a yeast cell that forms a bud is called a mother cell. why is there nomother cell after the paramcium divides
There is no mother cell in the divided paramecium cell because the two cells become a daughter cell.
What is mitosis?Cell division is the process by which a cell divides into two cells.
Certain living organisms make use of cell division for their reproduction process. An example of such organism is yeast cell and paramecium cell.
A paramecium is a slipper or oval-shaped protozoan organism of the genus Paramecium. It undergoes mitotic cell division to produce two daughter cells.
These two daughter cells become new cells and hence, lose the mother cell identity.
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What are the accessory organs of the digestive system function for each?
1. Salivary Glands: The salivary glands produce saliva, which is a mixture of water, electrolytes, mucus, and enzymes that helps to moisten food, break it down, and aid in digestion.
2. Liver: The liver produces bile, which helps to break down fat and absorb fat-soluble vitamins. It also helps to remove toxins from the body.
3. Pancreas: The pancreas produces enzymes that help to break down carbohydrates, proteins, and fats. It also produces the hormones insulin and glucagon, which help to regulate blood sugar levels.
4. Gallbladder: The gallbladder stores and releases bile produced by the liver, which helps to break down fat.
5. Intestines: The small and large intestines help to absorb nutrients from food and water, and expel waste from the body.
What is enzymes?
Enzymes are proteins that act as catalysts, speeding up chemical reactions in cells. They are essential for many biological processes, such as digestion and metabolism. Enzymes are very specific in their actions and work best under specific conditions, such as in a certain pH or temperature.
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Sort The Following Organisms Based On Their Predicted Sensitivities To Vancomycin. Organisms (6 Items) (Drag And Drop Into The Appropriate Area Below)
Organisms based on their predicted sensitivities to vancomycin:
Sensitive
E. coliClostridium difficileResistance
VirusFungiMRSAMycoplasmaVancomycin is an antibiotic used to treat bacterial infections. It works by killing or stopping germs from growing. Colds, flu, and other viral infections are not treated with vancomycin. This injection is also used to treat serious infections that are resistant to other treatments.
Intestinal inflammation caused by bacteria treated with vancomycin may develop after antibiotic treatment. Vancomycin belongs to the class of glycopeptide antibiotic drugs. It kills the germs in the gut, that's how it works.
Antibiotic resistance occurs when bacteria stop responding to the antibiotics that were meant to kill them. These germs become resistant to vancomycin if they develop resistance to vancomycin, an antibiotic used to treat several drug-resistant diseases.
In sensitive bacteria, vancomycin suppresses the second step of cell wall formation.
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Answer:
Sensitive: MRSA and E.coli
Resistant: Fungi, Viruses, Mycoplasma, and Clostridium difficile
Explanation:
A food web showing some of the connections between organisms is shown. If a disease decreased the population of cottontail rabbits for a short period of time, which animal populations would experience an increase in competition with each other for food?
answer choices
frogs and insects
hawks and coyotes
frogs and white-tailed deer
white-tailed deer and coyotes
If a disease decreased the population of cottontail rabbits for a short period of time, the animals that would experience an increase in competition for food are likely to be white-tailed deer and coyotes, as they are a part of food chain.
White-tailed deer and coyotes also consume cottontail rabbits, thus if their number declines, the two predator species may begin fighting with one another for food. The population of one or both predator species may decline as a result of the increased competition, and their eating patterns and territorial behaviors may shift disrupting food chain.
Given that frogs and insects live in different trophic levels and do not directly compete with one another for food, it seems unlikely that the decline in cottontail rabbit population will result in increased food rivalry between them. Similar to how there is little indication of the interaction between hawks and coyotes in the food web, it is unclear how changes in
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study of the functions and activities performed by the body’s structures is called
The study of the functions and activities performed by the body's structures is called anatomy.
Anatomy is the branch of biology that deals with the study of the structure and organization of living organisms and their component parts. It encompasses the study of both macroscopic and microscopic structures, including the gross anatomy of major organ systems, the microscopic anatomy of cells and tissues, and the molecular anatomy of biomolecules and organelles. By understanding the anatomy of the body and how its structures are organized and function, scientists and healthcare professionals are able to better diagnose and treat diseases and injuries, as well as gain a deeper understanding of the basic mechanisms that sustain life. The study of anatomy has a long and rich history, with important contributions from ancient civilizations such as Greece and Egypt, and continues to be a critical field of inquiry in modern medicine and biology.
