What is the total number of atp molecules produced through cellular respiration per molecule of glucose?.

Answers

Answer 1

Cellular respiration in a eukaryotic cell can convert one glucose molecule into 30 to 32 ATP.

Is ATP 36 or ATP 38 produced?

36 ATP molecules are produced by the citric acid cycle. Thus, a total of 38 ATP molecules are produced during aerobic respiration, with 2 of those molecules forming outside of the mitochondria.

ATP 30 or 32: Why?

Depending on the kind of cell we are considering, the number varies. Malate-aspartate shuttle-using cells, such as those in the heart or liver, produce 32 ATP molecules per glucose, whereas glycerol 3-phosphate shuttle-using cells, such as those in skeletal muscle, produce 30 ATP molecules.

To know more about glucose visit:-

https://brainly.com/question/2252123

#SPJ4


Related Questions

What type of cell is undergoing cytokinesis in the photo? How do you know?

Answers

Answer: Central cell

Explanation: I believe it is Central Cell, I learned this in AP Biology class.

It is Central Cell because it looks like the Cytokinesis which is the part of the cell division process during which the cytoplasm of a single eukaryotic cell divides into two more cells. That is why I say this is a Central cell.

If you can please give me a Brainliest, I only need 3 more to become an Ace, thank you!

Plant cytokinesis is the term for the cytoplasmic division of a plant cell. Animal cytokinesis is the term used to describe the division of an animal cell's cytoplasm. The mother cell's centre develops into a cell plate, which divides the cells.

What type of cell is undergoing cytokinesis?

Higher-plant cells undergo cytokinesis using a unique method in which the cytoplasm is divided by the erection of a fresh cell wall, known as the cell plate, inside the cell. A preprophase band of microtubules and actin filaments determines the location of the cell plate.

In biology, the process through which one cell physically divides into two cells is known as cytokinesis. The primary method of reproduction for unicellular organisms is cytokinesis, which takes place during the growth and repair of tissues in higher plants and animals as well as during the development of the embryo.

Therefore, It is called a central cell because it resembles the stage of cell division known as cytokinesis, in which a single eukaryotic cell divides into two additional cells. Since it is a central cell, I say as much.

Learn more about cytokinesis here:

https://brainly.com/question/10606931

#SPJ2

Crossing over plays a critical role in increasing the genetic variation among offspring of sexual reproduction. Crossing over is unique to meiosis. Its occurrence depends on specific events early in prophase I, and it has important consequences for the rest of meiosis and beyond.Consider the following statements about crossing over.Drag "True" or "False" to the end of each statement.Crossing over occurs at the ends of chromosomes, rather than near the centromeres.As a result of crossing over, sister chromatids are no longer identical to each other.For crossing over to occur, homologous chromosomes must align precisely early in prophase I so that nonsister chromatids can exchange corresponding segments of DNA.Crossing over prevents homologous chromosomes from separating during meiosis I.

Answers

Crossing over is essential for increasing genetic variety among sexually reproduced offspring.

Meiosis is the only process in which cells cross across. Its presence is dependent on particular processes early in prophase I, and it has significant implications for the remainder of meiosis and beyond.

Crossing over happens at the ends of chromosomes, not around the centromeres. True, since segments near the centromere are difficult to split and reattach.True, because there is genetic material interchange between non-sister chromatids, sister chromatids are no longer similar to each other as a result of crossing over.Crossing over occurs when homologous chromosomes exactly align early in Prophase I, allowing non-sister chromatids to swap matching lengths of DNA TrueFalse, since homologous chromosomes split during meiosis I.

Learn more about to Crossing over plays visit here:

https://brainly.com/question/7277806

#SPJ4

would you expect any difference in the mutation rates of the control region sequence in the mt genome versus the chromosome 11 insertion?

Answers

Yes, you can expect a difference in the mutation rates of the mt genome's control region sequence versus the chromosome 11 insertion.

A mutation rate is an estimate of the likelihood of a mutation occurring per cell division, which corresponds to the likelihood of a mutation occurring during the lifetime of a bacterial cell. The proportion of mutant bacteria in a culture is simply referred to as the mutation frequency.

Tobacco smoke, UV light, and aristolochic acid have all been linked to increased mutation rates in cancer genomes. Variability in the activity of certain cellular processes also influences mutation rates across individuals.

