Option 3 is Correct. The term "growth plates" refers to the epiphyseal line. Children who are growing have cartilage discs called growth plates, often known as physes or epiphyseal plates.
Long bones like those in the arms and legs, which are placed between the middle and the tip, contain them. In most cases, the ends of long bones have one growth plate apiece. Children and adolescents' growth plates are the sites of new bone growth.
Cartilage, a flexible, rubbery material, makes up their body (the nose, for instance, is made of cartilage). The majority of growth plates are found near the ends of long bones. Each end of a long bone has a larger part called an epiphysis that is packed with crimson marrow and spongy bone.
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Correct Question:
This is commonly known as Growth Plates
Multiple choice:
1. spongy bone
2. yellow marrow
3. Epiphyseal Line
4. Articular Cartilege
Question 13 (2 points)
What is one way a population may decline?
Low death rate
Low emigration
High emigration
Och immigration
Answer:
High emigration
Explanation:
Emigration, or the movement of individuals out of a population or geographic area, can reduce the number of individuals in a population and cause population decline. High emigration rates can also result in a decrease in genetic diversity, mating opportunities, and ecosystem functioning, which can have negative impacts on the population and its environment.
why muscles are not likely to tear from their bones.
Heart muscles, smooth muscles, and cardiac muscles are not bone-attached. Keep in mind that these muscles are controlled involuntarily. Hollow organs including blood arteries, the digestive system, the bladder, and the uterus may contract because of smooth muscle.
How exactly do muscles defend bones?Skeletal muscle protects the skeletal system from external impacts by absorbing and transferring the energy of mechanical stress in time and space. This function of skeletal muscle is one of the least understood.
Skeletal muscles are joined to the bones by connective tissues like ligaments or bone in the muscular system. All muscles have two or more points of attachment.
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how do plants obtain sugars and energy to maintain and build their bodies?
Food is produced by plants through a process known as photosynthesis.Plants use their leaves to capture light energy during photosynthesis.Carbon dioxide and water are converted by plants into a sugar known as glucose using the power of the sun.
How do plants get their own energy and matter to generate food?Instead, plants create glucose, a type of sugar they require to exist, using sunshine, water, and airborne gases.All plants, algae, as well as some microbes engage in a process known as photosynthesis.
How do plant cells create sugars from sunlight and convert the sugars into the chemical ATP?During in the process of photosynthesis, which transforms light energy into the chemical energy stored as glucose, the chloroplast in a plant cell produces sugar.Sugar is broken down in mitochondria during the cellular respiration process into energy that plants can use to survive and thrive.
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Which of the following is found in eukaryotic cells but not in prokaryotic cells? A. a nucleus. B. a cell membrane. C. DNA. D. enzymes. E. a cell wall.
A nucleus is found in eukaryotic cells but not in prokaryotic cells.
What do you mean by nucleus?
The nucleus is the central and most important part of an atom. It is composed of protons and neutrons, which are collectively known as nucleons. The nucleus holds nearly all of the atom's mass and determines the chemical properties of the atom.
A nucleus is found in eukaryotic cells, which are cells with a membrane-bound nucleus, but not in prokaryotic cells, which are cells without a membrane-bound nucleus. The genetic material in prokaryotic cells is instead found in the cytoplasm, which is the viscous material inside the cell. The nucleus of a eukaryotic cell is primarily responsible for directing the activities of the cell, such as metabolism, growth, and reproduction. It contains the chromosomes, which are made up of DNA molecules and carry the genetic information of an organism.
Hence, option A is correct.
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in the selection from life on the mississippi, what is the main impression created by twain’s depiction of the steamboat?
Twain's portrayal of the steamboat mostly conveys an image of majesty and audacity.
What is the main thesis of Life just on Mississippi by Mark Twain?Life on the Mississippi, a memoir and a work of fiction, explores issues of cultural and technical change and advancement.The importance of observing and the usefulness of travel as just a learning opportunity are two more prominent topics.
What did Twain associate with the Mississippi River?The Mississippi River, located south of Cairo, continues to represent freedom and escape for Huck and Jim.However, because it is bringing them further into the slave states, the river now now symbolizes peril.
