lungs and outside your body to inhale.

Let's say you have a pressure suit and air. You'd live, but you'd get a massive sunburn on exposed skin because the Earth's atmosphere is what filters solar radiation. It's hard to say how much trouble you'd be in from this effect on the dark side of the planet, but being in direct sunlight would be severe.

The rivers, lakes, and oceans would boil. Boiling occurs whenever vapor pressure of a liquid exceeds external pressure. In a vacuum, water readily boils, even if the temperature is warm. You can test this yourself.

Although water would boil, the water vapor would not fully replenish the atmospheric pressure. An equilibrium point would be reached where there would be enough water vapor to prevent the oceans from boiling off. The remaining water would freeze.

Eventually (long after surface life had died), solar radiation would break atmospheric water into oxygen, which would react with carbon on the Earth to form carbon dioxide. The air would still be too thin to breathe.

The lack of atmosphere would chill the Earth's surface. We're not talking absolute zero cold, but the temperature would drop below freezing. Water vapor from the oceans would act as a greenhouse gas, raising the temperature. Unfortunately, the increased temperature would allow more water to transition from the sea into the air, likely leading to a runaway greenhouse effect and making the planet more like Venus than Mars.

Explanation:

Organisms that need air to breathe would die. Plants and land animals would die. Fish would die. Most aquatic organisms would die. However, some bacteria could survive, so losing the atmosphere wouldn't kill all life on Earth. Chemosynthetic bacteria wouldn't even notice the loss of atmosphere.

Volcanoes and geothermal vents would continue to pump out carbon dioxide and other gases to add to the water. The most significant difference between the original and new atmosphere would be the much lower abundance of nitrogen. Earth could replenish some nitrogen from meteor strikes, but most of it would be lost forever.

Could Humans Survive?

There are two ways human beings could survive losing the atmosphere:

Build radiation-shielded domes on the Earth's surface. The domes would need a pressurized atmosphere and would need to support plant life. We would need time to build biodomes, but the result would not be much different from trying to survive on another planet. Water would remain, so there would be a source of oxygen.

Build a dome under the sea. The water could provide pressure and filter out some solar radiation. We wouldn't want to filter out all radiation because we'd probably want to grow plants (though maybe it would be possible to learn some tasty ways to prepare bacteria as food).

Answer:

1.sensory organs

4.evaporation

12.wire

Carmen can anticipate a 5–6 mmHg drop in her systolic blood pressure if she faithfully adheres to the Dash eating plan.

In most cases, high blood pressure is symptomless. Before making a decision, he or she will have at least two readings at different times.

The pressure at which the heart pumps blood through the arteries is known as blood pressure. There are two cardiac blood pressures: diastolic and systolic blood pressure because the blood flow through the heart and arteries is pulsatile. A 120 mmHg systolic pressure is considered normal.

The blood pressure between heartbeats is known as diastolic blood pressure (when the heart is not active, or relaxed). About 80 mmHg is the average diastolic blood pressure.

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Answer:

D

Explanation:

Ways in which special relationships affect the food web are feeding relationships and energy flow in an ecosystem.

A food web illustrates how nutrients and energy move through an ecosystem. The most basic producers of energy are plants, and higher-level organisms like herbivores subsequently use that energy. When the carnivores consume the herbivores, energy is subsequently passed from one to the next.

Abiotic variables like latitude and temperature can have an impact on the biotic aspects of a food web, such as the number of species, the number of links, and the percentage of basal or top species. These biotic components may then have an impact on a network's trophic, connective, or omnivory levels.

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The range hood filter can go in the dishwasher.

Rangehood filters may be properly cleaned in a washer and function best when placed on a very shows higher for pots and pans, as demonstrated by the cleaning tip above.

Make a solution of dish soap & baking soda in hot water as an alternative. The hood filters should soak in the solution for ten to fifteen minutes. Scrub the filters with a non-abrasive scrubby brush to get rid of any last bits of oil. Your filters should be washed and dried.

Metal grease filters are now found in the majority of range hoods. These filters are dishwasher-safe and machine-washable. Degreaser should be sprayed onto the grease filters after removing them from the range hood. Give the degreaser 10 minutes to soak.

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Answer: D. Only meiosis results In a reduction In chromosome number.

Explanation:

I got it correct on the test

Blood pressure is defined as the pressure that is exerted by the blood on the blood vessel, and the normal adult has a blood pressure of 120/80 mmHg, where 120 is the systolic pressure and 80 is the diastolic pressure.

Blood pressure varies depending on gender, health, and other factors, and the normal blood pressure is 120/80. If the blood pressure goes beyond 120, it is not normal, and if it goes below 80, it is also not a healthy sign.

Hence, blood pressure is defined as the pressure that is exerted by the blood on the blood vessel, and the normal adult has a blood pressure of 120/80 mmHg, where 120 is the systolic pressure and 80 is the diastolic pressure.

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The main advantage of using STR (short tandem repeat) analysis over RFLP (restriction fragment length polymorphism) is that STRs are much easier to detect and genotype due to their small size and higher mutation rates. Additionally, STRs are more common in the human genome, allowing for a more accurate comparison of related individuals.

The advantages of using STR (Short Tandem Repeats) over RFLP (Restriction Fragment Length Polymorphism) are as follows:

In conclusion, STR analysis is a faster, more sensitive, and more versatile method for analyzing DNA than RFLP analysis.

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Answer:

Cast fossils occur when mold fossils are filled in with minerals that harden over time, creating a fossilized replica of the original organism. Water seeps through the rock surrounding the mold fossil, leaving behind minerals which fill the mold. Any mold fossil can potentially form a cast mold.

Explanation:

Answer:

Cast fossils occur when mold fossils are filled in with minerals that harden over time, creating a fossilized replica of the original organism. Water seeps through the rock surrounding the mold fossil, leaving behind minerals which fill the mold. ... Any mold fossil can potentially form a cast mold

Explanation:

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A scientist designed an experiment to test the effect of temperature on bacterial growth. The independent variable in this experiment was temperature.

The outcomes display that microbes have a better increase price at 20, 25 and 30°C and 30°C than at 3°C. In general, an boom in temperature will boom enzyme pastime. But if temperatures get too excessive, enzyme pastime will reduce, and the protein (the enzyme) will denature.

General, the better the temperature, the greater without problems microorganisms can develop as much as a sure point. Very excessive and coffee temperatures each impede the enzyme strategies microorganisms rely on to survive.

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