The windpipe (trachea) and the bronchi, bronchioles, and alveoli found inside the lungs are among the principal channels and structures of the lower respiratory tract.
Each bronchus splits into secondary and tertiary bronchi deep inside the lungs, which continue to branch to smaller airways known as the bronchioles. The larynx, the trachea, the bronchi, and the lungs make up the lower tract.
Beginning at the border of the larynx, the trachea separates into two bronchi before continuing into the lungs. Smaller bronchioles are created as the bronchi divide, and these bronchioles branch in the lungs to create airways. The nose and mouth are the beginning of the respiratory system, which continues through the airways and lungs.
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Neurons have processes called ______ that receive signals from other neurons.
Neurons have processes called dendrites that receive signals from other neurons.
Dendrites are branched structures that extend from the neuron's cell body and are the main points of contact between a neuron and its neighbors. They receive signals in the form of electrical impulses and chemicals called neurotransmitters from other neurons, and they then transmit this information to the neuron's cell body. The cell body then decides whether the neuron will send a signal down its axon to other neurons. In summary, dendrites are the input points of neurons, receiving information from other neurons and then relaying this information to the neuron's cell body.
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If conditions are not restore to optimal conditions, the enzymes of the body do not function correctly because they are _____________, potentially leading to organ failure and possible death.
If conditions are not restore to optimal conditions, the enzymes of the body do not function correctly because they are denatured, potentially leading to organ failure and possible death.
The term "denatured" is used to describe the condition of an enzyme that is unable to function properly. When an enzyme becomes denatured, it loses its structure and shape, which causes it to be unable to perform its intended function. This can happen due to a number of different factors, such as changes in temperature or pH levels. When an enzyme becomes denatured, it is unable to interact with the substrate that it is supposed to act on. As a result, the chemical reaction that the enzyme is supposed to catalyze cannot occur. This can lead to a number of different problems within the body, such as organ failure or even death, in extreme cases.
Therefore, it is very important to maintain optimal conditions for enzymes to function properly in the body. Denatured enzymes are unable to carry out their designated chemical reactions, and this can have drastic consequences on the body's metabolic processes.
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what is shift in vaginal flora suggestive of bacterial vaginosis meaning?
In bacterial vaginosis, the vaginal flora shifts from normal aerobic flora to anaerobic one.
Bacterial vaginosis is the condition where bacterial growth becomes excessive. The vagina normally harbors a variety of bacteria, but in limited quantities. This condition is characterized by the flow of vaginal discharge which has a distinct odor.
Vaginal flora refers to the bacteria living inside the vagina of females. These bacteria usually belong to the Lactobacillus species. The shift in there population occurs when the normal pH of the vagina is disturbed. This causes the bacteria to overgrow anaerobically and cause the disease.
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simple spinal reflexes occur independent of the brain.truefalse
Simple spinal reflexes occur alone in the brain. Harm to the ventral foundation of a spinal nerve would imply that the tactile gift of the reflex circular part would be raided. For the spinal cord to process a reflex arc, interneurons must be involved. The correct answer is true.
Control centers in the brain have a significant impact on spinal reflexes. Axons originate in a variety of brainstem and cerebral cortex centers and synapse primarily with spinal interneurons, with some providing direct input to motor neurons.
The brain does not participate in a reflex action. These automatic actions are controlled by the spinal cord, which response to stimuli without considering how to respond. The brain does not respond in any meaningful way to it.
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commercial meat tenderizers contain papain and/or bromelain, both of which are enzymes used to tenderize meat. what type of organic molecules do these enzymes help break down?
Papain and bromelain are both proteolytic enzymes, which means that they help break down proteins. Specifically, they hydrolyze or cleave peptide bonds between amino acids in proteins.