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this hormone is the major controller of blood calcium on a day-to-day basis.
The parathyroid glands are primarily regulated by the negative feedback of calcium levels in the blood. Low blood calcium levels drive parathyroid hormone secretion, whereas high blood calcium levels inhibit parathyroid hormone release.
Humans and other tetrapods have tiny endocrine glands in their necks called parathyroid glands. Humans typically have four parathyroid glands, which are positioned in various positions on the back of the thyroid gland. In reaction to low blood calcium, the parathyroid gland creates and secretes parathyroid hormone, which plays an important role in controlling the quantity of calcium in the blood and bones.
The blood supply, venous drainage, and lymphatic drainage to the parathyroid glands are comparable to those of the thyroid glands.
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FILL IN THE BLANK. The process of collecting and analyzing data without a preconceived hypothesis is referred to as __________-based science
The process of collecting and analyzing data without a preconceived hypothesis is referred to as discovery-based science.
Discovery is the aspect of science where research is done in order to find the elements of the natural world that existed beforehand but remained unknown. The process of discovery involves making observations, asking questions, sharing ideas and data, etc.
Science is the study of the natural world that involves application of the knowledge and understanding followed by a systematic methodology based on evidence. Science is a combination of analysis, observation, experiments, hypothesis, etc. It comprises of the physical, chemical, and biological universe.
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in providing crossmatch-compatible blood units, all of the following antibodies are most often clinically insignificant except:
In providing crossmatch-compatible blood units, Anti-Jkb antibodies are most often clinically insignificant.
Even with a high antibody titer, anti-Jkb seldom causes severe acute or delayed hemolytic transfusion responses. This is true despite the fact that anti-Jkb is a well-defined cause of these events. Only 13 cases have been documented thus far, making it unclear what may be causing that. Most HDN caused by anti-Jkb are mild to moderate in severity and often have a favourable prognosis. A 41-year-old lady was referred to the blood bank for testing prior to an amniocentesis after a positive antibody screening test in the 13th week of pregnancy. The patient and his husband's red blood cells (RBCs) and antibodies were identified, and the arrays in the amniotic fluid were studied.
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The complete question is:
In providing crossmatch-compatible blood units, all of the following antibodies are most often clinically insignificant EXCEPT:
A. Anti-Jkb
B. Anti-P1
C. Anti-M
D. Anti-Lea
While genetic engineering has positive benefits, there are also concerns associated with widespread use of genetic engineering in agriculture. If many farmers begin to plant more genetically modified crops that have an increased tolerance to insects, which of the following may result?
If many farmers begin to plant more genetically modified crops that have an increased tolerance to insects, the following may result in : a decrease in genetic diversity of the crops.
What is genetic engineering?Genetic modifications of organisms does not allow for random mutation in the genetic code. This random mutation is responsible for the genetic diversity seen in populations of organisms.
Genetic engineering is also called genetic modification or genetic manipulation. It is the modification and manipulation of an organism's genes using technology. Genetic engineering may involve adding gene from one species to an organism from different species to produce desired trait.
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use this phylogenetic evidence to determine if p. falciparum originated from another strain of plasmodium in humans, in chimpanzees, or in gorillas.
It is not possible to determine with certainty where Plasmodium falciparum originated from based on phylogenetic evidence alone.
What is Plasmodium falciparum?Plasmodium falciparum is a species of parasitic protozoa that is responsible for the most severe form of malaria in humans. It is the most widespread and deadly form of malaria, responsible for the majority of malaria-related deaths worldwide. Plasmodium falciparum is transmitted to humans through the bite of an infected female Anopheles mosquito. It then invades and multiplies within the red blood cells, causing symptoms such as fever, anemia, seizures, and jaundice. In severe cases, it can lead to death. Human immunity can be developed against Plasmodium falciparum through exposure to the parasite, although a vaccine is still under development.
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A small population of chimpanzees lives in a habitat that undergoes no changes for a long period of time. How might genetic drift affect this population?
Genetic drift might affect this small population of chimpanzees, It will reduce genetic diversity.