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How many lymphatic trunks are normally found in the body?A. 11B. 12C. 13D, 14
The right lymphatic artery and the bronchus are the ducts in the body. Jugular lymph trunks, descending aorta lymph trunks, Broncho mediastinal capillary trunks, and lumbar lymph trunks are the four pairs of lymph trunks.
In the human body, however many lymphatic tubes are typically present?There are six total. Right lymphatic conduit and thoracic duct are formed when the lymphatic trunks intersect. What is larger and longer on the left (collection duct). It starts at the level of second lumbar vertebra, just anterior to the spinal column below the diaphragm.
What do the body's lymphatic trunks look like?Collecting vessels come together to form lymphatic trunks. The nine trunks, which drain lymph from the specified locations, Each of which is found as a single gastrointestinal trunk and in twins left and right, respectively, with each aspect of the body.
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Need this for biology homework
Answer: A. All components work together
Classify each phrase applying to ribozymes; protein enzymes, both, Or neither: Ribozymes Protein enzymes Both Neither Answer Bank consist of DNA catalytic ectivity may be ussisted by mctal ions consis RNA exhibit catalytic #ctvily all types can catnyenesumamachnnimany MInA cumc typcs can only culalyre eacnmmnnet Enem Hino acids exhibit tcrtiary Ffeulerae contain rcactivc functional groups
Classification of ribozymes, protein enzymes, both, or neither is as follows:
Ribozymes: Ribozymes consist of RNA, exhibit catalytic activity, may be assisted by metal ions, all types can catalyze the same reaction many times.Protein enzymes: Protein enzymes contain amino acids, exhibit tertiary structure, some types can only catalyze a reaction once, contain reactive functional groups.Both: None.Neither: Consist of DNA.Ribozymes are RNA molecules that possess catalytic activity, while protein enzymes are catalytic proteins made up of amino acids. Both ribozymes and protein enzymes are capable of catalyzing numerous types of mechanisms, but there are no phrases in the answer bank that describe characteristics that apply to both.
Additionally, neither ribozymes nor protein enzymes consist of DNA, and the statement about reactive functional groups is more general and does not exclusively apply to either ribozymes or protein enzymes.
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Complete Question:
Classify each phrase applying to
Ribozymes; Protein enzymes, Both, Or Neither:
consist of DNAcatalytic activity may be assisted by metal ions consist RNA exhibit catalytic activity all types can catalyze the same reaction many timesSome types can only catalyze a reaction onceContain amino acids exhibit tertiary Structure contain reactive functional groupsDo the ventricles fill during ventricular diastole?
In a typical situation, this phase sees roughly 70% of ventricular filling. Ventricular pressure increases and filling speed slows as diastole deepens. Atrial contraction contributes 25% of the remaining filling ventricular diastole.
How does the ventricular diastole occur?When the left atrium's blood pressure exceeds that of the left ventricle's during ventricular diastole, the mitral valve opens, allowing the ventricle to passively fill with blood..
What are ventricular systole and diastole, respectively?contraction of the ventricles during ventricular systole that forces blood into the pulmonary artery and aorta. ventricular diastole is the time when the ventricular muscle relaxes and repolarizes.
When the aortic valve (or pulmonic valve) closes, diastole begins. When the mitral valve closes, diastole is complete (or tricuspid). Ventricular filling and relaxation both occur during this time. The period between diastole and the subsequent ventricular contraction is when the blood arteries restore blood to the heart.
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How many bones are part of axial skeleton?
The axial skeleton consists of 80 bones. It includes the bones of the skull, vertebral column, ribs, and sternum.
The skull has 22 bones, the vertebral column has 26 bones, the rib cage has 24 bones (12 on each side), and the sternum has 1 bone, for a total of 80 bones in the axial skeleton.
The skull is made up of 22 bones, including the bones of the cranium and the facial bones. The cranium is made up of eight bones that enclose and protect the brain, while the facial bones provide the structure for the face and protect the sensory organs such as the eyes, nose, and mouth.