Any of the following methods can be used to identify single base pair mutations: Direct sequencing entails identifying each individual base pair in sequence and comparing it to the normal gene's sequence.

To know more about Chromosome,here

https://brainly.com/question/1596925

#SPJ4

in a monohybrid cross of corn plants, purple seeds (p) are dominant to yellow (y). both parents in the original cross are homozygous. what are the possible gametes for the purple parent?

Answers

Yellow seeds (y) are subordinate to purple seeds (p) in a monohybrid cross of corn plants (y). The initial cross's parents are both homozygous. The purple parent's potential gametes are p.

Genotype generally refers to an organism's genetic gametes composition. Two alleles, usually referred to as different gene forms, are used to represent each gene.Genes with the same alleles are referred to as homozygotes, whereas genes with different alleles are referred to as heterozygotes.In this instance, the purple parent is considered to be homozygous, and the purple seed allele is indicated by the letter p. Consequently, the genotype is unquestionably pp.

Learn more about gametes by using this link:

https://brainly.com/question/29600905

#SPJ4

what explains why small scale ecological systems are less complex than large-scale? nutrients space

Answers

They usually contain more interacting parts, but also because those parts interact over a greater range of spatial and temporal scales.

What ecological level of organization is the least complicated?

A single organelle, which is made up of aggregates of macromolecules, is the simplest unit of organization for living beings. The biosphere, which includes all other levels, is the greatest level of organization for living things.

What do evolutionary changes on a local and large scale mean?

This concept includes both macroevolution (the descent of various species from a common ancestor through many generations) and small-scale evolution (changes in gene frequency, or more accurately and technically, allele frequency, in a population from one generation to the next).

To know more about ecological systems visit:-

https://brainly.com/question/1294291

#SPJ4

when educating students about the differences between brown fat versus white fat, the instructor will share that brown fat has iron in its mitochondria that will facilitate:

Answers

The brown fat has iron in its mitochondria that will facilitate production of a protein that releases the energy generated from metabolism as heat.

Your body produces the hormone norepinephrine when it becomes cold. Norepinephrine receptors are present in brown fat. These receptors alert the many mitochondria to begin producing energy when they detect the hormone. You will feel warm as a result, which will aid in regulating your body temperature. It basically produces proteins that releases the energy generated from metabolism as heat.

Brown fat converts fat molecules and blood sugar (glucose) into heat and contributes to the regulation of body temperature. Brown fat is activated by cold temperatures, which causes a number of metabolic changes in the body. But the majority of our fat is white fat, which can store extra energy. In obesity, too much white fat accumulates.

To know more about brown fats, refer to the following link:

https://brainly.com/question/22668601

#SPJ4

ocean producers such as phytoplankton are an important part of food webs, but they need a specific temperature to survive. how might increased water temperatures affect these ocean food webs?

Answers

The low temperature of the ocean would allow for the phytoplanktons to bloom or reproduce. Therefore, high temperatures would slow down growth.

The process of photosynthesis is used by phytoplankton and other microscopic marine plants to generate energy for them. Two things are required for this process to occur: carbon dioxide and sunlight. Although some of the carbon dioxide that has been eaten is wasted, it is not entirely wasted. The oxygen itself is the trash. Once released, the oxygen returns to the atmosphere. Since oxygen is essential for the survival of all life on Earth, especially mammals, it is imperative that the environment of phytoplankton and microscopic marine plants, which are the ones that release the most oxygen into the atmosphere, is preserved.

Modifications would have an impact on a phytoplankton community by boosting the phytoplankton population. The ocean's cool temperature would enable phytoplanktons to flourish or proliferate. Therefore, growth would be slowed by high temperatures. This is due to the fact that warm water would mix less with the water that is nutrient-rich layers.