Populаtion size, technicаlly the effective populаtion size, is relаted to the strength of drift аnd the likelihood of inbreeding in the populаtion. Smаll populаtions tend to lose genetic diversity more quickly thаn lаrge populаtions due to stochаstic sаmpling error (i.e., genetic drift). This is becаuse some versions of а gene cаn be lost due to rаndom chаnce, аnd this is more likely to occur when populаtions аre smаll. Аdditionаlly, smаller populаtion size meаns thаt individuаls аre more likely to breed with close relаtives.
Your question is incomplete, but most probably your full options were
A. It will accelerate the appearance of new traits.
B. It will promote the survival of chimpanzees with beneficial traits.
C. It will increase the number of alleles for specific traits.
D. It will reduce genetic diversity.
Thus, the correct option is D.
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Which gene program is described correctly?A. Cell division is the process whereby identical cells begin to specialize into specific cell types.B. Signal induction identifies important body axes such as anterior-posterior and dorsal-ventral.C. Differentiation increases the number of cells, so an organism can grow larger.D. Morphogenesis is the process whereby cells identify where they are in three-dimensional space.
Cells use the process of morphogenesis to locate themselves in three dimensions.
How would you define morphogenesis?
By regulating the spatial distribution of cells throughout embryonic development, morphogenesis is a biological process that gives a tissue or organ its shape.
What kind of morphogenesis is that?
Morphogenesis can also occur in mature organisms, such as during the stem cells' routine maintenance of tissue or the repair of damaged tissues. An extreme case of unhealthy and aberrant tissue development is cancer.
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active transport of nutrients occurs when nutrients need to move from higher concentration to lower concentration.
Active transport of nutrients occurs when nutrients need to move from higher concentration to lower concentration. False. Active transport is locking against a concentration gradient from low concentration to high concentration.
The cell is the smallest unit of living things. The outermost part of the cell is called the cell membrane which limits the contents of the cell to the outside of the cell and is composed of 50 percent lipid and 50 percent protein. Because of this arrangement of cells, cells are permeable and selectively permeable, which means that air and certain substances dissolved in it can only pass through.
Transport through the cell membrane can be divided into two, namely passive and active transport. Passive transport is transport that does not require energy, while active transport is transport that requires energy. Active transport serves to maintain the balance within the cell because the cell moves solutes with high concentrations by pumping across the membrane against the concentration gradient. Then the substance will be removed from the cell from low to high concentrations so that homeostasis occurs in the cell.
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What happens to the chloroplasts in the hypertonic solution, why do you think that happens?
Answer:
The chloroplasts gets bunched up in the middle
Explanation:
Hypertonic solutions cause the cell to enlarge and the chloroplasts get clumped in the middle. In a hypotonic solution, the chloroplasts spread out.
whats the outputs for mitochondria
Explanation:
have a great wonderful day!!!
q3. are primers reusable for each cycle? why or why not?
The answer to whether primers are reusable for each cycle is no. Primers are used only once during each cycle of PCR and must be replaced for each subsequent cycle.
In molecular biology, primers play a crucial role in the polymerase chain reaction (PCR) process. PCR is a technique used to amplify DNA samples, and primers act as the starting points for the replication process.
There are several reasons for this.First, the primers become depleted after each cycle of PCR. This is because the primers bind to the target DNA, initiating the replication process. However, as the process continues, the primers are used up and must be replaced.Second, the PCR process can generate secondary structures in the primers that interfere with the binding of new primers in subsequent cycles. This means that even if there are enough primers present, they may not be able to bind effectively to the target DNA.Third, the PCR process can result in the formation of unwanted products that can interfere with subsequent cycles. These products can also bind to primers, making them less effective.To learn more about primers here:
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1. Those Old Kentucky Blues: An Interrupted Case Study
by Celeste A. Leander and Robert J. Huskey.
