Semelparity is encouraged in situations that are highly variable and unpredictable and is related with mass reproduction. Typically, only a small percentage of offspring survive and they mature sexually quickly.
After their first reproduction, many plant and animal species experience extinction. Semelparity refers to this, and iteroparity refers to its opposite (which involves continuing to reproduce). As an alternative to semelparity and iteroparity in plants, the terms monocarpy and polycarpy are occasionally employed. However, the term "monocarpy" can also be used more narrowly to refer to plants in which specific shoots, but not always the entire plant, die after reproduction. Annual and biennial plants, specific insect species, and a variety of spider species are examples of short-lived semelparous species. All annual plants are semelparous, but not all perennial plants are iteroparous, which is an important distinction to make.
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what is the correct procedure for residual bleach testing after chemical disinfection of distribution loops and equipment fluid pathways?
Any color (ideally clear) on the appropriate testing strips indicating 0.5 ppm or less.
Make a 1:100 bleach solution by combining 1 teaspoon household bleach with 2 cups water to clean surfaces and non-treatment goods. To clean dialysis equipment, combine 1 part household bleach and 10 parts water.
The two most prevalent methods for accomplishing this are as follows: passing the acidic water through a bed of neutralizing material (i.e. calcite or magnesium oxide). Direct injection of a liquid chemical solution into water (i.e. soda ash injection).
The two most prevalent methods for accomplishing this are as follows: passing the acidic water through a bed of neutralizing material (i.e. calcite or magnesium oxide). Direct injection of a liquid chemical solution into water (i.e. soda ash injection).
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How are perceptions altered by expectations, motives, emotions and learning? Consider culture and a persons experience
The process by which our brain interprets data from our senses, such as touch, smell, and sight, is known as perception.
Being a subjective perception, this is influenced by a number of higher brain functions, including our expectations or motivations—that is, whether we desire to perceive anything or anticipate to perceive something in particular. For instance, it is not the same to drink a beverage whose flavor we are familiar with; instead, when we drink a new flavor, we tend to notice it more clearly and to compare it to earlier mental models. Emotions affect perception because our state of mind impacts how we will interpret what we are taking in. For instance, if we are upset and hear criticism out of the blue, we may interpret it differently.
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What are the two types of isolation in speciation?
When two populations that can interbreed are isolated behaviorally. Geographic isolation happens when two populations are divided by physical obstacles.
A species' conduct during mating rituals and signals is the basis for behavioral isolation, which is reproductive seclusion. It also goes by the name of ethological isolation and happens when two populations are able to interbreed but choose not to do so due to variations in their courtship behaviors. One of the many cues to the intricate courtship rituals of their search-courting-mating process, such as breeding calls (auditory stimuli), mating dances (visual stimuli), pheromones (chemical stimuli), etc., can be noticed in these distinctions. Behavior isolation stops individuals from wasting time and energy courting, mating, and hunting for partners who will not result in fruitful offspring, which is essential for the survival of the species.
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true or false: tomatoes are best eaten raw, because cooking tomatoes destroys most of the nutrients and phytochemicals. true false question. true false
tomatoes are best eaten raw, because cooking tomatoes destroys most of the nutrients and phytochemicals. it is a false statement because tomatoes does not lost its major phytochemicals while cooking.
Tomatoes are technically fruits because they fit the botanical definition of one: they are the fleshy parts of a plant that surround its seeds. Tomatoes, on the other hand, are considered a vegetable for nutritional and culinary purposes due to their flavor, use in meals, and nutrient content. Tomatoes are low in calories and high in nutrients like vitamin C and potassium. They're also high in antioxidants, including lycopene, which is responsible for tomatoes' distinctive color and has been linked to a variety of health benefits, including a lower risk of heart disease and certain cancers. Tomatoes in a variety of forms, including fresh, cooked, and juice, have been shown in studies to help protect against chronic diseases and support a physically active lifestyle.
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How many days can humans live without water?
the body requires a lot of water to maintain internal temperature balance and keep cells alive.In general a person can survive for about three days without water.