To learn more about phytoplankton, please click on the given link: https://brainly.com/question/13045362

#SPJ4

A student formulated a hypothesis that water-soluble pollutant damage living organisms by increasing the permeability of cellular membranes. To test the hypothesis, the student investigated the effect of isopropanol and acetone on beet root cells. The vacuoles of beet root cells contain large amounts of betacyanin, a water-soluble pigment that is released into the extracellular environment as a result of increased membrane permeability. The student prepared identical samples of beet root tissue and incubated each sample for 15 minutes in the specific solution for that group. At the end of the incubation period, the student measured the absorbance of 460 nm light for each sample. greater concentration of betacyanin in the solution surrounding the beet root cells results in a greater absorbance of 460 nm light. The results of the experiment are shown in the table Which of the following is the dependent variable in the experiment? (1 Point) EFFECT OF WATER-SOLUBLE POLLUTANTS ON MEMBRANE PERMEABILITY Mean Absorbance of 460 nm Light (n = 5) 0.164 0.125 0.215 0.274 0.095 2xStandard Error of the Mean (2xSEM) 0.032 0.100 0.034 Treatment Group Treatment Solution 70% isopropanol: 30% water 90% isopropanol: 10% water 50% acetone: 50% water 70% acetone: 30% water 100% water IV 0.004 Concentrations are reported as percent by volume O The percent by volumn of isopropanol in the treatment solutions O The percent by volume of water in the treatement solutions The length of time each sample was incubated in the treatment solutions The absorbance of 460 nm light by the treatment solutions

Answers

The absorbance of 460nm light by the treatment solutions was the test performed by the student.

Cell membranes are phospholipid bilayers which are mostly displayed by the 'fluid mosaic model' which consists of proteins, carbohydrate polymers and glycoproteins making them able to move around quite freely amongst the phospholipids.

A normal membrane permeability test involves investigating the effects of a named variable on the membrane permeability of any vegetable such as beetroot whose biological name is Beta Vulgaris. The variables to investigate are the influence of solvents and temperature because these factors can change the fluidity of the membrane. Beetroot is an important item for this test because of the distinctive betalains pigment that its stem tuber contains.

These pigments form an important signal indicating membrane fluidity as they are usually contained in the vacuole of intact beetroot cells. An instant or constant increase in membrane fluidity will cause the pigment to spill out of the cell, and the amount of pigment can be measured simply by using a colorimeter.

The above description is performed under the test of The absorbance of 460nm light by the treatment solutions.

Learn more about to  absorbance  visit here:

https://brainly.com/question/23461193

#SPJ4

for this question, unless they are clearly affected with the disease (like individual ii-5), assume that the disease allele is rare in the population and that people marrying in do not carry the disease allele.

Answers

According to the status of the query, the condition is sickle cell anemia. Sickle cell anemia is one of the inherited illnesses referred to as sickle cell disease. The structure of red blood cells, which carry oxygen to every part of the body, is impacted.

Typically rounded and flexible, red blood cells may flow through blood veins with ease. Red blood cells with disease  sickle or crescent shapes are characteristic of sickle cell anemia. Additionally, these sickle cells develop a hard and sticky coating that can hinder or delay blood flow. disease Sickle cells readily disintegrate and expire. About 120 days should pass before red blood cells need to be replaced. However, sickle cells, which ordinarily die in 10 to 20 days, lead to a deficiency of red blood cells (anemia).

learn more about Red blood cells here:

https://brainly.com/question/17890844

#SPJ4

Explain the ages of crystal rock using evidence of the past and current movements of continental and oceanic crust and the theory of plate tectonics.

Answers

Tectonic plates refer to the divisions of the earth's crust. Recall that the crust is the planet's outer, stony, solid shell.

What is tectonic plate?

Each tectonic plate is autonomous and floats freely. Volcanoes and earthquakes are directly caused by the movement of tectonic plates along fault lines. The boundary among tectonic plates is referred to as a fault. The majority of the volcanoes and earthquakes that occur in the "ring of fire" region, which surrounds the Pacific Ocean basin, are caused by the tectonic plate movement in this area.

Typically, marine crust is much younger than continental crust. Since the lithosphere is rarely destroyed and rebuilt during subduction, certain parts of it are almost as old as the Earth itself.

To know more about Tectonic plates, visit:

https://brainly.com/question/1162125

#SPJ1

How can large quantities of protein be produced from a bacterial colony containing the gene of interest?.

Answers

The correct option (b) Put a cDNA encoding the protein into a plasmid with a bacterial promoter sequence. Once a cDNA is put into a plasmid with a bacterial promoter, the bacteria will transcribe and translate the gene.

A molecular biology procedure called DNA cloning creates several identical clones of a DNA fragment, such as a gene.A target gene is often put onto a plasmid, a circular piece of DNA, in a cloning process.Bacterium harboring the plasmid are chosen using antibiotics after the plasmid is introduced into the bacteria through a procedure known as transformation.The right plasmid-carrying bacteria are then employed to produce more plasmid DNA or, in certain situations, are driven to express the gene and produce protein.

Learn more about DNA to visit this link

https://brainly.com/question/264225

#SPJ4

Full Question: How can large quantities of a protein be produced from a bacterial colony containing the gene of interest?

A) Construct a probe that matches part of the gene's sequence

B) Put a cDNA encoding the protein into a plasmid with a bacterial promoter sequence

C) Insert the plasmid containing the cDNA into bacteria

D) Use reverse transcriptase to make cDNAs.

Was your prediction correct? How did you arrive at your predictions? What differences were there between your predictions and the simulator?
My prediction was correct for most of its part because I relied on inclusion of all the organisms in the ecosystem.

Answers

Because I based my prediction on including every organism in the ecosystem, it was mostly accurate.

The environment receives its energy from the producers. Top predators, herbivores, and omnivores would all perish if they were to perish. Because I based my prediction on including every organism in the ecosystem, it was mostly accurate.The Herbivore Both a Omnivore A had an excellent habitat there since the food supply was steady. Consequently, they multiplied. Plants A and B first started to decline, but eventually a balance was reached. I did a few straightforward actions that made it feasible for each organisms to live in this ecosystem. For instance, it was insured that Plant C, Omnivore A, and B would not be consumed in the simulator, ensuring their existence.

Learn more about ecosystem

https://brainly.com/question/13979184

#SPJ4

If a mouse with two copies of the Clock mutation is placed in a lab where the lights come on each day at 7:00 AM and go off each day at 7:00 PM, the activity rhythm of this mouse will display
a 24-hour rhythm.

Answers

When a mouse with two copies of the Clock mutation is placed in a lab where the lights come on each day at 7:00 AM and go off each day at 7:00 PM, the activity rhythm of this mouse will display in 24 hours.

Zip, a brand-new hamster mutant, has an 8-hour daily rhythm when there are no light cues. An adult hamster with the tau mutation (with its own SCN lesioned) would have an 8-hour period for its rhythm if the embryonic SCN from a healthy animal were transplanted into its brain.

In animals, the suprachiasmatic nucleus (SCN) serves as the main circadian pacemaker. In scattered cultures, individual SCN neurons can produce their own circadian rhythms of clock gene expression and neuronal firing. However, enough membrane depolarization, intracellular calcium, and cAMP concentrations are required for SCN rhythmicity.

Learn more about Mutation

https://brainly.com/question/23030726

#SPJ4

Name two processes that add greenhouse gasses to the atmosphere.

Answers

Answer:Carbon dioxide (CO2)

Methane Emissions

Explanation:Carbon dioxide enters the atmosphere through burning fossil fuels (coal, natural gas, and oil), solid waste, trees and other biological materials, and also as a result of certain chemical reactions (e.g., manufacture of cement). Carbon dioxide is removed from the atmosphere (or "sequestered") when it is absorbed by plants as part of the biological carbon cycle.

Methane is emitted during the production and transport of coal, natural gas, and oil. Methane emissions also result from livestock and other agricultural practices, land use and by the decay of organic waste in municipal solid waste landfills.

Explanation:

Carbon Dioxide Emissions

Transportation. The combustion of fossil fuels such as gasoline and diesel to transport people and goods was the largest source of CO2 emissions in 2020, accounting for about 33% of total U.S. CO2 emissions and 26% of total U.S. greenhouse gas emissions. ...

Electricity.

Industry.

Sort the pictures based on the type of life cycle they have.
An image of a red and black ladybug.
A picture of a housefly. It shows housefly having six thin legs, pair of antenna, oval shaped head with spherical eyes, two stripes on face, oval-shaped body broader at the front and narrower at the back.
A picture of a cat.
A picture of a Stag beetle as 6 legged and three-body part insect with a rectangular head and thorax and shiny oval-shaped abdomen with wing cases. Head with 2 pairs of antenna, 2 arc-shaped pointed mandibles, and palps.

Answers

Metamorphosis refers to the changes an organism goes through during its whole life and related to developmental stages. Metamorphosis: ladybug, housefly, and stag beetle. Simple life cycle: cat, dog, and pigeon.

What is metamorphosis?

Metamorphosis is the series of changes that some organisms suffer as they develop from the early stages of life to the mature forms. These changes are regulated by hormones.

