Answer: B. The crust does not contain much iron
Explanation:
Option A is wrong because Iron is not lighter than the oxygen
Option C is wrong because iron does conduct electricity so answer B is correct!
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a skeletal muscle fiber was bathed in thapsigargin, a ca -atpase inhibitor, then stimulated repeatedly to contract. what is the predicted result?
Decreased contraction force as result of a breakdown in Ca gradient across sarcoplasmic reticulum membrane. In steady state, quantity of calcium entering cell must match quantity pushed out on each cardiac muscle.
If not, either Ca would be gained or lost by the cell. Only momentary imbalances between Ca entrance and departure can influence the magnitude of the Ca transient, which in turn affects contractility. The electric excitation of the surface membrane is connected to contraction by a mechanism known as excitation-contraction coupling. Numerous studies conducted since the original observations in cardiac muscle have shown the underlying variations in cytoplasmic calcium concentration. Ca attaches to troponin, causing the thick and thin filaments to slide and the cells to shrink. This causes pressure to build up inside the ventricle and blood to be expelled. As a result, force is dependent on how much calcium is bound to troponin. This is going to depend on the height and length of the [Ca2+]i increase. It will also rely on the degree of Ca binding, which can be modified genetically, is regulated by elements like phosphorylation, and could serve as the foundation for therapeutic approaches. However, the amount of intracellular Ca is the main variable that controls contraction. It's crucial to keep in mind that normal cardiac function necessitates that force and that [Ca2+]i relaxes fast to low enough levels so that the heart can refill with blood. This is in addition to concentrating on the elevation of [Ca2+]i during systole. As a result, it is imperative to strictly manage both diastolic and systolic [Ca2+]i; this regulation is the focus of the current paper.
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in individuals homozygous for a tandem duplication, the two homologous chromosome with duplications can pair out of register during meiosis. such homologs can undergo a(n) crossing-over.
In individuals homozygous for a tandem duplication, two homologous chromosome with duplications can pair out of register during meiosis. Such homologs can undergo unequal crossing-over.
What is meant by unequal crossing over?Unequal crossing over is a type of gene duplication that deletes a sequence in one strand and replaces it with a duplication from its sister chromatid in mitosis or from homologous chromosome during meiosis
Repeated rounds of unequal crossing over causes homogenization of the two sequences. With the increase in the duplicates, unequal crossing over may cause dosage imbalance in the genome that can prove to be highly deleterious.
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5. the phenotypic ratio for a monohybrid cross, a cross between parents that differ in only one character, for the f2 generation was found to be
The Phenotypic ratio in a monohybrid cross between two heterozygous parents in the f2 offspring is 3:1.
Gregor John Mendel who is considered the father of genetics gave the phenotypic ratio of a monohybrid cross.Phenotypic ratio is the quantifiable relationship between phenotypes that shows how often the frequency of one phenotype equals the frequency of another phenotype.Two homozygous crossed plants considering that the progeny was heterozygous.He called this cross a monohybrid cross. The phenotypic ratio in the f2 offspring differs from the original ratio due to this incomplete inheritance process.This can be explained by the Punnett square.
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the concentration of solutes in a red blood cell is about a third that of seawater – about 0.3 m. if red blood cells are immersed in pure water, they swell. calculate the osm
The osmotic pressure at 25 °c of red blood cells across the cell membrane from pure water is 7.34atm
What is osmotic pressure?
Osmotic pressure is defined as the pressure that must be applied to the solution side to stop fluid movement when a semipermeable membrane separates a solution from pure water.
What would happen if red blood cells were placed in seawater?
Seawater is hypertonic to the cytoplasm in vertebrate cells and in plant cells. If a red blood cell and a plant cell were placed in seawater, the red blood cell would burst, and the plant cell would shrink.
What is the solute concentration of red blood cells?
Red blood cells have a solute concentration of around 0.9%.
Thus, the osmotic pressure of red blood cells is 7.34atm
Given: Concentration of Red blood cell C=0.30M, R=0.0821, T=298k
Osmotic pressure =CRT
Osmotic pressure=0.3 × 0.0821 × 298
Osmotic pressure =7.33979 ≃ 7.34atm
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Consider the types of mutations and the circumstances in which mutations arise to label the TRUE statements below. (Select all that apply.) 16 Check All That Apply a. All mutations are harmful to the organism's genome, b. Mutagens and meiosis are two sources of mutation c. A single-base insertion is usually more harmful than a single-base substitution d. Insertions, but not deletions, can change the codon reading frome. e. Mutations can be useful to the organism.