By breaking down the proteins in meat, these enzymes can help to tenderize it, making it easier to chew and digest. Plant enzymes (such as papain, bromelain, and ficin) have been studied extensively as meat tenderizers. Novel plant proteases (actinidin and zingibain) and microbial enzyme preparations have recently piqued the interest of researchers due to their ability to manage meat tenderization and other benefits.
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The two main classes of molecules that function as hormones are steroid hormones and hormones that are derived from
A. long-chain fatty acids
B. mucleaic acids
C. cholesterol
D. carbohydrates
E. amino acids
Option E. The The two main classes of molecules that function as hormones are steroid hormones and hormones that are derived from
What are amino acid?The two main classes of molecules that function as hormones are steroid hormones and hormones that are derived from amino acids.
Steroid hormones are derived from cholesterol, while hormones derived from amino acids include peptides, proteins, and amines.
Long-chain fatty acids and carbohydrates are not typically involved in hormone signaling.
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What is the pair of chromosomes inherited from the mother and the other pair from the father?
A pair of chromosomes inherited from the mother and the other pair from the father is called a homologous chromosome pair.
Homologous chromosomes are similar in size, shape, and gene content and carry the same genes at the same loci, although the specific alleles may differ. In humans, the homologous chromosome pairs form the 23 pairs of chromosomes that contain the genetic material necessary for the development and functioning of the organism.
During sexual reproduction, each parent contributes one set of chromosomes, including one member of each homologous chromosome pair, to their offspring. The process of meiosis ensures that each gamete receives one member of each homologous pair, resulting in genetic diversity in the offspring.
This means that the genetic material inherited from the mother and father are combined in their offspring, leading to genetic variation within a population. The study of homologous chromosomes is essential for understanding genetics, inheritance patterns, and evolutionary biology.
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Select the parts that make up the backbone of the DNA molecule. Select the TWO answers that are correct. a. sugar b.glycine c.nucleoside d.phosphate e.nitrogenous base
The backbone of the DNA molecule is composed of sugar and phosphate groups. These components are connected by phosphodiester bonds, which alternate to form a long chain.
The correct answers to the question “Select the parts that make up the backbone of the DNA molecule” are a. Sugar and d. Phosphate. Sugar (deoxyribose) and phosphate molecules are the two primary components of the DNA backbone. The sugar and phosphate molecules alternate to form the long chain that makes up the backbone. The nitrogenous base, which is bonded to the sugar, extends away from the backbone and pairs with its complementary base on the opposite strand to form the DNA molecule's double helix structure. Nucleoside is a combination of a sugar molecule (ribose or deoxyribose) and a nitrogenous base. These components are used to create nucleotides. Glycine is an amino acid, which is a component of proteins, not DNA. The nitrogenous base is bonded to the sugar and extends away from the backbone, as mentioned above. However, it is not a component of the backbone itself, so it is not a correct answer to this question.
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Place the steps involved in the process of bacterial transformation in the correct order.A. Donor cell lysis, B. donor cell binds to receptor site on recipient cell, C. one strand of donor cell DNA is degraded, D. transformed DNA Pairs with homologous region on recipient cell, E. then recombines with recipient cell
Correct order- Lysis of donor cells. The receptor on the recipient cell is tied by the donor cell. There is the degradation of one donor cell DNA strand. transformed DNA forms pairs with the recipient cell's homologous region. then fuses with the recipient cell once more.
For an allogenic transplant, stem cells are obtained from a donor. The patient receives the stem cells from the donor after receiving chemotherapy or radiation therapy. Another name for this is an ALLO transplant. During an ALLO transplant, a lot of people have a "graft-versus-cancer cell effect."
The recipient patient receives healthy stem cells from a healthy donor, which are then replaced by the healthy stem cells in the recipient patient's blood and immune systems. Patients whose bone marrow (stem cell factory) has failed as a result of an illness, chemotherapy, or radiation treatment benefit from stem cell transplants.
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how is the natural system helpful to the world and others?