Possible score for Part I: 12 points
Ruth had never been as astonished as she was the day she encountered the first of the "blue people" from Troublesome Creek. The blue woman simply walked into the rural health clinic where Ruth was a nurse. Ruth suspected the woman was having a heart attack, but the woman wasn't concerned at all. "I'm one of the blue Combses," she explained to Ruth, as if it was all perfectly logical. "And my Mother-in-law is a Fugate." As their conversation continued, Ruth learned from her patient that there were, in fact, many blue people living in the isolated community around Troublesome Creek. So began an adventure that lasted nearly a decade. Ruth and a physician, Dr. Cawein, who had heard rumors of blue people in the region, spent the next summer fighting off bugs and dogs as they trudged through the region piecing together a family tree of the reclusive Fugates, a large clan living in the valleys and hollows of the Appalachian Mountains in eastern Kentucky. Several of the relationships that Ruth and Dr. Cawein established have since been challenged by modern-day descendants of Martin Fugate. Nevertheless, the major lineages that they were able to establish helped to answer some of Ruth's questions. The Fugate clan in the Troublesome Creek region could be traced back to the arrival of Martin Fugate, an orphan from France. Legend has it that Martin may have been blue, but reports vary. For this case, we'll assume that Martin is blue. Martin settled in the area and married the pale, red-headed Elizabeth Smith. Over the years, they had at least seven children. Four of them reportedly were blue. Zachary, one of Martin and Elizabeth's blue sons, married Elizabeth's sister. (Because of the isolation in this region, it was not uncommon to simply marry someone from next door. As the generations passed, this led to sometimes marrying a cousin or other relative as the family continued to grow.) They had several children. One of their sons was Levy. Levy married a girl from the Ritchie clan, another prominent family in the region. Together, they had eight children, including Luna. Luna is legendary for having had nearly purple skin. Luna was courted by and married John Stacey. Together they raised children. None of them were blue. One of Luna and John's children had a son, Alva Stacey. Alva and his wife, Hilda, came from separate branches of the extensive clan. Alva remembered his maternal blue grandmother and also tells the story of his infant son, Ben, who had caused quite a stir at the hospital when he was born with a blue tinge. Ben's blue color faded soon after birth, and he now reports only his fingernails and lips turning blue at times. Ben has since gone on to graduate from the Eastern Kentucky University in Richmond, Kentucky. He married soon after graduation and has moved to another state. Questions Construct a family tree (pedigree) from the information provided. (2 points)
Evaluate your pedigree. Can you decide if "blueness" is a heritable trait? (2 points)
If so, what pattern of inheritance do you suspect? If not, what other hypotheses might you suspect? Explain your answer. (5 points)
Provide allele designations for each person in the pedigree. (3 points)1
From the information provided, it is difficult to determine if “blueness” is a heritable trait.
What is heritable trait ?A heritable trait is a genetically determined trait that is passed from a parent to their offspring. These traits are encoded in a person's genetic material, and can be inherited from either parent or both. Examples of heritable traits include physical characteristics, such as eye color and hair color, as well as certain diseases, such as cystic fibrosis and Huntington's disease. Other heritable traits can include intelligence, personality, and even some behaviors, such as substance abuse. In some cases, heritable traits can be influenced by environmental factors, such as diet and lifestyle. Heritable traits can also be modified through genetic engineering, and this is becoming increasingly common.
Martin Fugate appears to be the original source of the “blue people”, and four of his seven children were reportedly blue. However, it is unclear if the blue people were a result of a recessive gene or an environmental factor. Additionally, none of Luna and John Stacey’s children were reportedly blue, which suggests that the trait may not be inherited through them.If “blueness” is inherited, it appears to follow an autosomal recessive pattern of inheritance.
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Will the cell membrane swell or shrivel in a isotonic solution, Explain.
this hormone plays a vital role in the erection process and is necessary for the act of reproduction.
Serotonin is the hormone that plays a vital role in the erection process and is necessary for the act of reproduction.
Serotonin is the neurotransmitter that is most clearly connected to ejaculation in humans. This suggests that signals elicited by serotonin are sustained and last for a longer time. Blood rushes in through the cavernosus arteries to fill the corpora cavernosa's blood vessels as they relax and widen. Blood that is compressed to a great extent is what causes erection. Ejaculation is controlled by the central nervous system and is a reflex action.
The forceful expulsion of semen from the body is known as ejaculation. There are two stages to it. Emission is the name given to the first stage. At that time, numerous glands and organs secrete different parts of the semen, including sperm. Expulsion is the next step. Semen is forced out of the male genitalia at that time as a result of severe genital muscular spasms.
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what are some genetic differences between prokaryotic and eukaryotic cells?
Answer:
eukaryotic cells have a membrane-bound nucleus (and membrane-bound organelles), whereas prokaryotic cells lack a nucleus.
Explanation:
Prokaryotic cells lack a membrane-bound nucleus and contain a single, circular chromosome. In contrast, eukaryotic cells have a nucleus that is surrounded by a membrane and contain multiple linear chromosomes.