If the haploid number for a species is 3, each dividing diploid cell will have how many chromatids at metaphase?a. 3 b. 6 c. 9d. 12 e. 18
Each dividing diploid cell will have 12 chromatids at metaphase in mitosis if the haploid number for a species is 3. d)12
One of a chromosome's two identical halves that has been replicated in order to get the cell to divide is called a chromatid. A chromosomal region known as the centromere is where the two "sister" chromatids are fused. Spindle fibres join to the centromere during cell division and pull the sister chromatids to the opposing sides of the cell. Following this, the cell divides in two, producing daughter cells with the same DNA.Chromatid. In order to replace damaged cells that cannot be healed or proliferate, cell replication is crucial. The cells present when a cut on your skin heals are a good illustration of this. Similar to the old cells, the new cells are also identical. Your chromosomes, which contain the genetic material that determines who you are, must be replicated and sent to every new cell as a part of cell replication. It is possible to carefully separate these chromosome copies, known as chromatids, into new daughter cells while still preserving the right number of chromosomes in each cell.
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Which correctly describes the role of histones in eukaryotic cell division?
1.histones copy the dna before division begins.
2.histones protect the ends of chromosomes.
3.histones connect sister chromatids.
4.histones keep the dna compact and organized.
Histones keep the DNA compact and organized describes the role of histones in eukaryotic cell division.
What is eukaryotic cell?Eukaryotes are creatures with nuclei in their cells. Eukaryotes include include animals, plants, fungi, and many unicellular creatures. They are members of the Eukaryota or Eukarya group of organisms, which is one of the three domains of life. The other two domains are Bacteria and Archaea. Eukaryotes are creatures with nuclei and other membrane-bound organelles. Eukaryotic creatures include all mammals, plants, fungi, and protists, as well as the majority of algae. Eukaryotes can be single-celled or multicellular in nature. Other membrane-bound organelles seen in eukaryotic cells include mitochondria and the Golgi apparatus. Chloroplasts can be found in plants and algae. Prokaryotic cells may contain primitive organelles.
Here,
Histones maintain DNA compact and ordered, which characterizes histones' role in eukaryotic cell division.
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As a population approaches carrying capacity, environmental resistance __________.
A. remains constant
B. cannot be determined from the graph
C. increases
D. decreases
As a population approaches carrying capacity, environmental resistance
c) increases
A circuit's opposition to current flow is measured by its resistance.
The Greek letter omega () stands for ohms, which are used to measure resistance. Georg Simon Ohm (1784–1854), a German physicist who examined the connection between voltage, current, and resistance, is the subject of the name "Ohm." He is credited for coming up with Ohm's Law.
To some extent, all materials obstruct current flow. They can be broadly divided into two categories:
Conductors are substances that have extremely little resistance and allow electrons to pass freely. Examples include gold, silver, copper, and aluminum.
High resistance materials that impede the flow of electrons are known as insulators. Examples include plastic, rubber, glass, paper, and rubber.
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Your brain uses the _____ to process and manage stress responses.
Answer:fruntalope
Explanation:
In which two phases of mitosis does the nuclear membrane appear or disappear?
The nuclear membrane disappears during prophase and does not reappear until metaphase. It reappears during mitosis in the telophase. The nuclear membrane disappears during prophase and does not reappear until metaphase. It reappears during mitosis in the telophase.
It is a type of cell division in which two daughter cells are formed, each with the same number and type of chromosomes as the parent nucleus.
Mitosis occurs in four stages: prophase, metaphase, anaphase, and telophase.
Prophase and telophase are the two phases of mitosis in which the nuclear membrane disappears and reappears.
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A botanist used a Punnett Square to calculate the percentage of phenotypes they should see in their latest generation of flowers. Their predictions estimated that 75% of their crop should have the dominant phenotype and 25% should have the recessive. However when they check their plants, they find that only 50% had the dominant and 50% had the recessive. What could be the reason for this?
Answer:
The reason for the discrepancy between the Punnett Square predictions and the actual results could be due to the presence of genetic linkage, which is when two or more genes that are located close to each other on the same chromosome tend to be inherited together more often than expected by chance. Another possibility is that the plants were not randomly mating, which would alter the expected ratio of genotypes and phenotypes. Finally, mutation could also be the cause, as it can lead to new genetic variants that were not accounted for in the Punnett Square predictions.
Explanation:
There could be a few reasons why the botanist's predictions did not match the actual results:
Environmental factors: Environmental factors such as temperature, light, or disease can influence the expression of certain genes and affect the phenotype of the flowers.
Genetic drift: Genetic drift is a random fluctuation in allele frequencies that can occur in small populations. This can cause a deviation from the expected Mendelian ratios.
Mutation: Mutation is a change in the DNA sequence that can result in a new allele, which can affect the phenotype of the flowers.
Non-Mendelian inheritance: Some genes exhibit non-Mendelian patterns of inheritance such as incomplete dominance, codominance, or epistasis, which can affect the phenotype of the flowers.
Sampling error: The botanist might have taken a small sample of flowers for observation, and the sample might not be representative of the whole population, leading to different results than expected.
It is important to consider that genetic factors are complex and can be influenced by various factors, and the exact cause of the discrepancy between the predictions and the actual results would require further investigation.
The results of the Meselson-Stahl experiments relied on all of the following except _______.
a) a cesium chloride gradient
b) that a heavy isotope of nitrogen could be incorporated into replicating DNA molecules
c) the fact that DNA is the genetic material
d) a means of distinguishing among the distribution patterns of newly synthesized and parent molecule DNA possible
The correct option is C ; The fact that DNA is the genetic material. Meselson and Stahl's work revealed that DNA reproduced semi-conservatively.
which means that each strand in a DNA molecule acts as a template for the production of a new, complementary strand.
There would be two bands in the first generation, one low density and one heavy density. There would still be two bands in the second generation, one for low density and one for heavy density.
Meselson and Stahl chose nitrogen because it is a necessary chemical component of DNA; hence, when a cell splits and its DNA duplicates, it integrates additional N atoms into the DNA of either one or both of its two daughter cells, depending on which model was right..
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what information can be deduced from a pedigree? select the two answers that are correct.
O the probability of parent or grandparent being infertile O the probability that Y-chromosome analysis will prove paternity O how an X-linked trait is passed down over generations O the probability of female being carrier of an X-linked allele O how autosomal traits contribute to X-linked traits
Options A and B, the probability of a female being a carrier of an X-linked allele and how an X-linked trait is passed down over generations
A pedigree is a chart that shows the inheritance of a trait over several generations.
By analyzing a pedigree, it is possible to deduce information about the genetic makeup of family members and the probability of certain individuals being carriers of a particular allele.
Pedigrees can be used to identify X-linked traits, which are traits that are controlled by genes located on the X chromosome. X-linked traits are inherited differently than autosomal traits, and pedigrees can help to determine the probability of a female being a carrier of an X-linked allele and how an X-linked trait is passed down over generations.
However, it cannot be used to determine the probability of a parent or grandparent being infertile or how autosomal traits contribute to X-linked traits or the probability that Y-chromosome analysis will prove paternity.
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you have seen that 1/4 of offspring resulting from two heterozygous parents are homozygous recessive. yet for some genes, the recessive allele is more common in the population. explain why this might be.
The dominant gene may interfere with the organism's ability to reproduce, but not completely prevent it
What is heterozygous and homozygous?Homozygous and heterozygous are terms that are used to describe allele pairs. Individuals carrying two identical alleles (RR or rr) are known as homozygous. While individual organisms bearing different alleles (Rr) are known as heterozygous.If you have two copies of the allele for blonde hair, you are homozygous for that trait. Having one copy of the allele for blonde hair and one copy of the allele for brown hair makes you heterozygous for hair colorAn organism can be homozygous dominant, if it carries two copies of the same dominant allele, or homozygous recessive, if it carries two copies of the same recessive allele. Heterozygous means that an organism has two different alleles of a geneTo learn more about heterozygous and homozygous refers to:
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Sort the terms into the appropriate category of either oxygen-poor or oxygen-rich.
Oxygen poor: superior vena cava, right atrium, right ventricle, pulmonary arteries
Oxygen rich: pulmonary veins, left atrium, left ventricle, aorta
The elements listed as oxygen-poor and oxygen-rich are:
- Oxygen-poor:
superior vena cavaright atriumright ventriclepulmonary arteries.- Oxygen-rich:
pulmonary veinsleft atriumleft ventricleaorta, and aorta.The oxygen content of the blood is determined by the overall balance between oxygen-rich and oxygen-poor elements. Oxygen-rich blood is typically found in the pulmonary veins, left atrium, left ventricle, aorta, and aorta. This blood is rich in oxygen because it has just passed through the lungs where it has been exposed to oxygen-rich air.