The vertebral column, also known as the spine or backbone, is made up of 26 bones that are stacked one on top of the other. The vertebrae are separated by intervertebral discs, which provide cushioning and allow for movement of the spine. The vertebral column protects the spinal cord and also provides support for the head and upper body.
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a ________________ trait is expressed when two different alleles for the same trait are present.
A dominant trait is expressed when two different alleles for the same trait are present.
What is a dominant trait?Dominаnt, аs relаted to genetics, refers to the relаtionship between аn observed trаit аnd the two inherited versions of а gene relаted to thаt trаit. Individuаls inherit two versions of eаch gene, known аs аlleles, from eаch pаrent.
In the cаse of а dominаnt trаit, only one copy of the dominаnt аllele is required to express the trаit. The effect of the other аllele (the recessive аllele) is mаsked by the dominаnt аllele. Typicаlly, аn individuаl who cаrries two copies of а dominаnt аllele exhibits the sаme trаit аs those who cаrry only one copy. This contrаsts to а recessive trаit, which requires thаt both аlleles be present to express the trаit.
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Please can someone help me?
Answer: Crossing over
Explanation: There's not much point in explaining it, as you can see it explained right there, but there you have it, your answer.
I hope this helped you!
Which shapes from the Clade Race would be considered autoapomorphic? a. Arrow b. Circle c. Moon d. Triangle e. Square f. Cross g. Star
All shapes from the Clade Race are considered autoapomorphic.
What does the cladistics term "autoapomorphic" mean, and how does it relate to the Clade Race's shapes?All shapes from the Clade Race are referred to as "autoapomorphic" and are unique derived traits that are seen in only one taxon or group of animals.
How does the idea of phylogenetic classification connect to the Clade Race and what is it?The Clade Race is a simulation activity that illustrates how shared derived features (synapomorphies) can be used to locate monophyletic groups, or clades, on a phylogenetic tree and is used to teach the principles of cladistics. All forms in the Clade Race are regarded as autoapomorphic, which indicates that they stand for distinctive derived characteristics that characterise each clade.
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During oxidative phosphorylation, which answer choice best describes how electrons move?
Therefore, response option (A), which describes the mechanism by which electrons flow down an electron transport chain, resulting in the synthesis of ATP from ADP.
During oxidative phosphorylation, how do electrons move?Protons are pushed out of the matrix and into the intermembrane space as a result of the electrons moving through the electron transport chain. The electrons eventually reach oxygen, which reacts with protons to create water.
Where are the electron transport proteins for oxidative phosphorylation found in the cell?The electron transport chain, commonly referred to as the oxidative phosphorylation process, is made up of four protein complexes that work together to combine redox events to create an electrochemical gradient that leads to the synthesis of ATP.
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Which of the choices is not needed for DNA replication? A-None of the answer options is correct. B-nucleotides C-enzymes D-ribosomes E-DNA. F-Ribosomes.
For DNA replication needs nucleotides, enzymes, ribosomes, DNA, and ribosomes. Thus, the choice is not needed for DNA replication is none of the answer options is correct.
Hence, the correct option is A.
RNА polymerаse is аn enzyme thаt trаnscribes RNА from DNА; it is not essentiаl for DNА replicаtion. This enzyme is eаsy to confuse with primаse, whose primаry function is to synthesize the RNА primers necessаry for replicаtion. DNА polymerаse аdd nucleotides during replicаtion, synthesizing the dаughter strаnd from the pаrentаl templаte. Helicаse is responsible for sepаrаting double-strаnded DNА. Single-strаnd binding proteins аre needed to keep DNА from reаnneаling аfter it hаs been denаtured by helicаse.
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what A genetic mutation in mice leads to a dysfunctional leptin receptor in the hypothalamus that does not bind lepti?
A inheritable mutation in mice that leads to a dysfunctional leptin receptor in the hypothalamus that doesn't bind leptin can affect in several physiological consequences.
The hormone leptin, which is produced by fat cells, tells the brain when the body has enough energy reserves, which aids in controlling food input and energy balance. Leptin resistance results from a nonoperating leptin receptor in the hypothalamus, which is unfit to bind leptin. Due to the brain's incapability to descry leptin situations in the blood directly, there's an increase in the feeling of hunger and an increase in food consumption. As a result, the mouse may come fat because it'll eat further than is necessary and accumulate redundant fat.