The reading of a codon can vary due to insertions but not due to deletions. The organism can benefit from mutations.
Environmental factors including UV light (sunlight), nuclear radiation, or specific chemicals can result in mutations. When a cell duplicates their DNA during replication is order to prepare for cell division, mutations can also take place. Environmental organism known as mutagens are what trigger mutations. The reading of a codon can vary due to insertions but not due to deletions. The organism can benefit from mutations.Mutations may occur naturally spontaneously. Errors with DNA replication during cellular division, exposure to mutagens, or viral infection can all cause mutations. Somatic mutations (which happen in body cells) cannot be passed on to children, but germline mutations (which happen in eggs and sperm) may.
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What is the main structural difference between enveloped and nonenveloped viruses?.
A membrane fusion reaction transports the viral genome across the virus's lipid bilayer and a cellular membrane in enveloped viruses. The viral genome is typically delivered along a cellular membrane by a pore formed by protein components of a viral capsid in nonenveloped viruses.
Non-enveloped viruses, including such coxsackieviruses, rotaviruses, and polioviruses, can survive on surfaces for long periods of time, whereas enveloped viruses, such as H1N1 and human coronaviruses, continue to stay infectious on surfaces for several days. The persistence of dried viruses is influenced by a variety of environmental conditions and factors including such heat, moisture, pH, and surface type.
A virus with an outer envelope or wrapping. This envelope is produced by the infected cell, or host, through a process known as "budding off." During the budding process, recently created virus particles are "enveloped," or wrapped in an outer coat composed of a small piece of a cell's plasma membrane. Influenza A (H1N1) is a single-stranded RNA enveloped virus with a diameter of 80-120 nm that belongs to the Orthomyxoviridae family.
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examine the reconstruction of the ardipithecus ramidus pelvis below. what adaptations for bipedalism are seen in this pelvis?
The curvature in the lower back (lumbar lordosis) helps balance the upper body on the pelvis. In the upper half of the pelvis, the size, shape, and orientation of the iliac paddles differ between apes and humans in a way that reflects our commitment to the walking biped.
In Ardipithecus ramidus it has been tapered and flattened on the sides to support the legs and they also have a shorter and wider pelvis. The three skeletal adaptations that result in a platypelloid pelvis include: an elongated ilium that repositions the gluteal muscles, a shorter distance between the sacroiliac and hip joints, and a ventrally titrated pelvis that aligns the sacroiliac and hip joints. and ultimately produces lumbar lordosis Human bipedalism is promoted by a narrow pelvis. However, in mammals, the pelvis is also the passageway through which newborn babies pass, and the birth canal must be large enough to accommodate a birth. Bipedalism resulted in skeletal changes in the joints of the legs, knees, and ankles, spinal vertebrae, toes, and arms. Most significantly, the pelvis became shorter and rounder, with a smaller birth canal, making childbirth more difficult for humans than other primates.
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Suppose a female fruit fly carries a mutation in her nanos gene that prevents expression of the nanos protein in any eggs she produces. Which effect is likely to be observed?.
All cells get ventralized when cactus, a different maternal effect gene, is absent. These maternal genes create essential proteins that are needed to make eggs.
Which circumstances would cause developing ducks to lose their webbing?Webbing is lost as a result of apoptosis. Duck embryos that have been experimentally implanted with mutant BMP4 have non-webbed feet. Both the growth of a single organism and the evolution of species distinctions are governed by the actions of genes under the direction of genetic switches.
Which role do gap genes play in Drosophila?In Drosophila melanogaster and other insects, the gap gene system regulates the initial steps of the segmentation pathway. This system has a significant role in embryo patterning because to its tractability.
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until recently it was the widely accepted explanation of macroevolution. this model stated that small changes occur at a steady rate over many millions of years. this is the model of evolution.
Origins, diversifications, & extinctions are examples of macroevolutionary processes that occur on a large scale and require a long period, called geologic time.