What is multiple linear chromosomes ?Multiple linear chromosomes are a type of chromosomes which contain more than one linear DNA molecule. They can be found in some organisms such as certain fungi, plants, and some protists. These chromosomes are believed to have evolved independently, suggesting that they are the result of multiple evolutionary events. They are made up of multiple linear DNA molecules associated with a single cap, or centromere, which holds them together. This allows them to be distributed equally during cell division. Multiple linear chromosomes are believed to be important for genetic stability, as they provide increased redundancy and allow for more rapid evolutionary change.
In addition, prokaryotic cells have a smaller genome size than eukaryotic cells, typically containing only a few thousand genes. Eukaryotic cells have much larger genomes, with tens of thousands of genes. Prokaryotic cells also lack organelles, such as mitochondria and endoplasmic reticulum, while eukaryotic cells possess these organelles and use them to carry out various metabolic processes.
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question which example describes an abiotic factor interacting with a biotic factor? responses tropical fish need warm water to survive. tropical fish need warm water to survive. small fish are food for larger fish. small fish are food for larger fish. high water temperatures decrease oxygen concentration in the water. high water temperatures decrease oxygen concentration in the water. more light increases the water temperature.
Higher water temperatures decrease the oxygen concentration in the water This example describes an abiotic factor interacting with an abiotic factor. Here option C is the correct answer.
In example C, a physical abiotic factor (water temperature) interacts with an abiotic factor (oxygen concentration) in the aquatic environment.
High water temperatures can decrease the solubility of oxygen in water, leading to a lower concentration of dissolved oxygen. This can have negative effects on aquatic organisms that rely on oxygen to survive. This interaction between abiotic and biotic factors is a common example of how the two can influence each other in ecosystems.
Complete question:
Which example describes an abiotic factor interacting with a biotic factor?
A - tropical fish need warm water to survive.
B - small fish are food for larger fish.
C - high water temperatures decrease oxygen concentration in the water.
D - more light increases the water temperature.
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rough endoplasmic reticulum function in animal cell
The endomembrane reticulum system, the plasma membrane, or proteins that will be secreted are the general purposes of the ER. All of the cell's membranes.
It is including those of the endoplasmic reticulum, the Golgi apparatus, lysosomes, and vesicles, are included in the endomembrane system. The production, folding, quality assurance, and despatch of some proteins take place in the rough ER, which is dotted with millions of membrane-bound ribosomes.
The production of steroid hormones, lipid (fat) synthesis, and metabolism are all heavily correlated with smooth ER. It also serves as a detoxifier. RER can be found in both plant and animal cells. The nuclear envelope, which envelops the cell nucleus, is continuous with the RER membrane.
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Correct Question:
What is rough endoplasmic reticulum function in animal cell.
Which joint type comprises the majority of human joints? A. Synovial joint B.Cartilaginous Joints C. Fibrous Joints
The Synovial Joint comprises the majority of human joints (option A)
What a Synovial Joint?
A synovial joint is a sort of joint found between bones that move against one another, such as the joints of the limbs (e.g. shoulder, hip, elbow and knee). It has a fluid-filled joint cavity as a distinguishing feature.
Because synovial joints contain moving parts, they are particularly prone to injuries, in which ligaments are stretched or torn, and dislocations.
Arthritis, or inflammation, can also develop in the synovial joints. More than 100 different forms of arthritis exist, each caused by issues with a different component of the joint. For instance, cartilage wears down in osteoarthritis, while the synovial membrane is attacked by the immune system in rheumatoid arthritis. Joint pain, stiffness, and edema are typical early symptoms of most kinds of arthritis.
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What is apoptosis example?
Apoptosis is the name for the process of programmable cell death. During the initial phases of development, unwanted cells are eliminated, including those between the fingers of a developing hand.
In the simplest words, what is apoptosis?(A-pop-TOH-sis) a kind of cell death where a cell dies as a result of several molecular events. This is one method through which the body gets rid of undesirable or aberrant cells. The apoptotic process may be hindered by cancer cells.
What causes apoptosis most frequently?A cell will begin to undergo apoptosis when the survival signals are abruptly removed or when it separates from its surrounding cells. Additionally, increased cellular stress brought on by conditions of extreme heat, radiation or chemotherapy-induced DNA damage, or pathogenic infection can also cause apoptosis, the cell death process.