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Which part of the neuron communicates an electrical signal to target tissue?A. DendritesB. Cell bodyC. AxonD. Nucleus
The neuron's axon transmits an electrical impulses to the intended tissue.
What is a tissue in biology?A tissue is a collection of cells with identical structures and function. The nonliving intercellular matrix covers the spaces between the cells. It's possible that certain tissues have a lot of this and others only a small amount.
What do you mean by tissue?A collection of cells with a similar structure that are arranged in a tissue to carry out a certain function. The four different types of tissues are muscular, epithelial, connective, and nerve. Each is composed of specialised cells that are organised into groups based on their structure and function.
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A cell membrane protein receptor that produces a multiple pathway response and regulates/coordinates many cell function _____.
Answer: iii
Explanation:
movement of water down its concentration gradient is definition of what?
Osmosis. In contrast to diffusion, which is the net passive movement of particles (atoms, ions, or molecules) from a region in which they are in higher concentration to regions of lower concentration.
Osmosis is the movement of water molecules along their concentration gradient through a selectively permeable membrane. A concentration gradient will cause particles in passive transport to diffuse down it from higher concentration to lower concentration until they are evenly spaced.
Osmosis is the process by which water diffuses over a semipermeable membrane from a high concentration to a low concentration (water is moving down its concentration gradient). When a region has a higher particle concentration than another, this is known as a concentration gradient.
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how can a pedigree be a useful tool for geneticists?
A pedigree, which also identifies the members of a family who have specific genetic pathogenic variants, traits, and diseases as well as their current health, depicts the relationships between family members.
How useful is pedigree analysis, and what is it?Pedigree analysis is the investigation of a specific attribute that is passed down from one generation to the next. It is useful to understand how a given trait is inherited as well as whether or not the trait is truly inherited.
How can a pedigree be used to monitor genetic disorders?A genetic pedigree records information on the health of several generations. The diagnosis of an inherited disorder, identifying an inheritance pattern, and guiding clinical decisions for testing and treatment can all be aided by this information.
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What is happening at the level of the protein for individuals with the three different combinations of alleles?
What happens at the level of the protein for individuals with the three different combinations of alleles is referred to as mutation.
What is Mutation?This is referred to as an alteration in the nucleic acid sequence of the genome of an organism, virus, or extrachromosomal DNA.
In a normal protein level, each individual inherits only two of them from their parents but in some scenarios there is three different combinations of alleles which is as a result of mutation which occurred during reproductive processes thereby making it the correct choice.
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The expression of a particular gene, and thus the resulting protein, can be influenced by different combinations of alleles. The three main combinations of alleles are:
homozygous dominantheterozygous homozygous recessive.What is alleles?This refers to one of two or more DNA sequences occurring at a particular gene locus.
The three different combinations of alleles:
Homozygous Dominant: If an individual has two copies of the dominant allele, they will express the dominant phenotype and produce the dominant protein. In this case, the individual will have 100% of the dominant protein.Heterozygous: If an individual has one dominant and one recessive allele, they will express the dominant phenotype and produce both dominant and recessive proteins. The proportion of each protein will depend on the specific gene and the dominance hierarchy of the alleles.Homozygous Recessive: If an individual has two copies of the recessive allele, they will express the recessive phenotype and produce only the recessive protein. In this case, the individual will have 100% of the recessive protein.Note: Not all genes have a simple dominant-recessive relationship, and the expression of a gene can also be influenced by environmental factors, epigenetics, and other complex mechanisms.
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the plasma ______ separates the internal contents of a cell from the extracellular environment.
Answer:
the plasma membrane.......
Which structure is not a part of the sporophyte generation?
A) Flower
B) Anther
C) Egg
D) Leaf
B) Anther structure is not a part of the sporophyte generation
What are the components of sporophyte generation?
Sporophytes are spore-producing plant generations. Algae, bryophytes, angiosperms, and gymnosperms all generate spores. A spore is a microscopic structure that develops into a new plant following germination. Mitotic spores and meiotic spores are the two forms of spores.
Plants have structures called elasters. They are present in liverworts to aid spore dispersal, but are missing in mosses, where spore dispersal is regulated by the peristome.
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What did Went's experiments with the gelatin block demonstrate? A. Plants cannot be induced to bend during growth unless they are exposed to an indirect source of light. B. Light induces the coleoptile to produce a diffusible substance that moves to the growing region of a plant where it stimulates cells to elongate. C. Gelatin can enhance the movement of a soluble factor from the growing region of a plant to the coleoptile where it accelerates growth. D. When a plant tip is removed from a growing plant, the plant acquires the ability to bend toward the light.
Went's experiments with the gelatin block demonstrates that Gelatin can enhance the movement of a soluble factor from the growing region of a plant to the coleoptile where it accelerates growth option c)
The auxin was dissolved in a gelatin block; gelatin does not affect the biological activity of the auxin. Several plant seedlings were prepared in a gelatin block; gelatin does not affect the biological activity of the auxin. Several plant seedlings were prepared as described above and growth was measured every 5 days.
In a separate experiment, an auxin/gelatin block applied to only half the cut edge of the tip caused the plant to grow and bend in the opposite direction. For example, if the auxin/gelatin block was applied to the left side of the cut edge, the plant grew and bent toward the light.
F. W. Went discovered that when the tip of Avena coleoptile is cut down, its elongation stops. However, when auxin was put outside, it started to grow again. He reported that experiments describe that auxin is produced in the coleoptile tip and is moved bottom to top the gravity.
F. W. Went found that when the tip of Avena coleoptile is cut, its elongation ceases. However, when auxin was added externally, its growth renewed. He suggested that experiments suggested that auxin is synthesized in the coleoptile tip and is translocated downwards towards gravity. It moves from the illuminated side to the shaded side.
More auxin is present on the shaded side than on the illuminated side. Due to this, the plant grows more on the shaded side and bends in the direction of the light source. It shows positive phototropism where faster cell elongation is seen on the shaded side and less on the illuminated side.
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T/F) An increase in blood viscosity will cause an increase in total peripheral resistance.
True. There will be an increase in overall peripheral resistance when blood viscosity increases.
Given a fixed systolic blood pressure, the connection between blood pressure and viscosity dictates that when blood viscosity rises, total peripheral resistance (TPR) must correspondingly rise, consequently decreasing blood flow. Blood flow & perfusion will rise when viscosity falls, on the other hand. The risk of morbidity and mortality from a number of deadly diseases, such as cardiovascular and cerebrovascular disease, is correlated with an increase in whole blood viscosity. These three elements influence peripheral resistance: Sympathetic activity narrows peripheral arteries through autonomic activity. Vasoconstrictor medications boost resistance, whereas vasodilators lower it, according to pharmacologic agents. Viscosity of blood: Resistance rises as viscosity increases. Inversely correlated with flow is blood viscosity, which is directly correlated with resistance.
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Arrange the types of microorganism in the order they evolved on Earth.
anaerobes, anoxygenic phototrophs, oxygenic phototrophs, aerobes, multicellular organisms
The arrangement of microorganisms in the order they evolved on Earth is as: Anaerobes, anoxygenic phototrophs, oxygenic phototrophs, aerobes, multicellular organisms
Earth's microorganism evolution is as;
Anaerobes were the earliest species to emerge on Earth. These animals thrived in oxygen-free habitats like deep sea vents or Earth's early atmosphere.
Anoxygenic phototrophs were the first to utilize photosynthesis for energy without producing oxygen. They generated electricity with hydrogen sulfide instead.
Oxygenic phototrophs—the first to create oxygen from photosynthesis—evolved later. This increased atmospheric oxygen, allowing aerobes to evolve.
Aerobes use oxygen to generate energy more efficiently than anaerobic respiration. Aerobes are now Earth's most common organisms.
Multicellular organisms evolved later and independently in separate lineages. Multicellular organisms have cells with distinct tasks that cooperate together.
This is a simplified summary, and the actual chronology and order of these groups' evolution are still debated and researched.