On the other hand, oxygen-poor blood is typically found in the superior vena cava, right atrium, right ventricle, and pulmonary arteries. This blood has not been exposed to the oxygen-rich air of the lungs and thus is relatively poor in oxygen content. The overall balance between these two elements is important for the proper functioning of the cardiovascular system.
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using the agricultural hearths map, observe that in sub-saharan africa, a. coffee was most likely the earliest domesticated crop. b. more animals than plants were domesticated throughout history. c. no crops were known to have been domesticated from 7,000 to 9,000 years ago. d. most domestications occurred during the first period. e. there was little to no dispersal of crops from sub-saharan african to other parts of africa.
By using the agricultural hearths map, it is observed that in sub-saharan Africa; no crops were known to have been domesticated from 7,000 to 9,000 years ago. Also more animals than plants were domesticated throughout history.
What is agricultural hearths map?This map of agricultural hearths shows various hearths and potential changes in farming methods over a period of time. The spread of crops along various trade routes over time provides proof that trade was the main factor in the spread of agriculture in earlier even contemporary world.
Example of such trade routes is the very famous silk route.
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A scientist isolates some mRNA from one gene and compares its sequence to that of the gene from which it was copied. Where will the mRNA be found to end? A. at the promoter B. at an intron C. at the stop codonD. at an enhancer
One gene's mRNA is isolated by a scientist, who then contrasts its sequence with the gene from which it was copied. The stop codon in the mRNA can be discovered at the conclusion.
One kind of single-stranded RNA involved in the production of proteins is known as messenger RNA (abbreviated mRNA). The transcription process produces mRNA from a DNA template. The purpose of mRNA is to carry information about proteins from DNA in the cell's nucleus to the cytoplasm, or aqueous interior, where the machinery that makes proteins scans the sequence of mRNA and turns each three-base codon into an amino acid that belongs in a protein chain.
In DNA or messenger RNA (mRNA), a stop codon is a trinucleotide sequence of three nucleotides that instructs the cell to stop production of proteins. What a period is to a sentence, a stop codon is to the process of making proteins. Three of the 64 trinucleotide codons are stop codons, while 61 of them designate amino acids.
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the polymer of the macromolecule that is made in the ribosome
The macromolecule produced by the ribosome is a polymer consisting of α-L-amino acids.
Backbone-extended monomers' poor compatibility with the translation apparatus makes ribosome-mediated polymerization of these monomers into polypeptides difficult. A further bottleneck is the methods used to acylate (or charge) these monomers in order to create aminoacyl-tRNA substrates. The ribosome and related components for protein biosynthesis, which make up the cellular translation system, catalyze the synthesis of sequence-defined polymers (polypeptides) using a variety of amino-acylated transfer RNA (tRNA) substrates and a predetermined coding template (messenger RNA). The potential diversity of polymers that can be generated is constrained in nature because this method only uses a small number of α-L-amino acid monomers.
However, efforts to increase the genetic code have demonstrated that the natural translation system is capable of selectively adopting a wide variety of non-canonical monomers over the past 20 years.
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Using the development of cell theory as an example, make a claim for how
science influences technology and how technology influences science.
Techniques such as lenses, magnifiers, and microscopes have influenced the development of cell theory. Below are examples of how such techniques have contributed to cell theory.
Robert Hooke is credited with observing the first cells in 1665. At the time, Robert Hooke was studying cork cells using a microscope.
In 1670, Antoni van Leeuwenhoek was credited as the first scientist to discover pond life. He found it using a lens.
Robert Brown (1773-1858) used the microscope to discover cell nuclei.
More recently, the development of light and electron microscopy has enabled scientists to see living cells and molecules within cells, respectively.
Cell theory is a scientific theory that explains the basic properties of cells. Cell theory states that cells are the smallest unit of life, that cells can only arise from other living cells, and that all living things are made of cells.
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describe the interaction between the cardiovascular system and the respiratory system. make sure to include the words hemoglobin and carbon dioxide as well as relevant anatomy you have learned in this lesson.
The respiratory system is in charge of supplying oxygen to the blood and removing carbon dioxide.
When the heart receives blood that is low in oxygen and high in carbon dioxide, it pumps it to the lungs via the pulmonary arteries. When the lungs expand and take in fresh air from the environment, oxygen is transferred into the low-oxygen blood, which then sends some of its carbon dioxide back into the lungs. Now that this blood contains fresh oxygen and hemoglobin, it returns to the heart, and the heart distributes it throughout the body.
In such a way interaction between the cardiovascular system and the respiratory system
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if a brown-eyed man marries a blue-eyed woman and they have ten children, all brown-eyed, can you be certain that the man is homozygous? if the eleventh child has brown eyes, what will that show about the father's genotype?
Answer:
No, you cannot be certain that the man is homozygous, as his genotype could also be heterozygous (Bb). If the eleventh child has brown eyes, this will indicate that the father is either homozygous (BB) or heterozygous (Bb). In this case, it is not possible to determine his genotype with certainty.
ligament primarily checks posterior tilt of the pelvis and lies anterior and superiorly to the hip joint?
The iliofemoral ligament checks posterior tilt of the pelvis and lies anterior and superiorly to the hip joint.
Ligaments are the fibrous connective tissues present in the body that perform the function of attaching the bones with each other. Ligaments are necessary to hold the body structures firmly at their place. They are more prominently present at the joints.
Pelvis is the region of the body present below the abdomen area. It is comprised of the hip bones and organs like bladder and the rectum. The pelvis serves various functions like the locomotion, supporting the abdominal organs and it helps in childbirth in females as well.
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calculate the efficiency of cellular respiration if a cell generates 32 atp molecules per molecule of glucose.
When a cell produces 32 atp molecules for every glucose molecule, the efficiency of cellular respiration is 84.2%.
How to calculate the efficiency of cellular respiration ?The efficiency of cellular respiration can be calculated by determining the amount of energy produced from the amount of energy used in the process.The energy obtained from breaking down glucose is calculated by subtracting the energy required to break down glucose from the total energy released from the oxidation of glucose. The energy produced from cellular respiration is released in the form of ATP, which is the energy currency of cells.The amount of ATP produced can be calculated by measuring the amount of oxygen consumed. The efficiency of cellular respiration is determined by dividing the amount of energy released by the amount of energy used in the process.32 ATP molecules / 38 ATP molecules (the maximum possible yield from one molecule of glucose) = 0.842 or 84.2%.
So, in this case, the efficiency of cellular respiration is 84.2%.
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what is the probability that a purebred monohybrid, dihybrid, three-factor cross or higher will lead to the expression of dominant phenotypes in first-generation offspring?
Each resulting genotype in the first generation of a purebred cross with any number of genes involved will be heterozygous for the genes, and each child will therefore exhibit the dominant trait.
What is heterozygous?The existence of two unique alleles at a specific gene locus. One normal allele, one mutant allele, or two separate mutant alleles may be present in a heterozygous genotype (compound heterozygote). You have a heterozygous genotype for that gene if the two copies differ.You may be heterozygous for hair colour if, for example, you have one gene for red hair and one allele for brown hair.Which qualities are expressed depends on the interaction between the two alleles. Heterozygous (Aa) individuals are not healthy carriers. Similar to homozygous dominant (AA) persons, they also have the condition despite appearing to be completely normal. Genetic counsellors frequently employ Punnett squares in their work.To learn more about heterozygous, refer to:
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a quality control program is to be set up for the following tests: phenylalanine deaminase (pad) indole production voges-proskauer (v-p) which pair of stock culture organisms would be most suitable to verify the performance of these three tests?
Klebsiella pneumonia and Proteus vulgaris would be MOST suitable to verify the performance of these three tests.
K. pneumonia = PAD -, indole -, VP +
P. vulgaris = PAD +, indole +, VP -
What is quality control program ?Quality control (QC) is a method or group of methods used to make sure that a service or product is made in accordance with a predetermined set of quality criteria or that it satisfies the needs of the client or customer. QC and quality assurance are related yet distinct from one another (QA).
Prior to disclosing patient results, a laboratory's internal analytical process is subject to quality control measures that are intended to identify, minimise, and correct any flaws. This will increase the accuracy of the results the laboratory reports.
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which is not considered a sex-linked trait?purple flower color in pea plantseye color in fruit fliesred-green color blindness in humanshemophilia in humans
In pea plants, the gene for purple petal color is not carried by a sex chromosome. As a result, it is not a sex-linked trait.
A sex-linked trait is a feature of an entity whose genes are found on the sex chromosome. Eye color in fruit flies, red-green color blindness in humans, and hemophilia are all sex-linked genetically inherited diseases since their genes are carried on the same chromosome.
Sex-linked qualities are those that are influenced by genes on the sex chromosomes. Because the X and Y chromosomes differ, men and females may have different inheritance patterns for certain features. Color blindness, which is more common in men, is an example of a sex-linked trait.
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Fill in the blank: the variable that is observed and measured in an experiment is the ________.
a) independent variable
b) dependent variable
c) controlled variable
d) experimental variable
The variable that is observed and measured in an experiment is the (b) dependent variable.
What is meant by experiment?An experiment is a technique used to confirm or deny a hypothesis, as well as assess the likelihood or effectiveness of something that has never been tried before.
Experiments show what happens when a specific factor is modified, which sheds light on cause-and-effect relationships.
The purpose and scope of experiments vary widely, but they all rely on a repeatable process and a logical examination of the outcomes.
Natural experimental experiments are also a thing.
While a youngster may conduct simple experiments to better grasp how objects fall to the ground, scientific teams may spend years conducting thorough research to increase their understanding of a phenomenon.
In the scientific classroom, experiments and other hands-on activities are crucial to students' learning.
A variable is an element or circumstance that can change or take on different values in a scientific experiment or study. The variable being measured, observed, and whose changes are being examined in relation to the independent variable is the dependent variable. The variable that the researcher is manipulating or controlling and whose impact on the dependent variable is being investigated is known as the independent variable.
The explanation of variable or dependent variable are:Temperature, for instance, would be the independent variable and plant growth, the dependent variable in a study looking at how temperature affects plant growth. The temperature would be changed (for example, some plants would be kept at a warm temperature while others were kept at a lower temperature), and the researcher would measure the growth of the plants to determine how the temperature influenced it.
The independent variable is typically something the researcher can influence, whereas the dependent variable is something the researcher can track and quantify.
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Which of the following routes correctly describes the path air would take from your nose into your body?
a. nose, trachea, pharynx, bronchus, bronchiole, alveolus
b. nose, trachea, pharynx, bronchiole, bronchus, alveolus
c. nose, pharynx, trachea, bronchus, bronchiole, alveolus
d. nose, pharynx, trachea, bronchiole, bronchus, alveolus
Option c is correct: nose, pharynx, trachea, bronchus, bronchiole, alveolus.
Air enters the respiratory system through the nose or mouth and travels to the lungs via a pathway. The air in the nostrils is warmed and moistened. Cilia (SIL-ee-uh) are tiny hairs in the nose that filter out dust and other particles.
The nasal cavity and mouth connect at the pharynx, which is located in the back of the throat (FAR-inks). Because it transports both air and food, the pharynx is a part of two body systems (the respiratory system and the digestive system).
Two pipes split off at the bottom of the pharynx, one for air and one for food. The larynx is an air-only pipe. It's also known as the voice box because it houses a pair of vocal cords, which vibrate to produce sounds when you speak. (The other pipe, known as the esophagus, is the pathway that transports food to the stomach.) The epiglottis (eh-pih-GLAH-tus) is a small flap of tissue that protects the larynx. When we swallow, the epiglottis protects the larynx from food and liquid entering the lungs.
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The data show that mice that the color of the soil are attacked more often than mice that . This the hypothesis that fur color is an adaptation in mice, because mice that avoid detection by predators are more likely to
According to the results, mice whose soil color matches theirs are attacked more frequently than mice whose dirt does not. According to this theory, mice's fur color is an evolutionary adaptation because they have a higher chance of surviving and procreating if they can hide from predators.
This data supports the hypothesis that fur color is an adaptation in mice because it suggests that mice with fur that matches the color of the soil are less likely to be attacked by predators. This is because they are better able to blend in and avoid detection.
Mice that have fur that does not match the color of the soil are more likely to be seen by predators and are therefore at a greater risk of being attacked. This increased likelihood of survival and reproduction in mice with fur that matches the color of the soil is consistent with the idea that fur color is an adaptation in mice.
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1-¿en la meiosis ocurren dos divisiónes celulares?
2-¿la meiosis es una forma de reproducción celular?
Answer:
1. The two cell cycles that occur in meiosis are meiosis 1 and meiosis 2. The phases are interphase, prophase, metaphase, anaphase, and telophase.
2. Meiosis is a form of sex cell reproduction. Mitosis makes body/skin cells.
Explanation:
