The trachea needs to be rigid but the esophagus does not. why is this

A quaternary consumer species would be expected to have a smaller population than a secondary consumer species is true.

Quaternary consumers are usually top predators within the environment, and they eat the tertiary consumers.

Examples of quaternary consumers contains lions, wolves, polar bears, humans, and hawks.

Organisms may work under various roles, such as a bear that eats fish but also berries.

Thus, this statement is true, Quaternary consumers are usually top predators within the environment.

To learn more about  quaternary consumer click here;

https://brainly.com/question/2688668

#SPJ2

Answer:

The answer is B

Explanation:

The small piece of a DNA molecule contains no base pairing errors:

T goes with A __ C goes with G __ G goes with C

B. TCTCG

   AGAGC

TCT CG

AGA GC

contains no base-pairing errors.

Thus, we can conclude that option B is correct.

You can learn more about base pairing here:

https://brainly.com/question/3372278

#SPJ2

Answer:

In my opinion, people smoke because they're "crazy" and need some "help."

They smoke maybe because the cigar is "good" or something...

The physical characteristics of an organism are known as its phenotype, which is determined by its genotype and the interaction with its environment. Genetics is the study of these features, while heredity refers to the passing on of these genetic traits. The physical characteristics of an organism are its c

The physical characteristics of an organism are its c. phenotype. The term 'phenotype' refers to the observable physical properties of an organism. These could include traits like color, shape, size, and behavior, among others. These characteristics are determined by the interaction of an organism's genotype, which is the set of genes it carries, and the environment. Genetics is the study of genes, genetic variation, and heredity in organisms. Heredity is the passing of genetic traits from parents to offspring. However, it is not the physical characteristics, but the genetic information passed on.

https://brainly.com/question/32443055

#SPJ6

Answer:

Touching, Smelling.

Explanation:

Touching will be useful to detect stimuli like coldness and hotness.

Smelling on the other hand will help to make observations on smell and change in smell. These two are among the five senses that we use to make observations as we record what we see, hear, touch and feel, smell and taste.  

Talking, touching, walking, and smelling can all be used to make observations.

When making observations, we use our senses to gather information. In this case, talking, touching, walking, and smelling are all methods that can be used to make observations.

For example, if you are observing a flower, you can talk about its color or smell, touch its petals to feel their texture, and walk around it to observe its shape and size.

Therefore, the correct answer is that all of the options listed can be used to make observations.

https://brainly.com/question/14897780

#SPJ3

Answer:

C. directional selection

Explanation:

If individuals at one end of the curve have a higher fitness, it is called directional selection.

Answer:

The correct option is B.

Explanation:

The options attached to the question are given below:

A. They keep the planet warm enough for living things to survive

B. Nutrients and other life-sustaining molecules are in limited supply and must be continually recycled

C. Energy flows through ecosystems in one direction only and is eventually dissipated as heat

D. They remove poisons and keep them locked up in "sinks"

 Biogeochemical cycles refers to the pathways by which chemical substances move through the abiotic and biotic segments of the earth. The most important biogeochemical cycles include: carbon, nitrogen, phosphorus, oxygen and water cycles. Biogeochemical cycles transport and store important substances so that they can be available for the use of living organisms.  

Biogeochemical cycles are very crucial to living organisms because they help to recycle nutrients and other life sustaining molecules, which are in limited supply and which must be continuously recycled.

Biogeochemical cycles are crucial to ecosystem function because they involve the recycling of essential elements between living organisms and their nonliving environment. Understanding these cycles is important for the health of the Earth and its ecosystems. Human activities that disrupt these cycles can damage ecosystems and potentially cause global climate change.

Biogeochemical cycles are crucial to ecosystem function because they involve the recycling of essential elements between living organisms and their nonliving environment.

For example, the movement of water is critical for the leaching of nitrogen and phosphate into rivers, lakes, and oceans.

https://brainly.com/question/31621334

#SPJ11

Answer:

C. Prokaryotic poly-A tails have other functions, because prokaryotes don't have nuclei.

Explanation:

In eukaryotes, the poly-A tails help in import of mRNA from cytosol to nucleus with the help of proteins named as importins and then export of mRNA from nucleus to cytosol with the help of proteins named as exportins. In prokaryotes they serve the function of mRNA degradation instead. In prokaryotes, mRNA doesn't need to be imported and exported because they do not have a well defined double membranous organelle named as nucleus. All of their genetic material lies in the cytosol in the form of nucleoid.

In eukaryotes,  poly-A tails serve many other functions apart from export and import like it imparts stability to mRNA, facilitates degradation of mRNA and increases translation efficiency by helping in circularization.

Answer:

The correct answer is option B. It breaks down carbon-based sugar molecules to release energy and forms carbon dioxide.

Explanation:

Hello!

Let's solve this!

In cellular respiration, oxygen is consumed to break down glucose molecules and form ATP. ATP is the energy that we then consume.

After the explanation, we conclude that the correct answer is option B. It breaks down carbon-based sugar molecules to release energy and forms carbon dioxide.

Oxygen's role in cellular respiration is as an electron acceptor in the electron transport chain, where it combines with electrons and hydrogen ions to form water while releasing energy used to generate ATP. Without oxygen, this energy production halts.

The role of oxygen in cellular respiration is primarily that of an electron acceptor in the electron transport chain. Hence, option A is correct. Through the process of cellular respiration, cells extract energy from nutrients and this energy is stored in ATP molecules. The final step in this process, the electron transport chain, requires oxygen. The role of oxygen is to combine with electrons and hydrogen ions to form water. This reaction releases energy that is used to form ATP. If oxygen is not present, the electron transport chain cannot function, and this halts ATP production, causing cells to run out of usable energy.

https://brainly.com/question/32872970

#SPJ6

Answer:

C. but the relative amounts of G+C and A+T vary by species.

According to Chargaff's rule guanine and cytosine are roughly same and the amount of adenine and thymine are also roughly same but the relative amounts of G+C and A+T vary by species.

The rule that in DNA there is always equality in quantity between the bases Adenine and Thymine and between bases Guanine and Cytosine. The second rule states that the amount of cytosine, guanine, adenine and thymine vary from species to species.

Therefore, option (c) is the correct answer.

To learn more about Chargaff's rule, refer here:-

https://brainly.com/question/19156457

#SPJ2

Answer: Everyone aboard

Explanation:

Answer:

Every person on the board

Explanation:

While going for boating for any purpose either recreational or work, all the individuals on the boat are required to have the access to following safety gears as per the norms of U.S. Coast Guard.

1. There must be access to life jackets/ flotation devices to each and every member on the board

2. Every member on the board must be aware of location and usage of fire extinguishers in times of emergency

3. Likewise visual and sound signaling devices must be accessible to everyone.  

Answer:

2) These currents help regulate air temperatures and, therefore, the global climate, counteracting the uneven distribution of solar radiation reaching Earth

Explanation:

The ocean currents are part of the hydrosphere. They receive warmth from the sunlight. They warm up at the lower latitudes, and cool off at the higher latitudes. The ocean currents are in constant movement though, and they warm up the higher latitudes, and cool down the lower latitudes. The warming up and cooling off of the temperatures goes through the radiation of energy from the ocean currents. That radiation goes to the air masses, thus there is a transfer of energy from the hydrosphere tot he atmosphere. This transfer of energy between these two spheres helps to balance and modify the climate around the globe.

The phrase that best describes a transfer of energy between the hydrosphere and the atmosphere is:

1) Ocean currents transport warm water from the equator to the poles and cold water from the poles to the tropics.

Option 1) "Ocean currents transport warm water from the equator to the poles and cold water from the poles to the tropics." best describes a transfer of energy between the hydrosphere and the atmosphere. Ocean currents play a crucial role in redistributing heat energy around the globe. Warm currents carry heat from the equator towards the poles, while cold currents transport cold water from the poles towards the tropics. This movement of water helps regulate air temperatures, influencing the climate on both regional and global scales. By transferring heat energy between the hydrosphere and the atmosphere, ocean currents play a significant role in shaping weather patterns and maintaining the Earth's overall climate balance.

Answer:

Staining is an important way to improve RESOLUTION AND CONTRAST.

Explanation:

Microscopy refers to the use of microscope. Microscope is a scientific optical instrument that is normally used to achieve in depth study of invisible and very tiny objects. There are many techniques in microscopy, these techniques are use to improve the type of view produce by the microscope.

Staining is one of the techniques that are used in microscopy. It involves adding color to the objects that one wants to view under the microscope. Both living and non living objects can be stained. The major reason for staining is to improve the visualization of the stained object under the microscope. The staining is done in such a way that different important structures will be highlighted.

There are two types of staining, they are simple and differential staining.

Staining enhances contrast and visibility of microscopic specimens, allowing for better observation of cellular structures. It is vital in overcoming light microscopy's limitations in resolution and helps differentiate cell types. Mastery of staining techniques ensures clear and useful microscopic images.

Staining is a fundamental technique in microscopy that significantly enhances the visibility of microscopic specimens. By creating a contrast between the organism and its background, staining allows for better observation and analysis of various cellular structures, sizes, and arrangements. Utilizing stains or dyes can also overcome limitations associated with resolution and contrast in light microscopy. When specimens are properly fixed and stained, they reveal detailed information on cell morphology and can be differentiated according to their unique chemical compositions. Mastery of staining techniques and knowledge of which stains are best suited for each specimen type are crucial for obtaining clear, useful images in microscopy.

For instance, basic staining requires the use of a single dye applied directly to the specimen (direct stain) or used to stain the surrounding area (negative stain), giving a clear image of microbial characteristics. More complex differential staining techniques can be used to differentiate between cell types or cell components and provide further insights into their structures.

Overall, the application of staining techniques in microscopy is vital for achieving the necessary contrast to visualize minute details of microbes and cells. A well-executed stain is critical for proper specimen examination and interpretation in fields such as microbiology and histology.

Answer:

Microtubules

Explanation:

These filament-like structures are a major component of the cytoskeleton of the cell and help is maintain asymmetrical cell shape. They are composed of tubulin molecules arranged to form a 'hollow straw' attached to the cell membrane end to end . The contraction and lengthening of these microtubules are controlled by the addition of removal these of tubulin molecules to vary its length.

In the case of elongated, tube-shaped cells from the lining of the intestine sagging and becoming rounded after treatment with a certain chemical, the internal structures likely disrupted are the microtubules. These structures are part of the cell's cytoskeleton and help maintain its shape, particularly in the case of columnar epithelial cells.

When elongated, tube-shaped cells from the lining of the intestine are treated with a certain chemical, the cells sag and become rounded. The internal structures disrupted by this chemical are probably microtubules.

Microtubules are part of the cytoskeleton of a cell, helping to maintain its shape and also serving crucial roles in intracellular transport and cell division. If they are disrupted, the cell can lose its form, leading to a rounded shape. The elongated, tube-shaped cells in the lining of the intestine, also known as columnar epithelial cells, have a stack of microtubules that maintain their elongated shape. Thus, a chemical treatment that disrupts the microtubules would cause the cells to lose their elongated form and become rounded.

https://brainly.com/question/32228632

#SPJ3

Answer:

I think it's intestines

Explanation:

Answer:

c. Bolus feedings infused into the stomach

Explanation:

Each osteon consists of lamellae, layers of compact matrix surround a central canal (the haversian or osteonic canal) which contains the bone's blood vessels and the nerve Fibre. Osteon in compact bone tissue are aligned in the same direction along lines of stress, helping the bone resist bending or fracturing.

Hope it's helpful...

The layers of bony matrix surrounding the vessels and nerve are called lamellae which are part of the structure of osteons in compact bone. The bone is covered by periosteum membrane externally, and internally by the endosteum lining the medullary cavity.

The term for the layers of bony matrix, or compact bone, that surround the vessels and nerve is called lamellae. Compact bone is organized into cylindrical structures known as osteons or Haversian systems. These osteons are composed of lamellae which are layered around a central canal, the Haversian canal. The Haversian canal contains the bone's blood vessels and nerve fibers. Osteocytes the cells of mature bone, occupy small cavities known as lacunae, found between the lamellae.

The outer surface of the bone is enveloped by a membrane known as the periosteum which contains blood vessels, nerves, and lymph vessels that nourish the compact bone. Tendons and ligaments are also attached to the bones at the periosteum. Within the bone the medullary cavity is lined with the endosteum where bone growth, repair, and remodeling occur.

https://brainly.com/question/32371194

#SPJ12

The central element for all living things is Carbon.

To know more about carbon, refer to: https://brainly.com/question/27929718

#SPJ2

Answer:

there is a good and bad effect on the world, the positive reason being economically. smoking is a great money maker it was worth US$88 billion dollars in 2018. the negative reason is the pollution and what it does to the human body such as cancer

Explanation:

Answer:

B) vascular tissue and seeds.

Explanation:

Both gymnosperms and angiosperms have vascular tissue that is specialized for transport of minerals, water, and organic compounds.

Both gymnosperms and angiosperms have seeds. The only difference is that angiosperms have seeds hidden in the fruit, while gymnosperms have seeds on the surface.

gymnosperms and angiosperms have vascular tissue and seeds. Thus option B is correct.

The angiosperms are vascular plants with seed containing fruits and it  flower which have reproductive organs and fruits.

The Gymnosperms are the plant which have the seeds on the sporophylls directly without cover.  

The lifecycle of angiosperm plants is seasonal but gymnosperm are evergreen in nature.

Angiosperm plants have  unisexual or bisexual flowers while  gymnosperm have cones and are unisexual.

In angiosperm the reproduction is animal dependent  where as in in gymnosperm reproduction is wind dependent  for spread.

Angiosperm have triploid tissue but gymnosperm have have haploid tissue.

In angiosperm the shape of the leaves are flat where as in gymnosperm plant the leaves are scale-like and needle-like.

Angiosperm plant products are used for Medications, food, clothing where as gymnosperm plant product are used for Paper, Lumber, etc.

Thus option B is correct.

Learn more about gymnosperms and angiosperms, here:

https://brainly.com/question/17011364

#SPJ6

Answer:

Reticular formation.

Answer:

Scientific method

Explanation:

The scientific method is a systematic process used by scientists to explore observations, formulate hypotheses, and conduct experiments to investigate questions about the natural world. This method includes steps such as observation, hypothesis formation, experimentation, and analysis of results. It is adaptable and applicable to many fields of study.

A series of steps that guide scientists to investigate questions about the natural world is known as the scientific method. This process is integral to the way scientists explore observations, develop hypotheses, and conduct experiments. It typically begins with an observation that leads to a question. Following this, scientists engage in background research to frame a hypothesis, which is then rigorously tested through experimentation. After data collection, the results are analyzed, leading to conclusions that can either support or refute the hypothesis. Importantly, the scientific method is adaptable and can be applied beyond traditional scientific disciplines, embodying a standardized approach to problem-solving and inquiry.

Answer:

A.) An air mass cannot transfer energy from one area to another

Explanation:

The air masses are constantly on the move. They can be warm and moist, or cold and dry, as well as hot and dry, all depending on the place above which they have formed. The air masses that form over warm, large bodies of water and warm and moist. The air masses that form over cold regions are cold and dry, and the air masses that form deeper into the continent in hot regions, are hot and dry. Because the air masses are constantly on the move, they manage to transfer their energy from one area to another, resulting in change of weather conditions as the energy is transferred.

The statement that an air mass cannot transfer energy from one area to another is not true. Air masses can and do transfer energy in ways such as conduction or radiation. The other choices accurately describe the properties of air masses.

The following statement is not true of air masses: A.) An air mass cannot transfer energy from one area to another.

Air masses have the ability to transfer energy from one area to another in two ways: Via radiation or conduction. For instance, warm air masses can move and transfer heat to cooler areas, thus transferring energy.

Moreover, options B and C: A large mass of air takes on the temperature and humidity characteristics of the land or water under it and an Air mass redistributes energy by moving from place to place respectively, are both true descriptions of the properties of air masses.

https://brainly.com/question/31826920

#SPJ6

Answer:

A

Explanation:

The reason the deletion of a nucleotide can be a lethal mutation is that it causes a frameshift mutation. This is due to teh fact that the codon sequence on the DNA is shifted by a single nucleotide. Therefore, the codons will read differently downstream from the place the deletion happened. The amino acids coded for by these codons will change too. The translated proteins will be defective and the organisms will be adversely affected, phenotypically.

The most dangerous mutation to a cell among the given choices would be the deletion of one nucleotide. This could result in a frameshift mutation, which can change every subsequent codon and potentially lead to a non-functional protein.

In the context of mutations and their potential harm to a cell, between the options of deletion of one nucleotide, deletion of three nucleotides, or substitution of one nucleotide for another, the most dangerous would likely be the deletion of one nucleotide.

Mutations including deletions or insertions can cause a frameshift mutation if the number of nucleotides added or deleted is not a multiple of three. For each set of three nucleotides, called a codon, corresponds to a single amino acid. A deletion of one nucleotide would shift the reading frame, potentially changing every subsequent codon and thus every subsequent amino acid in the sequence. This can result in a non-functional protein, and therefore, have significant detrimental effects on the cell.

In contrast, the deletion of three nucleotides (a complete codon), would only result in the loss of a single amino acid in the produced protein, which may or may not significantly impact the function of the protein. Similarly, while a substitution could potentially alter the amino acid specified by the affected codon, this is less deleterious than a frameshift mutation.

https://brainly.com/question/14067753

#SPJ11

Answer:

Ribose sugar

Explanation:

This sugar is differentiated from deoxyribose sugar of DNA by the 2’ carbon of the carbon ring. This carbon in ribose has a hydroxyl group while that of deoxyribose sugar does  not. When this ribose sugar is bonded with a nitrogenous base on the 1’ carbon and a phosphate on the 5' carbon, it becomes a ribonucleoside that is the basic unit of RNA.

The five-carbon sugar in RNA is called ribose. This sugar differs from the deoxyribose found in DNA by having a hydroxyl group on the 2' carbon. The ribose sugar, along with a nitrogenous base, contributes to the structure of RNA nucleotides which, unlike DNA, are single-stranded.

The five-carbon sugar in RNA is called ribose. The ribose sugar in RNA differs from the deoxyribose sugar in DNA in that ribose contains a hydroxyl group on the 2' carbon. Furthermore, the carbon atoms of this sugar molecule in RNA are numbered as 1', 2', 3', 4', and 5' (with 1' being read as 'one prime').

The phosphate component of RNA connects to the 5' carbon of the sugar via the formation of an ester linkage. This linkage involves an ester, which is an acid + an alcohol composed of the phosphoric acid and the 5'-OH group. The 2' carbon of ribose also contains a hydroxyl group. Moreover, the nitrogenous base in a nucleotide is attached to the 1' carbon of the sugar.

RNA nucleotides are essentially ribonucleotides, with ribose as the pentose sugar component and a nitrogenous base. These ribonucleotides form a single strand, with bases studded along the sugar-phosphate backbone. This single-stranded structure is what separates RNA from DNA, which typically exists as a double helix.

https://brainly.com/question/12820762

#SPJ6

Final answer:

Lipids are a diverse group of organic molecules including triglycerides, which consist of glycerol bonded to three fatty acids. Triglycerides are the main component of body fat and can contain either saturated or unsaturated fatty acids. Other lipid types include phospholipids and steroids, all vital to organism function.

Explanation:

Lipids are a diverse group of organic compounds that are insoluble in water but soluble in organic solvents. They play vital roles in living organisms and include substances like fats, oils, waxes, and steroids. One common type of lipid is the triglyceride, which is formed when a glycerol molecule combines with three fatty acid molecules. Glycerol is a sugar alcohol, a simple, sweet-tasting, non-toxic compound that is colorless and odorless.

Triglycerides are the primary constituent of body fat in humans and animals, and can also be found in plant-derived fats. They are important for storing energy and providing insulation. Triglycerides come in many varieties but can be broadly categorized into two types based on the fatty acids they contain: those with saturated fatty acids and those with unsaturated fatty acids. The unsaturated ones are commonly found in plant products and are associated with health benefits.

Other types of lipids include phospholipids and steroids, each of which has unique functions in the body. Phospholipids are essential components of cell membranes, while steroids, like cholesterol, serve as precursors to important hormones and have structural roles in cells.

An impact of rejoining the two halves of animals before speciation is completed is that: C. individuals could now freely mate, and gene flow would increase.

Speciation can be defined as an ecological and biological process through which new species of a living organism are formed, especially due to isolation of a part.

Based on genetics, an impact of rejoining the two halves of animals before the completion of speciation is that each of them can now freely mate, and gene flow between the species would increase.

Read more on speciation here: https://brainly.com/question/24109109

#SPJ5

Answer:

D. None of the above

Explanation:

Reason that Drastic Change in weather may cause mass extinction

Weather plays an important role in the survivability & the growth/diminish of the population. For example, animals that need large amounts/bodies of water (for example fishes), will not survive when the area is hit with a heat wave & drought, which would cause fishes to surface, and die.

Reason that Geological change would play a large role in mass extinctions

While the Geography is constantly changing, large abrupt changes would cause a upheaval and may upset the population, leading to a depletion of resources or even a sudden destruction of part/all of the population. For example, an earthquake may kill large amounts of animals, and the destruction of the greenery in the area may severely limit the amount of food/decrease the primary consumer's populations, leading to a starvation.

~