Answer: Natural systems provide for our fundamental survival needs. This may seem self-evident, yet it is alarming to realize that younger generations are growing up in homes that are farther away from their sources of concern, a source we schould all be worried about somtime in our life.
Explanation:
Who are the 2 scientists that influenced Darwin's theory of evolution?
The two scientists that influenced Darwin's theory of evolution are Thomas Malthus and Charles Lyell.
Evolution is defined as the process of gradual development or changes of an organism's features over time as a result of changes in genetic and environmental factors. The theory of evolution, as proposed by Charles Darwin, is the most widely recognized scientific theory that explains how organisms change and adapt to their surroundings.The theory of evolution proposes that all species on Earth have evolved from a single common ancestor through a process of natural selection. According to Darwin's theory of evolution, organisms that possess favorable characteristics for their environment are more likely to survive and pass on those characteristics to their offspring. Those organisms that are less well-suited to their environment will not survive and their traits will eventually be lost over time.In the development of his theory, Darwin was influenced by the works of several scientists including Thomas Malthus and Charles Lyell. Darwin incorporated their ideas into his own to produce the theory of evolution. Malthus argued that human population growth was limited by food supply, and this idea provided Darwin with the concept of natural selection. Lyell's work in geology proposed that the Earth's surface has been shaped over a long period of time by gradual processes, and this helped Darwin to understand the concept of slow changes in species over time.Learn more about Darwin's theory of evolution: https://brainly.com/question/1589147
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What does it mean by Peptide bond?
Answer:
A covalent bond is produced by connecting the carboxyl group of one amino acid to the amino group of another while removing a molecule of water.
Explanation:
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Alternative forms of a gene having the same position on a pair of homologous chromosomes best describe which of the following? (a) loci (b) phenotypes (c) genotypes (d) alleles.
Alternative forms of a gene having the same position on a pair of homologous chromosomes are best described as alleles. So, option D is correct.
A gene's allele is a variant form that develops via mutation and is present at the same locus on a chromosome. Alleles can exhibit various phenotypes, or observable qualities, depending on how their DNA is sequenced. An individual's genotype is the collection of alleles found in their genome.
The genotype of an individual, which in turn influences their observable traits or phenotypes, is determined by the alleles, which are different variants of a gene that share the same location (locus) on a pair of homologous chromosomes.
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how many total gametes are produced after both meisois 1 and 2?
Answer:
Homologue pairs separate during a first round of cell division, called meiosis I. Sister chromatids separate during a second round, called meiosis II. Since cell division occurs twice during meiosis, one starting cell can produce four gametes (eggs or sperm).
Explanation:
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Lesson 4 Invertebrate Evolution and Diversity 1
I need help with this lesson if anyone could help me today
Invertebrate don't have or develop a vertebral column, also known as a backbone or chine. Insects, spiders, prawns, draggers, oysters, squids, octopuses, earthworms, moochers, and doormat are all exemplifications of pets.
Elaboration of Invertebrate
The first bitsy critter appeared in the ocean3.5 billion times agone . The first pets were born in the water. Cambrians, for illustration, were soft- bodied creatures with a carapace or shell.
Brute bracket
The elaboration of pets has established numerous abecedarian characteristics of advanced organisms, from the foremost sponger species to the more recent echinoderms.
What's biodiversity, and why is it important?
Biodiversity refers to the cornucopia and diversity of life on the earth, and it's our earth's most complicated and vital characteristic. Life couldn't live without biodiversity.
Biodiversity bracket
Diversity is classified into three orders
inheritable Biodiversity
Species Biodiversity
Ecological Biodiversity
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Complete Question:
What are Evolution of Invertebrates: Symmetry & Specialization? Also mention what is biodiversity?
which of these phosphorylates adp to make atp? a structure of a thylakoid. letters from a to e indicate definite structures. letter a indicates the first protein complex located in the thylakoid membrane. letter b indicates a multiprotein complex between two complexes a and c. letter c marks the second integral membrane protein complex. letter d marks a substance inside the thylakoid. letter e indicates a flask-shaped structure in the membrane of the thylakoid, which has a canal through the membrane. which of these phosphorylates adp to make atp? a structure of a thylakoid. letters from a to e indicate definite structures. letter a indicates the first protein complex located in the thylakoid membrane. letter b indicates a multiprotein complex between two complexes a and c. letter c marks the second integral membrane protein complex. letter d marks a substance inside the thylakoid. letter e indicates a flask-shaped structure in the membrane of the thylakoid, which has a canal through the membrane. c a d e b
The integral membrane protein complex that phosphorylates ADP to make ATP is the letter C.
Phosphorylation is a procedure that changes a protein or any other organic molecule by attaching a phosphate group to it, usually by a reaction with an ATP molecule. The process of adding a phosphate group to an organic molecule, such as ATP, ADP, or glucose, is known as phosphorylation.
To release energy, these processes generate ATP from ADP or phosphate ions. Photophosphorylation, which occurs in the thylakoid membrane of chloroplasts in photosynthetic organisms, is one of the most important types of phosphorylation.
Though thylakoid is very essential for photophosphorylation it itself does not phosphorylate nor does the multiprotein complex between thylakoid and second integral membrane protein. Chlorophyll, the substance inside the thylakoid is only responsible for trapping the sunlight.
The flask-shaped structure called stromal lamellae maintains grana at a distance from one another so that they do not crowd together, they improve the effectiveness of photosynthesis. They make sure that photosynthesis uses the most amount of solar energy possible.
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identify the labeled structures of human skin. a a drop zone empty. b b drop zone empty. c c drop zone empty. d d drop zone empty. e e drop zone empty. hair follicle sensory receptor arrector pili muscle sweat gland oil gland
Last option. The labeled structure of the human body is given as
a - Hair follicleb - Sensory receptorc - Arrector pili muscled - Sweat glande - Oil glandWhat is the human body made of?Cells are the basic unit of life and the building blocks of tissues and organs. They carry out various functions such as metabolism, reproduction, and communication.
Tissues are groups of similar cells that work together to perform a specific function. There are four main types of tissues in the human body: epithelial, connective, muscular, and nervous.
Organs are made up of different types of tissues that work together to carry out specific functions. Examples of organs in the human body include the heart, lungs, liver, kidneys, brain, and skin.
Systems are groups of organs that work together to perform a specific function. There are several systems in the human body, including the digestive system, respiratory system, circulatory system, nervous system, endocrine system, reproductive system, and musculoskeletal system.
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Classify each of the following simple carbohydrates as disaccharides or monosaccharides.
Carbohydrates are one of the three main macronutrients that provide energy to the body, along with fats and proteins. They are made up of carbon, hydrogen, and oxygen atoms and can be classified into several categories based on their chemical structure, including monosaccharides, disaccharides, oligosaccharides, and polysaccharides.
Here are the classifications for the given simple carbohydrates:
Glucose - MonosaccharideSucrose - DisaccharideFructose - MonosaccharideMaltose - DisaccharideGalactose - MonosaccharideLactose - DisaccharideMonosaccharides are the simplest carbohydrates and cannot be hydrolyzed into smaller carbohydrates. Examples include glucose, fructose, and galactose.
Disaccharides, on the other hand, are made up of two monosaccharides joined together by a glycosidic bond. Examples include sucrose (glucose + fructose), maltose (glucose + glucose), and lactose (glucose + galactose). Disaccharides can be hydrolyzed into their component monosaccharides.
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Read each of the tissue descriptions below. Then click and drag them into the appropriate category to identify from which primary germ layer each was derived. -The muscles that make your hair stand up
-The ductus deferense - The lining of the esophageal lumen
-The gland where esophageal lumen T-lymphocytes mature -The biceps brachi -The lining of up -The transitional epithelium of the urinary bladder -The lumenal lining of the proximal convoluted tubule -The tissue that sedretes cortisol -The lateral rectus muscles
Primary germ layer each was derived as follows:
The muscles that make your hair stand up are derived from the mesoderm. The ductus deferens are derived from the mesoderm. The gland where esophageal lumen T-lymphocytes mature is derived from the endoderm. The biceps brachii is derived from the mesoderm. The lining of the esophageal lumen is derived from the endoderm. The transitional epithelium of the urinary bladder is derived from the endoderm. The lumenal lining of the proximal convoluted tubule is derived from the endoderm. The tissue that secretes cortisol is derived from the mesoderm. The lateral rectus muscles are derived from the mesoderm.
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What is a similar structure in different species that evolved separately called?
The similar structure in different species that evolved separately is called a convergent structure.
The term “convergent structure” refers to the process by which distinct species with different ancestors develop similar structures, either through adaptation to similar environmental conditions or similar ecological roles.
This phenomenon, known as convergent evolution, typically results in different organisms developing similar adaptations to solve the same problem.
Both structures have evolved to perform the same task (flight), and both have independently evolved to do so due to selective pressure in a specific habitat.
A similar structure, shared by different species, is termed homology when it is derived from a common ancestor, and analogy when it is not.
The similarity between bat wings and bird wings is a classic example of analogy, since these structures did not evolve from a common ancestral structure but instead emerged independently in response to selective pressure.
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Why is fermentation a required pathway for providing cellular energy when oxygen is unavailable or in insufficient supply? NAD is not regenerated by the electron transport chain. ATP production requires oxygen. NADH cannot be reduced to NAD Cells need either lactic acid or ethanol when oxygen is low, Lactic acid or ethanol can be used to generate oxygen.
Fermentation is a crucial pathway for providing cellular energy when oxygen is unavailable or in insufficient supply, as it allows cells to continue generating ATP by regenerating NAD+ and allowing glycolysis to continue.
Because it enables the regeneration of the oxidized form of the electron transport molecule NAD+, which is necessary for glycolysis to proceed, fermentation is a necessary mechanism for supplying cellular energy when oxygen is missing or in inadequate supply. Pyruvate is produced from glucose during glycolysis, and NAD+ is reduced to NADH. The electron transport chain's ability to convert NADH back into NAD+ in the presence of oxygen permits glycolysis to continue creating ATP. The electron transport chain, on the other hand, is unable to work when oxygen is lacking or insufficiently present, and NADH builds up, which can inhibit glycolysis.
By oxidizing NADH back to NAD during fermentation, NAD+ can be replenished, allowing glycolysis to continue generating ATP. Certain cells, like muscle cells and some microbes, can employ fermentation to make lactic acid or ethanol as end products in the absence of oxygen, allowing them to generate ATP without the need for oxygen.
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what happened to the e. coli cells you spread on the lb/ampicillin plates that did not contain a pclone plasmid?
The E. coli cells that were spread on the LB/Ampicillin plates that did not contain a pclone plasmid would not have been able to grow properly on the plates.
What is pclone plasmid?
The e. coli cells that were spread on the lb/ampicillin plates but did not contain a pclone plasmid would not have grown on the plates. The pclone plasmid is generally used to generate clones and for research purposes. E. coli cells that contain pclone plasmid are able to grow in the presence of ampicillin antibiotic, while the cells that do not contain pclone plasmid cannot grow in the presence of ampicillin antibiotic.
The growth of the E. coli cells on the LB/ampicillin plates would indicate that the cells have the pclone plasmid. Cells that did not grow on the plates would indicate that they did not have the plasmid.
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In the context of conservation biology, what does genetic diversity mean? a. The total number of species in a given region. b. Number and relative frequency of alleles in a population, species, or lineage. c. A quantity summarzing the average genetic difference between two randomly chosen individuals in a population. d. The number and relative frequency of species in a given region.
In the context of conservation biology, genetic diversity refers to the number and relative frequency of alleles in a population, species, or lineage. So, option B is correct.
The variety in genetic material within and between populations of a species is reflected by genetic diversity, which is a crucial component of biodiversity. Populations with genetic diversity can adapt to shifting environmental conditions, fend off disease, and avoid the detrimental consequences of inbreeding, genetic drift, and other factors that can make populations less fit. For species and ecosystems to survive over the long term, genetic diversity must be preserved.
Option (b) correctly defines genetic diversity as the number and relative frequency of alleles in a population, species, or lineage, while the other options are incorrect.
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Baby Jessica's parents respond to her every need as soon as she cries. Freud would predict that, as an adult, Jessica will ________.a. become sexually promiscuousb. be well adjustedc. be passived. rebel against authority figures
Baby Jessica's parents respond to her every need as soon as she cries. Freud would predict that, as an adult, Jessica will be passive.The correct answer is c.
According to Freud's psychoanalytic theory, a child's first relationships are with its mother, and it is in these relationships that the ego emerges. The id, ego, and superego are the three components of the mind (conscious and unconscious) that have an impact on behavior.
The id is the instinctual side of the psyche that is driven by the need for immediate gratification, while the ego is the logical side of the psyche that helps to mediate the conflict between the id and the superego.The parents of Baby Jessica's are providing her with immediate gratification by responding to her every need as soon as she cries.
Freud would predict that Jessica would be passive as an adult because she would not be learning how to delay gratification, which is a critical skill for developing a healthy ego. Delaying gratification involves recognizing that immediate gratification may not be the best course of action in the long term.
In conclusion, Baby Jessica's parents respond to her every need as soon as she cries. Freud would predict that Jessica would be passive as an adult because she would not be learning how to delay gratification, which is a critical skill for developing a healthy ego.
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Which of the following steps in the breakdown of glucose directly requires the use of oxygen?a. glycolysisb. citric acid cyclec. electron transport chaind. acetyl CoA conversione. None of these require oxygen.
In the breakdown of glucose, the electron transport chain is the step that directly requires the use of oxygen.
This process requires molecular oxygen (O2) to transfer electrons from the final protein in the electron transport chain to oxygen. Oxygen acts as the final electron acceptor in the electron transport chain. This reaction produces water, which is excreted from the body.
The energy produced from the electron transfer is used to pump protons across the mitochondrial inner membrane, forming a gradient called the proton motive force. This energy is then used to create ATP from ADP via the process of oxidative phosphorylation.
Glycolysis occurs in the cytoplasm, where glucose is split into two molecules of pyruvate. In the absence of oxygen, pyruvate can be converted into lactic acid or ethanol. The citric acid cycle or Krebs cycle occurs in the mitochondrial matrix, where acetyl CoA is oxidized to carbon dioxide and water, producing ATP, NADH, and FADH2.
Acetyl CoA conversion occurs when pyruvate is converted into acetyl CoA, which can enter the citric acid cycle. This conversion occurs in the mitochondrial matrix. None of these require oxygen as they can still occur without oxygen.
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The disaccharide composed of glucose and galactose joined by a glycosidic bond is called
Lactose. A molecule of galactose is combined with a molecule of glucose to form lactose via a 1,4-glycosidic bond. Glucose and galactose combine to form the disaccharide known as lactose.
Two monosaccharide units are joined by glycosidic linkages in either the or orientation to form disaccharides. Lactose, maltose, and sucrose are the three most significant disaccharides. A molecule of glucose and a molecule of fructose are joined to form the compound known as sucrose. Galactose and glucose combine to produce a -14 glycosidic bond, which results in the disaccharide lactose. The formal name of the compound is -D-galactopyranosyl-(1-4)-D-glucose. D-galactose and D-glucose combine to generate 19 distinct disaccharides.