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The order in which these types of microorganisms evolved on Earth is Anaerobes, Anoxygenic phototrophs ,Oxygenic phototrophs, Aerobes, Multicellular organisms.
Microorganisms are some of the oldest life forms on Earth, and they evolved over billions of years. Anaerobic microorganisms were the first to evolve, and they thrived in the absence of oxygen. Anoxygenic phototrophs were the next to evolve, and they could use sunlight as a source of energy, but did not produce oxygen.
Oxygenic phototrophs evolved later and produced oxygen as a byproduct of photosynthesis, which had a significant impact on the Earth's atmosphere. Aerobic microorganisms evolved after oxygen became more abundant in the atmosphere, and they could use oxygen for respiration. Finally, multicellular organisms evolved much later, and they are the most complex form of life on Earth. This sequence of evolution is based on the geological and biological evidence available to us today.
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Which of these ecosystems has the lowest primary productivity per square meter?
A Salt marsh
B Open ocean
C Grassland
D Tropical forest
B. Open ocean. The open ocean ecosystem has the lowest primary productivity per square meter of the four options presented.
This is because the open ocean lacks the necessary nutrients and sunlight to support high rates of photosynthesis.
The vast majority of the ocean is nutrient-poor and the limited nutrients that are available are often found deep in the water column, making them inaccessible to photosynthetic organisms at the surface.
In addition, the ocean's surface waters are often mixed and churned by wind and waves, which can limit the amount of sunlight that penetrates the water and reaches photosynthetic organisms. This means that the productivity of the open ocean ecosystem is generally much lower than that of other ecosystems, such as salt marshes, grasslands, and tropical forests, which have access to greater amounts of nutrients and sunlight.
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mutations that are harmful to cells occur more frequently than those that benefit cells. T/F
The given statement ''mutations that are harmful to cells occur more frequently than those that benefit cells'' is true because the genetic code is highly conserved, meaning that any changes to it have the potential to disrupt normal cellular functions.
Most mutations that occur are either neutral (having no effect on the organism) or harmful (causing negative effects on the organism). Beneficial mutations, which confer a selective advantage, are relatively rare. This is because the genetic code is highly conserved and mutations that alter it are more likely to disrupt normal cellular functions than to improve them. However, over long periods of time and under certain circumstances, beneficial mutations can accumulate and lead to evolutionary changes.
For example, mutations can disrupt the normal function of genes, leading to abnormal cellular processes and the development of diseases such as cancer. Mutations can also cause structural changes in proteins, altering their ability to carry out their normal functions. Harmful mutations can occur spontaneously during DNA replication, or they can be caused by environmental factors such as radiation, chemicals, or viruses.
Overall, Mutations that are harmful to cells occur more frequently than those that benefit cells.
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__________ is the organ of digestion is the main site of absorption.
Small intestine is the organ of digestion is the main site of absorption. The walls of small intestine absorb water and the digested nutrients into bloodstream. As peristalsis continues, waste products of the digestive process move into large intestine.
What is the function of small intestine?Small intestine is a long, narrow tube that is located in abdomen and it receives partially digested food from stomach. The walls of small intestine contains millions of tiny and finger-like projections called villi and microvilli, which increases the surface area available for absorption.
As the partially digested food passes through small intestine, nutrients are absorbed through the walls of small intestine and into bloodstream. and these nutrients are carbohydrates, proteins, fats, vitamins and minerals.
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the ventricles begin to fill during ventricular diastole.
The ventricles begin to fill during ventricular diastole. True Diastole begins with the aortic and pulmonary valves closing. Intraventricular pressure lowers, while ventricular volume increases only slightly (isovolumetric relaxation).
During ventricular diastole, venous blood enters the left atrium, and when blood pressure within the left atrium exceeds blood pressure in the left ventricle, the mitral valve opens and passive filling of the ventricle occurs.
Diastole is the portion of the cardiac cycle that includes ventricular relaxation, passive and active blood filling into the heart, and the period immediately preceding ejection. The interaction of calcium inside cardiac myocytes is critical to ventricular relaxation at the cellular level.
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Full Question: The ventricles begin to fill during ventricular diastole. True /false