Organisms must go through different developmental stages in which they experiment with transformations related to their bodies' morphology, physiology, and behavior. Their life habits can change as well in some cases.

Metamorphosis can be complete or incomplete,

Complete: egg, larva, pupa and adult.Incomplete: egg, nymph, and adult.

Metamorphosis is commonly seen in insects, echinoderms, crustaceans, amphibians, and others.

In the exposed example,

Metamorphosis: ladybug, housefly, and stag beetleSimple life cycle: cat, dog, and pigeon.

You can learn more about metamorphosis at

https://brainly.com/question/29061320

https://brainly.com/question/14372631

#SPJ1

when a cell is hypoxic (deprived of oxygen), what prevents atp synthase from operating in reverse, hydrolyzing atp made by glycolysis?

Answers

when a cell is hypoxic, the protein inhibitor IF1 prevents atp synthase from operating in reverse, hydrolyzing atp made by glycolysis.

hypoxic is a condition where there is insufficient oxygen at the tissue level to maintain adequate homeostasis. This can be brought on by insufficient oxygen delivery to the tissues because of insufficient blood flow or insufficient oxygen levels in the blood. Lung injury from trauma can also result in hypoxia. Other factors that can result in hypoxic include lung conditions like chronic obstructive pulmonary disease.

The method by which glucose is metabolised to produce energy is known as glycolysis. It generates water, ATP, NADH, and two pyruvate molecules. It doesn't need oxygen to happen because it happens in a cell's cytoplasm. In both aerobic and anaerobic organisms, it occurs. The metabolic process known as glycolysis is what turns glucose into pyruvate.

learn more about glycolysis here

https://brainly.com/question/15159050

#SPJ4

Which of the following processes occurs in prokaryotes but not in eukaryotes? a. transcription and translation occur simultaneously b. post-transcriptional splicing c. translation in the absence of a ribosome d. gene splicingTerma. transcription and translation occur simultaneously

Answers

Answer:

B

Bcuz i said so

a population of insects increases at a rate 180 6t 0.6t2 insects per day (t in days). find the insects population after 4 days assuming that there are 70 insects at t

Answers

The insects population after four days is 1002.

The speed at which a variable changes over a predetermined amount of time is known as the rate of change.

Your function is changing at the same rate as the change. If your function is a function of position, then the velocity, which denotes how quickly your location is changing, will be the rate of change.

By dividing the difference between two points by the difference between the independent variable, you may calculate the average rate of change without using mathematics. You can use the derivative in calculus to get the current rate of change at any given moment.

Given,

rate = 180 + 6t+0.6t

dp/dt =180+6t+0.6t²

=(300 +61 +0.6t^2)dt

=p(3)-p(0)=180+3t^2+0.6*t^3/3

p(3)-70=180*3+3*3^2 +0.2×*^3

p(3)=1002.4

p(3)=1002

To know more about rate here

https://brainly.com/question/13610706

#SPJ4

What is the total number of atp molecules produced through cellular respiration per molecule of glucose?.

Answers

Cellular respiration in a eukaryotic cell can convert one glucose molecule into 30 to 32 ATP.

Per glucose molecule, how many ATP are generated during cellular respiration?

As a result, during the process of cellular respiration, up to 36 molecules of ATP can be produced from a single molecule of glucose. A eukaryotic cell's cellular respiration may turn one glucose molecule into 30 to 32 ATP.

Why does glycolysis yield 4 ATP?

Glyceraldehyde-3-phosphate 1,3 diphosphoglycerate results in the first generation of ATP. Second, when phosphoenolpyruvate breaks down into pyruvate, ATP is created. For each of the two 3-phosphate molecules, these processes happen twice. Thus, during glycolysis, a total of 4 ATPs are created.

To know more about molecule of glucose visit:-

https://brainly.com/question/28295470

#SPJ4

when sea otters were hunted nearly to extinction in california coastal communities, sea urchin populations increased, kelp beds decreased in size, and fish reproduced at far lower levels. what does this reflect?

Answers

When sea otters hunted nearly to extinction in California coastal communities, sea urchin populations increased, kelp beds decreased in size : this reflects that otters must have ordinarily eaten sea urchins.

What is a symbiotic relationship?

Symbiosis is type of a close and long-term biological interaction between two different biological organisms. It can be parasitic, mutualistic, and commensalistic.

Parasitism is where one species benefits and the other is harmed and commensalism is when one organism benefits and the other is left unharmed. Mutualism is when both the organisms benefit from that interaction.

When two animals have a symbiotic relationship, it clearly means that they rely on each other for survival. In nature, this codependence can be beneficial.

To know more about symbiotic relationship, refer

https://brainly.com/question/20731481

#SPJ4

In most mammal species, a male is _____ to provide parental care
because his confidence of paternity is _____.
a. likely; high
b. unlikely; high
c. likely; low
d. unlikely; low

Answers

D, unlikely and low, males typically do not raise yung

A 45-year-old man presents to the emergency department with cellulitis of his left leg. He is being treated with vancomycin. Ten minutes after the infusion is initiated, he complains of intense pruritus and lightheadedness. Erythema is noted on his face and neck. Which of the following is the next best step in the management of this patient?
A Administer intramuscular epinephrine and decrease the rate of the infusion
B Administer intramuscular epinephrine and suspend the infusion
C Administer intravenous diphenhydramine and decrease the rate of the infusion
D Administer intravenous diphenhydramine and suspend the infusion

Answers

Diphenhydramine injection is available as a solution (liquid) that may be administered intravenously or intramuscularly (into a vein). Your illness and how you react to therapy will determine your dose regimen.

Although an IV push of diphenhydramine would have a rapid start, it might also result in adverse effects, intravenously necessitating more nursing time to monitor patients. Diphenhydramine can be safely delivered to patients when given as diluted IV admixtures during intravenously an IV infusion.

learn more about Diphenhydramine here:

https://brainly.com/question/8584335

#SPJ4

what is the name of the fine, epithelium-lined bones that warm and moisten incoming air in the nasal passages of sea lions (and other marine mammals)?

Answers

Nasal turbinates  is the name of the fine, epithelium-lined bones that warm and moisten incoming air to breathe in the nasal passages of sea lions (and other marine mammals).

Nasal Turbinate's are small structures inside the nose that cleanse and humidify air that passes through the nostrils into the lungs. The turbinates are thin, bony plates inside your nose. Allergies or a lengthy cold can irritate them and cause them to swell, or enlarge. The swelling makes it hard for you to breathe. Another cause of the swelling is overuse of decongestant nasal sprays.

Learn more about Nasal turbinates  here:

https://brainly.com/question/28334904

#SPJ4

mastering biology when a bacterial cell is not expressing the genes in the lac operon, this is an example of

Answers

When a bacterial cell is not expressing the genes in the lac operon, this is an example of Transcriptional regulation.

The metabolism-related genes in the Lac operon are present. When glucose is absent and lactose is present, the genes are only expressed.

Lactose acts as an inducer in the lac operon. The regulatory gene is activated when lactose is added to the medium for the bacteria. The repressor protein will become inactive when the inducer binds to it, allowing the operon to be translated. As a result, the lac operon in this instance is negatively regulated.

know more about lac operon here: https://brainly.com/question/13626722

#SPJ4

what is the role of the ventral respiratory group (vrg) in the reticular formation of the medulla oblongata?

Answers

Answer: They maintain the basic ventilatory rhythm

Explanation:

the concentration of solutes in a red blood cell is about a third that of seawater – about 0.3 m. if red blood cells are immersed in pure water, they swell. calculate the osmotic pressure at 25 °c of red blood cells across the cell membrane from pure water. (include units with your answer, in atm)

Answers

The osmotic pressure at 25 °c of red blood cells across the cell membrane from pure water is 7.34atm

Given: Concentration of Red blood cell C=0.30M, R=0.0821, T=298k

Osmotic pressure =CRT

Osmotic pressure=0.3 × 0.0821 × 298

Osmotic pressure =7.33979 ≃ 7.34atm

What is osmotic pressure?

Osmotic pressure is defined as the pressure that must be applied to the solution side to stop fluid movement when a semipermeable membrane separates a solution from pure water.

What would happen if red blood cells were placed in seawater?

Seawater is hypertonic to the cytoplasm in vertebrate cells and in plant cells. If a red blood cell and a plant cell were placed in seawater, the red blood cell would burst, and the plant cell would shrink.

What is the solute concentration of red blood cells?

Red blood cells have a solute concentration of around 0.9%.

Thus, the osmotic pressure of red blood cells is 7.34atm

To know more about osmotic pressure:

https://brainly.com/question/4203774

#SPJ4

Suppose a female fruit fly carries a mutation in her nanos gene that prevents expression of the nanos protein in any eggs she produces. Which effect is likely to be observed?.

Answers

Her eggs create fruit fly embryos with two heads, one of which is on a gene that blocks the expression of the nanos protein in any subsequent eggs she produces.

Which circumstances would cause developing ducks to lose their webbing?

Webbing is lost as a result of apoptosis. Duck embryos that have been experimentally implanted with mutant BMP4 have non-webbed feet. Both the growth of a single organism and the evolution of species distinctions are governed by the actions of genes under the direction of genetic switches.

Which role do gap genes play in Drosophila?

In Drosophila melanogaster and other insects, the gap gene system regulates the initial steps of the segmentation pathway. This system plays a crucial part in embryo patterning due to its tractability and has been the area of interest for both experimentalists and computational modelers.

To know more about embryos visit:-

https://brainly.com/question/1673695

#SPJ4

lycopene . group of answer choices is abundant in apples may help protect against cancer and heart disease may promote growth of estrogen-dependent cancers is another name for vitamin e is one of many flavonoids

Answers

Lycopene might help protect against cancer and heart disease.

So, the correct option is B.

Strong anti-oxidant lycopene has a number of health advantages, including lowering the risk of several cancers, improving heart health, and providing sun protection. The most abundant among carotenoid pigments, it is distinguished by its strong antioxidant capacity. Epidemiological research demonstrates several positive relationships between lycopene consumption in the diet and a lower risk of cardiovascular disease, mostly because of this.

Lycopene has been linked to anticancer action in a rising number of studies. According to certain studies, it can lower the risk of stomach cancer and ward against the development of lung, breast, and prostate cancer.

 

Learn to know more about Lycopene on

https://brainly.com/question/19262040

#SPJ4

rank the following line-angle structures based on the number of carbon atoms present in the longest continuous carbon chain. rank from highest to lowest. to rank items as equivalent, overlap them.

Answers

The rank of the line-angle structures is based on the number of carbon atoms present in the longest continuous carbon chain is given in the image attached.

In organic chemistry, a hydrocarbon is a compound made only of hydrogen and carbon. The majority of hydrocarbons are hydrophobic and colorless. Their mellow odors are frequently compared to gasoline or lighter fluid.

Carbon atoms can be seen at the ends and corners of lines in line-angle structures. Because it is attached to enough hydrogen atoms, it is assumed that each carbon atom has four bonds.

We can arrange the structures in the image by counting the number of carbon atoms in each compound's branched chain.

*Image attached*

Learn more about Hydrocarbon here: http://brainly.com/question/12433190

#SPJ4

rhizomes that end in enlarged structures that are specialized for storage are called a) tubers. b) runners. c) bulbs. d) taproots.

Answers

The rhizomes that end in enlarged structures that are for storage are called  as tubers as in the stems.

Rhizomes, tubers, bulbs and corms are really underground stems, now no longer roots. These underground stems are garage packing containers for the plant. Rhizomes are stems that develop horizontally, however rhizomes develop underground and usually have a thickened stem this is used for garage.

Stem tuber is a thickened a part of a rhizome or stolon that has been enlarged to be used as a garage organ. In general, a tuber is excessive in starch, e.g. the potato, that's a changed stolon. The term "tuber" is regularly used imprecisely and is once in a while implemented to flora with rhizomes.

Read more about rhizomes :

https://brainly.com/question/16046799

#SPJ4

Other Questions
A company issues $100,000 of 5%, 10-year bonds dated January 1 that payinterest semiannually on June 30 and December 31 each year. If bonds aresold at par value, the issuer records the first semi-annual interest paymentwith a debit to which of the following accounts and in what amount? Set the transmitter movement to oscillate, field display type to curve with vectors, and radiated fields. Describewhat is happening in the transmitter and the receiver. As the transmitter moves up the receiver moves down opposite of the moment of the wave. In the transmitter theelectrons rotate up and down and have a larger range. boeing collaborated in a strategic alliance with fuji, mitsubishi, and kawasaki in the development and production of the boeing 777 to minimize boeing's financial exposure. what benefit of strategic alliances was boeing seeking? Drag and drop each scenario to the corresponding mechanism used by animals to alter the rate of heat exchange with the environment Constriction of blood vessels at the body surface of a seal as divos to cooler depths in the ocean The heating of tuna core muscles through the conduction of cooler arterial blood from the gills with warmer blood coming from Ted muscle Birds ruling their fathers and raising their wings on a hot day A snake warming up on a hot road near the end of the day 11 points oBook Curling up into a ball in a cold environment to limit heat loss by radiation and conduction Adog or cat panting A person pering Hint References Evaporative heat loss Skin blood flow Countercurrent exchange Behavioral adaptation A person perspiring Construction of blood vessels at the body surface of a seal as a dives to cooler depths in the ocean The heating of tuna core muscles through the conduction of cooler arteriole blood from the gils with warmer blood coming from red muscle Birds ruffling their fathers and raising their wings on a hot day A dog or cat panting < Prev 14 of 18 Me GA MUR Next > I need someone to just check my work. Please check grammar and spellingMi encuesta (My survey)Question one here: Cuando quieres ir a la fiesta?Question two here: Qu perfieres caf de agua?Question three here: Que te gusta mas pltanos o manzanas?Question four here: Que te gusta mas pimiento o pepino?Question five here: Que comida te gusta?Unimportant: You will write five questions in Spanish, asking your party guests about their preferences and likes. Remember to keep your questions short and simple and use only vocabulary, culture, and grammar you have learned in the course. You can look at the first page of this lesson for an example. You may also use the What to include in your survey table below, to guide your work.You may use this template to complete the assignment, or you may use a word processing document or any other creative way you would like.You will do well if you follow this checklist!*Note: The sample questions in parentheses are just a guide to help you form your questions. You must come up with your own original work keeping academic integrity intact. Determine which integer will make the equation true.3x + 9 = 24S = {3, 4, 5, 6}0304056 Find the missing value for the exponential function represented by the table below.X-2-1012y2920.314.216.9629Then select the graph that best fits the equation.a) -9.947, graph ab) 9.213, graph bc) 9.947, graph ad) 8.756, graph bTHE ANSWER IS C) 9.947, graph A i couldn't find the right answer anywhere in here so im giving it 100 points need answer asap!!y=x-7y=x+7 solve for x and y A solenoid that is 105 cm long has a radius of 2.83 cm and a winding of 1090 turns; it carries a current of 4.40 A. Calculate the magnitude of the magnetic field inside the solenoid. A) how many prime numbers are multiples of 5? b) how many prime numbers are multiples of 8?. 1) all of the following are plant adaptations to life on land except a) tracheids and vessels. b) root hairs. c) cuticle. d) the calvin cycle of photosynthesis. e) collenchyma. a critical period in life during which many health-related beliefs, attitudes, and behaviors are adopted and challenged is: group of answer choices adolescence and young adulthood. adulthood. childhood. older adulthood. the imbalance of adolescents strengthening subcortical response and incomplete prefrontal development may be partially responsible for what? Two angles of a triangle have the same measure and the third one is 60 degrees greater than the measure of each of the other two. Find the measure of the LARGEST angle in the triangle. a british pound cost $2.00 in u.s. dollars in 2008, but $1.27 in u.s. dollars in 2017. a) was the pound weaker or stronger against the dollar? b) did the dollar appreciate or depreciate versus the pound in 2017 (compared to its original value in 2008)? c) how many british pounds does 1 usd buy in 2017? show your calculations. Which postulate or theorem proves MNQPNQ?SSS Congruence Postulate SAS Congruence PostulateAAS Congruence TheoremASA Congruence Postulate A group of friends wants to go to the amusement park. They have no more than $150 to spend on parking and admission. Parking is $15.50, and tickets cost $19.25 per person, including tax. What is the maximum number of people who can go to the amusement park? describe four effects of ice age glaciers aside from the formation of major eronsional and depostional features an electron is located between two charged plates, as shown in the diagram above. which statement below is not true? (a) the electric field of the plates is directed to the right. (b) the electric field of the plates has the same magnitude at all points between the plates. (c) the acceleration of the electron will be constant until it impacts one of the plates. (d) a uniform electric field exists between the plates. what is the hwe model and what are its assumptions? what does it tell us when a gene in a population is (or isnt) in hwe? how does this relate to genetic resistance?