Studying patterns just on tree of life just above species level is a part of macroevolution, as is determining the mechanisms that are probable to have caused these patterns. In order to provide a more full understanding of the evolutionary extinctions past of primates, macroevolutionary thinking is helpful. Origins, diversifications, & extinctions are examples of macroevolutionary processes that occur on a large scale and require a long period, called geologic time. It need historical evidence, such as fossils from hundreds of millions of years ago or slowly evolving genetic sequences, to comprehend such processes. Macroevolutionary is the term used to describe broad, long-term evolutionary changes.
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the filtration membrane normally allows water, electrolytes, glucose, amino acids, and large proteins to pass through____
The filtration membrane normally allows water, electrolytes, glucose, and amino acids, including large proteins to pass through filters.
Water and small solutes can pass through this layer, the filtration membrane, but large proteins and blood cells cannot. The blood still contains those substances. From the glomerular capsule, the filtrate—the liquid that has traversed the membrane—flows deeper into the nephron. Membrane filters either remove the impurities contaminating the water or act as a barrier to separate contaminants from the water.
Under normal circumstances, the glomerular capillary filtration membrane's size barrier and charge barrier prevent high molecular weight proteins in the plasma (such as albumin and globulin) from passing through the filtration membrane.
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Suppose that, with regard to a particular gene with two alleles, a and a, we know that 60% of the alleles in the gene pool of a particular large population are a. We observe this population for five generations, during which we know that no mutation, selection, or migration has occurred. After this period, the frequency of the a allele is expected to be _____.
The frequency of the a allele is expected to be the appropriate response is: 0.4 .
Given that genotype and allele frequencies in populations are not changing, this is an illustration of the Hardy-Weinberg Principle in action. This indicates that frequencies don't change from generation to generation in the absence of evolutionary forces like founder effect, genetic drift, mate choice, natural selection, sexual selection, mutation, gene flow, and meiotic drive.
This concept also states that HW equilibrium exists: P2+2pq+q2=1 or p+q=1, where p is the frequency of one allele and q is the frequency of another allele; p2 is the frequency of one homozygous genotype (q2 of another), and 2pq is the frequency of heterozygous genotypes.
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Order the structures that a pressure wave passes through in the cochlea, beginning from the oval window and ending at the round window. Oval window Pressure wave formation in the cochlear duct Nerve signal initiated Displacement of the basilar membrane Hair cells of the spiral organ are distorted Vestibular membrane moves Pressure waves generated in scala vestibuli Pressure waves transferred to the scala tympani Round window Reset
Pressure waves in the perilymph of the cochlea's scala vestibuli are produced by mechanical vibrations of the stapes footplate at the oval window.
These waves pass through the helicotrema at the cochlea's tip, the scala tympani, and the cochlea's tip before vanishing when they strike the circular window. Pressure waves are created in the scala vestibuli, the vestibular membrane shifts, pressure waves form in the cochlear duct, the basilar membrane is displaced, the spiral organ's hair cells are warped, a nerve signal is started, and pressure waves are then conveyed to the scala tympani. round window Cochlear duct pressure wave creation initiated by a nerve signal Moving of the basilar membrane Spiral organ hair cells are deformed. Motion of the vestibular membrane In scala vestibuli, pressure waves are produced The scala tympani received pressure waves. oval window Reset.
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what is the most common type of white blood cell
Answer:
Neutrophils
Explanation:
Neutrophils kill and digest bacteria and fungi. They are the most numerous type of white blood cell and your first line of defense when infection strikes
Resident Microbiota Evaluate the statements below and select those that correctly apply to the role of the resident microbiota in the first line of defense. Check All That Apply Microbial antagoniam contributes to the first line of defense since resident dobioto compete for nutrients and oxygen limiting availability for pathogens. Commensal microbiota are problematic to human defentement should be kept at a minimum Research suggests that chronic ramatory code, che thought to be when the host defenses inappropriately attack the resident biote
The statement which apply to the role of the resident microbiota is option A)Microbial antagoniam contributes to the first line of defense since resident dobioto compete for nutrients and oxygen.
Microbiota are considered as the range of the microorganisms that may be commensal, symbiotic, or the pathogenic which found in and on all multicellular organisms, including plants.
Microbiota includes various type of microorganisms like bacteria, archaea, protists, fungi, and viruses, and have been found to be crucial for the development of immunologic, hormonal, and metabolic homeostasis of their host.
The microbiome and host emerged during the evolution as a synergistic unit from epigenetics and genetic characteristics, sometimes collectively called to as a holobiont. The presence of the microbiota in human and other metazoan guts has been critical in understanding the co-evolution between metazoans and bacteria.
Hence, correct option is A.
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(Complete question) is:
Evaluate the statements below and select those that correctly apply to the role of the resident microbiota in the first line of defense. Check All That Apply.
A)Microbial antagoniam contributes to the first line of defense since resident dobioto compete for nutrients and oxygen
B)Limiting availability for pathogens.
C)Commensal microbiota are problematic to human defentement should be kept at a minimum Research suggests that chronic ramatory code, che thought to be when the host defenses inappropriately attack the resident biote.
In what ways are a promoter and a start codon similar? in what ways are they different? Drag the terms on the left to the appropriate blanks on the right to complete the sentences. A promoter and a start codon are similar in that both are sequences of that are required to start important processes, and both determine the sites where the process will begin. the key differences are that the promoter is needed to start and the start codon is needed to start. Also, the promoter is a only, and the start codon is a sequence found within a(n). nucleic acids proteins transcription translation mRNA tRNA DNA sequence RNA sequence
A promotor and start codon are similar in that both specify the locations where important processes will start and are sequences of nucleic acids that are necessary to start those processes.
The promotor is required to begin transcription while the start codon is required to begin translation. This is the main distinction. Additionally, only a DNA sequence functions as the promotor, and an mRNA sequence functions as the start codon.
Start codons and promoters are two examples of nucleotide sequences that indicate where to start a critical procedure for gene expression and protein synthesis.
When the ribosome comes across the start codon in the mRNA, which has the sequence AUG, translation, or the building of a protein out of amino acids, begins.
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select all that apply choose all that are characteristics of neural pools. multiple select question. they consist of complex patterns of interneurons. they may be concerned with a particular body function. they classify neurons based on shape. they consist of sensory neurons that synapse directly onto motor neurons.
The CNS's billions of neurons are organized in neural pools. Information received from receptors is processed by these functioning neuronal groups.
Specifications of neuronal pools:
consists of a large number of neurons.able to house both excitatory and inhibitory neurons.Other areas of the CNS may be stimulated or depressed depending on the output of the overall neuronal pool.Neuronal pools are how the CNS's billions of neurons are arranged. These functional clusters of neurons process information coming in from receptors or various neuronal pools before sending it on to other places. Contrary to diverging circuits, converging circuits direct input from numerous nerve fibers toward a single neuron or neuronal pool.
A brain region responsible for balance can get information from your eyes, inner ears, and stretch receptors in your neck thanks to such a configuration. A respiratory center in your brainstem receives information from various areas of your brain, from blood chemical receptors in your arteries, and from stretch receptors in your lungs through neuronal convergence.
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Root Words The root word of
the word codon is the word code.
Why does this root word make
sense?
Answer:
Explanation:
The reason why this root word makes sense is because the units used to code DNA are called codons. There is a unique protein for each codon used to compose the double helix of DNA.
of nitrogen and phosphorus, which is the most limiting nutrient to primary production early in primary succession, and why?
Primary succession is the emergence of a new community in an ecosystem where there was no community at first. Primary succession is formed due to the disturbance of the old community causing the community to disappear from the place, then the new community inhabits the community. Disturbance of the old community could be due to a disaster or other natural phenomena that made it possible for the old community to not survive in that environment.
The primary production of an area is influenced by several factors such as physical, chemical, and biological factors. Some nutrients such as nitrate and phosphate greatly affect primary production as a source of nutrition for plants and animals. Phosphate is a form of the chemical element of phosphorus, because of that phosphorus is very influential in the primary production stage at the beginning of the primary succession because it is easily soluble and will provide nutrients to plants and animals.
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last time we ran our simulation we examined factors like climate (rainfall), resources (food), and boundaries (fences). think about our last two lessons.... what are two factors we can add to our simulation to determine if some factors have a bigger effect on the ecosystem? answer text
Mountains can have an impact on the climate. As air is driven over the higher land, it cools, causing moist air to condense and fall out as rain, hence mountains receive more rainfall than low-lying locations.
The temperature will decrease as elevation above sea level increases. Temperature and precipitation are the two main determinants of a region's climate. Of course it matters what the area's average annual temperature is, but it also matters what the annual temperature range is. Numerous interrelated factors have an impact on a location's climate. Latitude, elevation, adjacent water, currents in the ocean, geography, vegetation, and prevailing winds are a few of these. Climate change's effects include rising temperatures, altered precipitation patterns, and an increase in the frequency or intensity of
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which two ecosystems are well known for the fact that they make excellent nurseries for infant and juvenile fish?
Answer:
Acquatic ecosystem and terrestrial ecos
in an embryo with a complete deficiency of pyruvate kinase, how many net moles of atp are generated in the conversion of 1 mole of glucose to 1 mole of pyruvate?
In embryos with a complete deficiency of pyruvate kinase, the net moles of ATP converted from 1 mole of glucose to 1 mole of pyruvate is 0.
Pyruvate kinase is an enzyme involved in the last step of glycolysis that catalyzes the transfer of a phosphate group from phosphoenolpyruvate (PEP) to adenosine diphosphate (ADP), yielding one molecule of pyruvate and one molecule of ATP.
The 2 molecules formed are used for several chemical reactions that are endergonic. Thus, the total ATP produced in this reaction is 2 ATP.
Net ATP = 2 ATP produced - needed 2 ATP = net 0 ATP produced.
Thus the net ATP production will be zero. It is unlikely that the embryo will survive with a complete lack of this enzyme.
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when systemic blood pressure increases, how does the kidney respond to maintain glomerular filtration rate
when systemic blood pressure increases, how does the kidney respond to maintain glomerular filtration rate, it will decrease the glomerular filtration rate.
What is blood pressure?
Your blood pushing up against the artery walls is what causes your blood pressure. Blood is pumped into the arteries by your heart with each heartbeat. When your heart is pumping blood through your body, your blood pressure is at its highest. Systolic pressure refers to this.
What is glomerular filtration rate?
The volume of glomerular filtrate produced in each nephron of both kidneys each minute is known as the glomerular filtration rate. Approximately 125 mL per minute in a healthy person.
A higher GFR will result from a higher blood volume and blood pressure. GFR will decrease if the efferent arterioles exiting the glomerulus expand and the afferent arterioles entering the glomerulus constrict. GFR will be reduced as a result of hydrostatic pressure in the Bowman's capsule.
Therefore, when systemic blood pressure increases, how does the kidney respond to maintain glomerular filtration rate, it will decrease the glomerular filtration rate.
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when bp increases and baroreceptors increase their firing rate, it causes the to be inhibited, which will ultimately cause of blood vessels which will lower bp
when bp increases and baroreceptors increase their firing rate, it causes the to be inhibited, baroreflex will ultimately cause of blood vessels which will lower bp
The baroreflex, also known as the baroreceptor reflex, is a homeostatic mechanism that helps to keep blood pressure at nearly constant levels. The baroreflex creates a rapid negative feedback loop in which increased blood pressure causes a decrease in heart rate. In response to high blood pressure, the baroreceptor reflex eventually:
-reduces peripheral resistance through vasodilation and lowers TPR
-reduces cardiac output by decreasing contraction force (lowering stroke volume) via L-type Ca channel inhibition
-reduces heart rate by inhibiting funny current in the SA node ——all are mediated by a decrease in sympathetic firing, but HR is also mediated by an increase in parasympathetic activity.
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Streptococcus pneumoniae is an encapsulated gram-positive bacterium. What is the function of capsule in disease pathogenesis?.
Streptococcus pneumoniae is an encapsulated gram-positive bacterium the function of the capsule in these infections is to allow the bacterium to evade phagocytosis.
How does Streptococcus pneumoniae become pathogenic?
Millions of people around the world have died as a result of the infectious pathogen streptococcus pneumoniae. Pneumococcal diseases are those brought on by this bacterium. This pathogen initially colonizes its host's nasopharynx asymptomatically, but over time it has the potential to spread to healthy tissues and organs and cause infections.
How can bacterial caps help dangerous bacteria become more virulent?Because it increases bacteria's capacity to spread disease, the capsule is regarded as a virulence factor (e.g. prevents phagocytosis). The capsule can stop eukaryotic cells like macrophages from engulfing the cells. Phagocytosis can need the presence of a capsule-specific antibody.
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which evidence supports the hypothesis that four-limbed animals came from fish? select all that apply.
DNA analysis shows that fish are tetrapods' closest relatives. -The fossil record shows more and more tetrapod-like fish before the appearance of tetrapods about 365 million years ago. -Both fish and four-limbed animals are vertebrates.
The molecule of information is DNA. It holds the blueprints needed to create proteins, which are other big molecules. Each of your cells has these instructions, which are dispersed throughout 46 lengthy structures known as chromosomes. Numerous smaller DNA fragments known as genes make up each of these chromosomes.
Amphibians, reptiles, birds, and mammals are all classified as tetrapod's, a class of vertebrates. All extant vertebrates on land are classified as tetrapod's, as are certain extinct terrestrial animals that now live an aquatic lifestyle (such as whales, dolphins, seals, sea lions, sea turtles, and sea snakes)
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the mrna molecules used in the moderna (mod) and the pfizer-biontech (p-tech) vaccines contain genetic information for what sars-cov-2 viral component?
The mRNA molecules used in the Moderna (mod) and the Pfizer-BioNTech (p-tech) vaccines contain genetic information for the Spike protein of the SARS-CoV-2 viral component
A protein that emerges from the enveloped virus's surface in the form of a large structure known as a spike or peplomer is referred to as a spike protein or peplomer protein.
Moderna and Pfizer vaccines are based on mRNA and contain genetic information for spike protein. This allows the body to develop immunity to spike protein and defend itself against viral infection.
The Spike protein of SARS-CoV-2 binds to the receptor on the host cell and causes virus-cell membrane fusion, which is essential for the virus's invasion.
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Which scenario will most likely result in a change to the nitrogen cycle that negatively affects plant growth?.
Scenario that will most likely result in a change to the nitrogen cycle that negatively affects plant growth: soil acidification.
What is the affect of soil acidification on nitrogen cycle?Soil acidification is the process where soil pH decreases over time and this process is accelerated by agricultural production and can affect surface soil and subsoil.
Helpful soil micro-organisms is prevented from recycling nutrients for example: nitrogen supply may be reduced. Phosphorus in the soil becomes less available to plants and deficiencies of calcium, magnesium and molybdenum may also occur. Ability of the plants to use subsoil moisture may become limited.
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a more standardized protocol for the kirby-bauer method that allows for greater reliability in results would be to use : (a) agar plate media poured to a specific depth, and (b) bacterial cultures of specific cell densities (macfarland standards).True or False?
The standard protocol for Kirby-Bauer method will provide grater reliability when the media is poured to a specific depth and of specific density.
MH is an agar is used as a well-known medium for the Kirby-Bauer test. It have to be poured into the plate at a sure thickness and a sure pH to yield dependable results. The disk diffusion, or Kirby-Bauer, method, is a not unusualplace check used to decide antibiotic susceptibility . Diffusion checking out works through setting an antibiotic disc onto an agar plate containing bacteria.
Therefore, the given statement is true.
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what determines the difference in speed of contraction of the different types of skeletal muscle cells?
The rate of contraction varies depending on whether the myosin ATPase is fast or slow in the skeletal muscle cells.
Muscles are able to produce force and movement because they are organs that have cells that can contract. The skeleton's bones and skeletal muscles work together to produce body movements. It is connected to the diaphragmatic, esophageal, and ocular muscles as well. Skeletal muscle is used for a number of bodily functions, such as swallowing, breathing, and movement. Skeletal muscle contracts largely in reaction to voluntary input, in contrast to both smooth muscle and cardiac muscle.
The physical examination of a patient always includes a test to measure muscle strength and contraction. When a patient complains of weakness during a physical examination, generally in the context of a neurologic condition, the main goal of muscular strength testing is to assess and establish a differential diagnosis.
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what makes the visible light microspectrophotometer a useful tool with which to analyze fibers the pyrolysis products generated are used to chemically identify polymer type.
The main benefit of microspectrophotometers is the ability to measure features smaller than one micron in size by acquiring spectra from microscopic sample areas.
Microspectrophotometry's capacity to analyse optical spectra of samples with a spatial resolution on the micron scale is its principal benefit. Both tiny samples and bigger samples with micron-scale spatial resolution can have optical spectra collected. Microspectrophotometry is advantageous because it allows measurements to be taken without compromising the materials. This is crucial when working with stained or unstained histological or cytochemical biological sections, measuring film thickness in semiconductor integrated circuits, comparing paints and fibres (in forensic science), studying gems and coal (in geology), and analysing paint/ink/colors in paint chemistry or artwork.
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