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Frieda is in tenth grade and decides to try out for the track team. Which of the following is anexample of selection?Frieda decides that trying out for the track team is more important than studying for her mathtest.Frieda plans to run four days a week to train for the team.Frieda asks another student on the track team to help her train.Frieda misses one of her training sessions and decides to give up some of her allotted free timeto train
The following is an example of selection: Frieda decides that trying out for the track team is more important than studying for her math test.
Selection is the process of selecting or rejecting an object on the basis of certain criteria. It is defined as the process of choosing or rejecting something based on certain criteria. Thus, in the given question, Frieda decides that trying out for the track team is more important than studying for her math test is an example of selection.Selection is one of the essential tools used in statistics to arrive at a conclusion. In this process, we select a few samples from a population for statistical analysis.Frieda planning to run four days a week to train for the team, Frieda asking another student on the track team to help her train, and Frieda missing one of her training sessions and deciding to give up some of her allotted free time to train are not examples of selection.Learn more about statistical analysis: https://brainly.com/question/17663093
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which description is correct regarding how the majority of oxygen is transported to cells and tissues?
The correct description regarding how the majority of oxygen is transported to cells and tissues is by binding to hemoglobin in red blood cells. Oxygen can be transported in the blood in two ways: dissolved in the plasma or chemically bound to the protein hemoglobin in red blood cells.
Hemoglobin is an iron-containing protein in red blood cells that binds to oxygen and carries it from the lungs to the body's tissues and organs. Hemoglobin is the most abundant protein in red blood cells, and each hemoglobin molecule can bind up to four oxygen molecules.
When oxygen binds to hemoglobin, it forms oxyhemoglobin, which is a bright red pigment. This is why oxygen-rich blood is bright red in color.
The majority of oxygen is transported to cells and tissues by binding to hemoglobin in red blood cells. This process is known as oxygen transport, and it is essential for delivering oxygen to all parts of the body.
In summary, the correct description regarding how the majority of oxygen is transported to cells and tissues is by binding to hemoglobin in red blood cells.
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put the following steps in order for making a protein that will be exported from a eukaryotic cell, beginning with the first step at the top of the list. instructions choice 1 of 5. the vesicle delivers the protein to the golgi apparatus, where the protein folds and is packaged in a vesicle for export from the cell. toggle button the vesicle delivers the protein to the golgi apparatus, where the protein folds and is packaged in a vesicle for export from the cell. choice 2 of 5. the mrna binds to a ribosome of the rough er and produces a protein, which exits the er in a vesicle. toggle button the mrna binds to a ribosome of the rough er and produces a protein, which exits the er in a vesicle. choice 3 of 5. in the nucleus, genes in the dna that encode the membrane protein are copied into a messenger rna (mrna). toggle button in the nucleus, genes in the dna that encode the membrane protein are copied into a messenger rna (mrna). choice 4 of 5. the vesicle fuses with the cell membrane and releases the protein to the extracellular environment. toggle button the vesicle fuses with the cell membrane and releases the protein to the extracellular environment. choice 5 of 5. the mrna exits the nucleus through nuclear pores of the nuclear envelope. toggle button the mrna exits the nucleus through nuclear pores of the nuclear envelope.
The order for making a protein that will be exported from a eukaryotic cell is: (1) mRNA exits from the nucleus, (2) genes copied into mRNA, (3) mRNA binds a ribosome, (4) protein packaged in Golgi apparatus, (5) protein released.
The mRNA exits the nucleus through the nuclear pores of the nuclear envelope. In the nucleus, genes in the DNA that encode the membrane protein are copied into a messenger RNA (mRNA).
The mRNA binds to a ribosome of the rough ER and produces a protein, which exits the ER in a vesicle. The vesicle delivers the protein to the Golgi apparatus, where the protein folds and is packaged in a vesicle for export from the cell.
The vesicle fuses with the cell membrane and releases the protein to the extracellular environment.
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who is known as the father of taxonomy, who developed our modern system of naming organisms?