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14a. Can you tell from this tree whether a C at position 15 evolved before or after a T at position 15?
14b. Explain your answer.
The ancestral character can be thought of as the existence of a certain nucleotide (either T or C) within this place.
What is an evolutionary tree?A phylogenetic evolutionary tree is indeed a visual representation of how a particular taxonomic group has evolved (for example, a group of species).
By following the observed nucleotide alteration back to a common ancestor, it is feasible to reconstruct overall evolution of a particular taxon. A certain nucleotide (whether T or C) in that place might be thought of as the original character because within an evolutionary tree, every base of the node is symbolized by the common ancestor.
Therefore, the ancestral character can be thought of as the existence of a certain nucleotide (either T or C) within this place.
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Project: For the Love of Animals
This project requires you to write a three-page, double-spaced, typed paper about the many changes that took place in the animal-agriculture industry as a result of Temple Grandin's very important work. Either option below will provide you with the information you need to complete this project.
OPTION ONE: Watch the movie Temple Grandin starring Claire Danes. It would be best if you could watch it as a class. It lasts 109 minutes.
OPTION TWO: Use Temple Grandin's website.
The enormous growth and steady upward trajectory of protein synthesis from animal products over the past century represent a significant innovation in animal agriculture.
What is animal agriculture?The area of agriculture that deals with raising animals for meat, fibre, milk, or other goods is known as animal husbandry. It covers routine maintenance, selective breeding, and animal rearing.
The productivity potential, welfare, or management of animals and livestock can all be improved or enhanced by the use of livestock technology.
The idea of the "connected cow" emerged as a result of the increasing use of sensors in dairy herds to track health and boost output.
Animal behaviourist and scholar Mary Temple Grandin is from the United States.
She is the author of more than 60 research studies on animal behaviour and a well-known advocate for the humane treatment of cattle before slaughter.
Thus, these are some of the changes that took place in the animal-agriculture industry.
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(ii) which animal(s) have a `time to feed' larger than every rare animal? give the id and name of the animal.
Large whales such as the Blue Whale (ID: Balaenoptera musculus) have the largest "time to feed" among all animals.
"Time to feed" refers to the amount of time an animal needs to spend finding and consuming food in order to maintain its energy levels and survival.
Among all animals, large whales such as the Blue Whale have the largest "time to feed." Blue Whales can consume up to 4 tons of food in a single feeding session and they do this only a few times a month.
This is because whales are at the top of the food chain and feed on small organisms such as krill and small fish. However, the size of these organisms is so small that the whale needs to consume vast amounts of them in order to meet its energy requirements.
As a result, Blue Whales spend a lot of time filtering large volumes of seawater in order to consume enough food to survive.
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When the current pulse charges the bare membrane, the voltage rises as _____.
When the current pulse charges the bare membrane, the voltage rises as an exponential function.
When the current pulse charges the bare membrane, the voltage rises as an exponential function due to the charging of the capacitance of the membrane.
A bare membrane is a type of capacitor that stores electrical charge and has a capacitance. When a current pulse is applied to the bare membrane, it starts to charge and the voltage across the membrane rises.
The rate of rise of the voltage is determined by the capacitance of the membrane and the resistance in the circuit. The voltage rise is modeled as an exponential function because the charging of the capacitance is governed by an exponential differential equation.
The exponential rise of the voltage eventually reaches a maximum and starts to decay as the membrane approaches full charge. The final voltage across the membrane will depend on the initial conditions, the capacitance, and the resistance in the circuit.
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In metabolism, energy that is not used is?
Produced as heat. Energy is released during the breakdown of glucose, and the cell stores this energy as adenosine triphosphate, or ATP.
A tiny chemical called ATP provides cells with an easy way to temporarily store energy. Once created, ATP can be used as an energy source for other cellular operations. The phosphagen system, glycolysis, and the aerobic system are the three metabolic energy pathways used by humans to produce ATP. These pathways are made up of numerous chemical reactions that are catalysed by enzymes. The amount of energy used while at rest in a neutral environment, after the digestive system has been inactive for roughly 12 hours, is known as the basal metabolic rate. It is the speed at which one's metabolism resumes after "fasting" during sleeping.
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PLSSSS HELP IF YOU TURLY KNOW THISSS
Answer:
none of the above
the actual ans is cerebrum
go ahead and follow me pls
Answer: C i got it right yesterday
Explanation: