The significance of excretion, reproduction and irritability in living organisms is that they collectively aid in the survival of living organisms.
What are the characteristics of living organisms?Living organisms are organisms that have life in them. The characteristics that distinguishes living things from non-living things are as follows:
MovementReproductionNutritionIrritabilityGrowthExcretionRespirationDeathAccording to this question, the significance of the aforementioned characteristics of living organisms is as follows:
Excretion: This is the process whereby waste products or materials not needed in a living organism are ejected or removed from the body. Reproduction: This is the act of reproducing new individuals biologically i.e. replicating themselves. This way, living organisms are multiplied. Irritability: Irritability is a natural susceptibility or characteristic of all living organisms, tissues, and cells, to the influence of certain stimuli. This enables living organisms to respond to danger in their environment.Learn more about characteristics of living organisms at: https://brainly.com/question/97544
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Answer:
The characteristics of living organisms are:
(i) Growth and development- Young organisms (plants and animals) grow and develop into adults.
(ii) Movement- Animals exhibit a wide range of movements.
(iii) Reproduction- The biological process by which new organisms (offsprings) are produced from organisms of the same kind.
(iv) Respiration- Oxygen is used for the oxidation of food and carbon dioxide is produced.
(v) Responsiveness- All living organisms respond to light, heat and the changes around them.
(vi) Excretion- The process by which metabolic wastes and other non-useful, toxic wastes such as faeces are eliminated from an organism is called excretion. Plants also remove their wastes.
(vii) Adaptation- Changes in the structure or behaviour of an organism that allow it to survive in a particular habitat are called adaptations.
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Why aren't viruses alive?
True / False: DNA does not have the information needed to copy itself.
Answer:
true
Explanation:
Before a cell divides, its DNA is replicated (duplicated.)
Answer:TRUE
Explanation:
How are osmosis and diffusion different? Select all that apply.
1: With osmosis, solutes cross the semipermeable membrane. With diffusion, water moves across the membrane
2: With osmosis, water crosses the semipermeable membrane. With diffusion, solutes move across the membrane.
3: Both osmosis and diffusion move from areas of high concentration to low concentration
4: Both osmosis and diffusion move from areas of low concentration to high concentration
Answer: 3- Both osmosis and diffusion move from areas of high concentration to low concentration
In diffusion, there is no membrane involved.
That's why 1 and 2 don't count.
Diffusion and osmosis move from an are of high concentration to low concentration, not low to high, that's why 4 doesn't count either.
hope it helps.
glucose binds to glycogen phosphorylase and competitively inhibits the enzyme. what is the physiological advantage of this?
This mechanism allows the glycogen phosphorylase activity to be the regulated by the concentration of the glucose so that the glycogen is not be broken down when the glucose is already plentiful.
The enzyme that glycogen phosphorylase is fundamentally important in the glucose metabolism. It is catalyzes the release of the glucose monomers from the glycogen and polymer stored in the liver (glycogenolysis). Glycogen is to be broken down by the GP to produce the glucose-1-phosphate (G-1-P) in the reaction that does not have require ATP Glycogen phosphorylases (GP) catalyzes the degradation of reducing the end of glycogen into the glucose-1-phosphate. It employs the cofactor called as pyridoxal-5' –phosphate, that is be located in the active site and the bound to a K681 residue with the Schiff base linkage.
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how do you distinguish between the bonds that compose the hydrophobic hydrocarbon tail of a lipid molecule versus the forces that drivelipid droplet formation (the hydrophobic effect)?
The difference between the bonds that compose the hydrophobic hydrocarbon tail of a lipid molecule versus the forces that drive lipid droplet formation (the hydrophobic effect) is hydrophobic hydrogen tail of a lipid molecule is the non water loving lipid whereas hydrophobic is the effect which is known as non water loving effect.
What is hydrophilic meant?If a molecule is the “water-loving”, it is known as the ‘hydrophile’ (noun) that possesses a hydrophilic nature. In the contrast, if a molecule doesn’t like water (h2o) i.e. repel the water, it is known as the ‘hydrophobic‘. The terms hydrophilic and the hydrophobic are used to describe the molecules or the substances based on how they react to the water molecules. The degree or the extent to which a molecule or a surface attracts water is known as the ‘hydrophilicity‘ of that molecule. Some of most common examples of the hydrophilic substances are sugar, salt, starch, and cellulose.
The tail of the phospholipid is the hydrophobic because it is composed of carbon and hydrogen atoms. If a molecule is made up of mostly of carbon and hydrogen atoms, it is a nonpolar or hydrophobic molecule. Carbon and hydrogen have the similar electronegativities, so they share the electrons equally resulting in the nonpolar bond. Because the tail of the phospholipid is the nonpolar, it does not interact with the water, whereas, Hydrophobic effect is just a tendency of non-polar molecules to come together so that they can avoid the water from their surface area as much as they can.
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match it in the correct order
chemogenetic manipulations of ventral tegmental area dopamine neurons reveal multifaceted roles in cocaine abuse
Dopamine (DA) neurons in the ventral tegmental area (VTA) have a variety of functions in motivation and cognition, although it is unclear exactly how these functions link to behaviors associated with addiction.
In this study, we investigated the roles of inhibitory and excitatory G-protein signaling in the processes of cocaine reinforcement, demand, and relapse in male rats by focusing on VTA DA neurons for bidirectional chemogenetic regulation. By employing functionally amazing projections to forebrain limbic regions, designer receptor stimulation of Gq signaling, but no longer Gs signaling, in DA neurons leads to cocaine searching that is more appropriate.
Contrarily, activating inhibitory Gi/o signaling in DA neurons reduced stress-potentiated reinstatement, altered cocaine-seeking and -taking behavioral strategies, and dampened the reinforcing and priming effects of cocaine. Although ventral tegmental area (VTA) dopamine neuron activity is fundamentally regulated by G-protein-coupled receptors, it is unclear how this metabotropic signaling affects the intricate roles of dopamine in reward and dependence. Here, we use designer receptors exclusively activated by dressmaker drugs (DREADDs) to modulate dopamine neuron G-protein signaling in a bidirectional manner during a range of cocaine-seeking behaviors, revealing complex, pathway-specific roles in cocaine reward, effortful seeking, and relapse-like behaviors.
Dopamine neurons were triggered by both Gq and Gs activation, however, only Gq stimulation is much more appealing to cocaine seekers. Some types of cocaine seeking were reduced, but not all of them, by Gi/o inhibitory signaling. Results show that VTA dopamine neurons regulate a number of amazing aspects of cocaine addiction- and relapse-related behaviors and they suggest potentially effective novel strategies for doing so.
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thomopoulos s, marquez jp, weinberger b, et al. 2006. collagen fiber orientation at the tendon to bone insertion and its influence on stress concentrations. j biomech 39: 1842–1851.
The extracellular matrix of connective tissues contains fibers called collagen fibers that are elongated and comprised of collagen glycoproteins.
How does collagen fibre influence stress concentration?The mechanical function of the tendon to bone insertion is to transfer loads from a relatively flexible tendon to a relatively inflexible bone. Given the high failure rates of existing surgical techniques for tendon reattachment, the specifics of the process of weight transfer are crucial. The mean angles of the local distributions varied slightly from the tendon axis, and the angular deviation of the fibers was quite constant throughout the insertion. These distributions were utilized to determine material characteristics for an idealized two-dimensional mechanical model of an insertion, which allowed us to investigate how these observed property distributions could affect load transfer.Learn more about the collagen with the help of the given link:
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Experiment: Robert wants to test different paper towels to see which
one absorbs the most liquid. He tries Bounty, Viva, and generic. He
fills a beaker with 100 mL of water and places once sheet of each
paper towel in the beaker. He then removes the paper towel and
calculates how much water it absorbed.
Question 1
What is the independent variable?
A. Amount of water absorbed
B. Brand of paper towel
C. Viva
D. The beaker
Question 2
What is the dependent variable?
A. Amount of water absorbed
B. Brand of paper towel
C. Bounty
D. The beaker
Question 3
What is a possible constant?
A. Amount of water absorbed
B. Brand of paper towel
C. Viva
D. Amount of time per trial
Question 4
What is the control group?
A. Amount of water absorbed
B. Brand of paper towel
C. Viva
D. This experiment did not have one
Answer:
Question 1:A
Question 2:B
Question 3:A
Question 4:D
evaluation of the respective influence of thyroid hormonesand tsh on blood coagulation parameters after total thyroidec-tomy
This prospective investigation demonstrates that significantly reduced levels of VWF:Ag, VWF:CBA, and FVIII:C are linked to severe short-term hypothyroidism. Exogenous TSH administration has no impact on the coagulation parameters. According to these results, thyroid hormone insufficiency is probably the key factor contributing to coagulation changes in hypothyroid patients.
What is Thyroid hormone ?Triiodothyronine and thyroxine are the two hormones known as thyroid hormones that the thyroid gland produces and secretes. They are tyrosine-based hormones whose main function is to control metabolism. Iodine makes up a portion of the molecules T3 and T4.
Iodine shortage may be the cause of thyroid issues. Inflammation can result from autoimmune illnesses when the thyroid is attacked by the immune system, causing either hyperthyroidism (caused by Graves' disease) or hypothyroidism (induced by Hashimoto's disease) (which may or may not cause pain),Learn more about Thyroid hormone here:
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The nerves that make up the spinal cord carry commands between the __________ and the brain.
Answer: Peripheral nerves
Explanation:
where is most of the water in the body located? where is most of the water in the body located? intracellular fluid lumens of the digestive and urinary tracts interstitial fluid plasma
Most of the water in the body is stored in intracellular fluid.
Water :Water is the largest component of water. It makes up 60 % of the body. It is an essential nutrient that is present in plants and animals. Water forms several functions that are essential to life.
Water in the body is distributed the inside the body. It is present in the cells. The intracellular fluid protects the cell in the body. It maintains the temperature and pH of the cells.
Most of the water enters the body while drinking the water. The water present in the digestive and urinary tract is the two/third part of the cells.
The water makes the cells hydrated and maintains osmolarity in the cells. Glucose, sodium ions and some inorganic ions are present in intracellular fluid.
Therefore, most of the water in the body is stored in intracellular fluid.
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if a parent with the genotype aa bb mates with a parent who is aa bb, what is the probability of an aa bb offspring?
When a parent with the genotype aabb mates with a parent who is aabb, the probability of an aabb offspring will be 100 % because it is a homozygous recessive condition.
The genotype refers to the genetic constitution of an organism. It provides knowledge about the alleles of the gene involved. It also tells if the trait is homozygous or heterozygous, dominant or recessive.
Homozygous recessive refers to the genotype where both the alleles of a gene are of similar type. Being recessive means that these alleles are only expressed when they are together in a homozygous state. With a dominant allele, the effect of recessive allele is completely masked.
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characteriza-tion of a 50-kda polypeptide in cytoplasmicdynein preparations reveals a complex withp150gluedand a novel actin.
hCaracteriza-tion of a 50-kda polypeptide in cytoplasmicdynein preparations reveals a complex withp150gluedand a novel actin
a group of auxiliary polypeptides with molecular hundreds of a hundred and fifty, seventy four, 59, 57, 55, 53, 50, and 45 kDa have been determined to copurify with cytoplasmic dynein. in the modern-day observe, a specific monoclonal antibody used to immunoprecipitate the 50-kDa polypeptide from the cytosol of the bovine mind discovered coprecipitating additives of 150, a hundred thirty five, 62, and forty five kDa that had been fully distinct from the polypeptides immunoprecipitated with an antibody to the 74-kDa cytoplasmic dynein subunit. The mammalian equivalent of the Drosophila Glued gene, p150Glued, became reactive with the one hundred fifty- and a hundred thirty five-kDa polypeptides. The primary forty five-kDa aspect of the complicated was identified as the alpha-isoform of contractin, a new form of actin, with the aid of N-terminal microsequencing of tryptic peptides. while contractin, p50, and p150Glued have been immunoblotted from sucrose gradient-fractionated mind cytosol, they have been determined to cosediment entirely at 20 S. using an antibody to p150Glued, immunofluorescence microscopy confirmed centrosomal staining, which microtubule depolymerization eliminated. these findings put together display that the 50-kDa polypeptide is part of a cytosolic complicated that is unique from cytoplasmic dynein. but according to the immunolocalization information, there may be a connection to microtubule minus ends, which raises the possibility of cellular-dynein touch.To learn more about cytoplasmic dynein here:-
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gottesman rf, coresh j, catellier dj, et al. blood pressure and white-matter disease progression in a biethnic cohort: atherosclerosis risk in communities (aric) study. stroke 2010;41:3-8.
Background and purpose: Blood stress (BP) is a predictor of concurrent and subsequently measured white-matter hyperintensity (WMH), but longitudinal research of WMH changes and facts in black members is lacking. We hypothesized that WMH development would be (1) strongly associated with BP in blacks and whites and (2) predicted greater strongly with the aid of previously (midlife) or cumulative BP measurements than through measures at older ages.
Methods: Participants have been 983 folks (49% black) from the Atherosclerosis Risk in Communities (ARIC) Study who underwent cerebral magnetic resonance imaging in 1993-1995 and 2004-2006. Associations between BP (measured at each of 5 visits, in addition to a time-averaged cumulative BP) and progression of WMHs have been analyzed and compared.
Results: Cumulative systolic BP (SBP) used to be the strongest BP predictor of WMH development in adjusted models. Higher cumulative SBP (by 20 mm Hg) was related to the greater progression of WMHs and used to be similar in blacks (2.5 cm(3), P<0.0001) and whites (2.6 cm(3), P<0.0001). Higher cumulative SBP(per 20 mm Hg) was additionally associated with being in the pinnacle quintile of WMH development (adjusted odds ratio=2.0; 95% CI, 1.6 to 2.6). Earlier SBP measurements were more desirable predictors of WMH development than have been later SBP measurements, however in blacks only.
Conclusions: In this population-based cohort, cumulative SBP was once a better predictor of WMH progression than SBP from character visits, in both blacks and whites. Earlier BPs had been superior predictors than BPs measured at later time factors in blacks only.
Blood stress is measured the use of two numbers: The first number, known as systolic blood pressure (SBP), measures the pressure in your arteries when your heart beats. The 2nd number, known as diastolic blood pressure, measures the strain in your arteries when your coronary heart rests between beats.
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What will be the effect on protein function if each polypeptide adopted only a single, inflexible shape based on its primary structure.
If each polypeptide adopted only a single, inflexible shape based on its primary structure, the proteins' ability to regulate activity will be impaired.
In such a case, a protein will either be completely active or inactive, based on how they are folded.
Proteins are complex molecules composed of long chains of amino acids.
While protein folding refers to how these linear chains of amino acids are folded to render a biologically active protein.
If there is any abnormality in the folding, there will be no interaction with corresponding molecular partners and the protein will remain inactive which can harm various functions of the body.
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in vitro activity of cp65,207, a new penem antimicrobial agent, in comparison with those of other agents
The correct answer is because it had the highest affinity for penicillin-binding proteins 2, 1A, 1B, and 3 in cell-free Escherichia coli W-7 preparations.
CP-65,207 is a new parenteral penem antibiotic with a broad spectrum that includes gram-positive, gram-negative, and anaerobic microorganisms, with MICs less than or equal to 1 microgram/ml for 90% (MIC90s) of the majority of 1,101 clinical pathogens tested. The compound was 10- to 100-fold more active against gram-positive bacteria and anaerobes than cefoxitin and broad-spectrum cephalosporins. For staphylococci, group A streptococci, and Enterococcus faecalis, CP-65,207 was less effective than imipenem. CP-65,207 was 100-fold more active than cefoxitin, 5- to 10-fold more active than broad-spectrum cephalosporins, and 2-fold more active than imipenem against members of the family than imipenem against members of the antimicrobial family.
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The division of human cells consists of a series of events, collectively called ________, or nuclear division, and ________, or division of the cytoplasm.
if a molecule is too big to move in or out of a cell on its own, but uses a protein channel to move, without additional energy, what type of transport is this?
Facilitated transport is the type of transport way which does require protein channel but not any ATP (energy).
Facilitated Transport- Facilitated transport is one way to move such materials without utilizing cellular energy. During assisted transport, materials are traveling down a concentration gradient. They are, in other words, passively diffusing from an area of high concentration to an area of low concentration.
Without the use of energy, chemicals simply migrate passively from a region of higher concentration to a region of lower concentration.
Example, A case of facilitated diffusion is glucose transfer.
ATP- Basic Unit of Energy Molecule to perform any function
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Choose the answer that lists the parts of the human circulatory system in order from highest to lowest degree of internal organization.
Group of answer choices
B-A-D-C
D-A-B-C
C-D-A-B
Spontaneous movement of molecules and ions from an area of high concentration to an area of low concentration.
Spontaneous movement of molecules and ions from an area of high concentration to an area of low concentration is diffusion.
It is due to the concentration gradient that develops between two areas, that molecules move into or out of an area.
In the field of science, diffusion can be described as a process in which molecules tend to move from a region that has a higher concentration of molecules to an area that has a lower concentration of molecules. Such a process occurs along the concentration gradient and hence does not require energy.
The process of diffusion is utterly important in everyday life activities such as the exchange of gases between blood and alveoli occurs due to diffusion. A tea bag immersed in water is able to spread its colour due to diffusion.
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A root cell may continue to absorb minerals even though the concentration of the minerals is greater inside the cell than in the soil. This absorption is accomplished mainly by —.
Answer:
active transport
Explanation:
works from a low concentration to a high concentration - against a concentration gradient
What roles do membrane proteins play in transporting only certain substances into a cell.
Some let the passage of only certain molecules, even when the concentration gradient is present. Some operate as a one-way control. Others allowed a lot of things to happen.
Membrane proteinA membrane protein is a protein molecule that is joined to or connected to an organelle's or cell's membrane.
Depending on how the protein is connected to the membrane, membrane proteins can be divided into two categories.
The plasma membrane contains integral membrane proteins that are permanently ensconced there.
On both the inside and outside of membranes, peripheral membrane proteins can be found, often bound to phospholipids or integral proteins.
What roles do membrane proteins play?Membrane proteins provide a variety of crucial tasks that aid in cell communication, shape maintenance, carrying out changes brought on by chemical messengers, and material transport and sharing.
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Read the paragraph from the section "Shellfish."
Lower pH values occur naturally on the West Coast during upwelling events, but recent observations indicate that CO2 originating from human activities is contributing to seasonal aragonite undersaturation. Scientists suspect that low pH may be a factor in the oysters' reproductive failure. More research is needed to disentangle potential acidification effects from other risk factors. Nonetheless, acidification is a potential factor in the current crisis to the multi-million-dollar oyster industry. The potential role of ocean acidification is encouraging new collaborations and accelerated research on ocean acidification and its biological impacts.
Which of the following can be inferred from the selection above?
A
Human activities are the primary cause of the aragonite undersaturation during upwelling events.
B
While some marine organisms are harmed by ocean acidification, others are helped by the lower pH levels in the ocean.
C
Collaborators are more motivated to study ocean acidification because of the economical impact it has on the oyster industry.
D
Ocean acidification is not to blame for the oysters' reproductive failure because lower pH values are natural during upwelling events.
Human activities are the primary cause of aragonite undersaturation during upwelling events.
What is an oyster?Oysters are bivalve mollusks that obtain their food by filtering seawater for microscopic algae (phytoplankton), as well as some organic debris.
Marine life is getting affected because of the Increase in carbon levels and global warming. An increase in carbon level increases the solubility of water.
The oxygen level in the marine water decrease and the carbon dioxide level increases. The increase in solubility of carbon dioxide in water leads to a decrease in water pH level.
Therefore, Human activities are the primary cause of aragonite undersaturation during upwelling events.
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microorganisms play key roles in the cycling of important nutrients in plant nutrition, particularly those of microorganisms play key roles in the cycling of important nutrients in plant nutrition, particularly those of carbon. nitrogen. carbon and nitrogen sulfur. carbon, nitrogen, sulfur, and phosphorus.
Microorganisms play key roles in the cycling of important nutrients in plant nutrition, particularly those of microorganisms play key roles in the cycling of important nutrients in plant nutrition, particularly those of carbon, nitrogen and sulfur.
What is Microorganisms?
Microorganisms, often known as microbes, are minute organisms that can be single cells or colonies of cells.
Ancient texts like the Jain scriptures from India's sixth century BC raised the specter of the potential existence of invisible microscopic life. In the 1670s, Anton van Leeuwenhoek used a microscope to observe microorganisms, which marked the beginning of the scientific study of microbes. Louis Pasteur disproved the hypothesis of spontaneous generation in the 1850s by discovering that bacteria were to blame for food degradation. Robert Koch determined in the 1880s that bacteria were to blame for tuberculosis, cholera, diphtheria, and anthrax.
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What does solid benzene do in liquid benzene?
Answer:
Sink
Explanation:
So here for the explanation when water freezes, it forms crystalline, solid with a lower density. Then it had as a liquid because off this difference in the density, eyes floats on water. Most liquids, such as bending, have a higher density as our solid causing solid benzene to sink in liquid benzene bending is more normal in this behavior.
What is the function of carbohydrates?
A. To store energy
B. To help animals stay warm
C. To absorb the sun's energy
D. To store hereditary information
Answer:A
Explanation:
the is the thin layer of the mucosa responsible for pulling the mucosa into its many folds which increases the surface area of the alimentary canal.
yes, Muscularis mucosa - The stomach and small intestine's mucosa are pulled into undulating folds by a thin layer of smooth muscle that is constantly tensed. The surface area that is available for digestion and absorption is significantly increased by these folds.
The submucosa is located directly beneath the mucosa, as its name suggests. It joins the underlying muscularis to the overlaying mucosa by way of a large layer of dense connective tissue. It has blood and lymphatic vessels (which carry nutrients that have been absorbed), as well as a few submucosal glands that secrete digestive juices. Additionally, it functions as a passageway for the submucosal plexus, a densely branched network of nerves.
These layers compress to encourage mechanical digestion, expose more of the food to the chemicals that aid in digestion, and transport the food along the canal.
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What are two major plant adaptations that were most important in allowing plants to become independent of aquatic habitats?.
Two major adaptations that were most important in allowing plants to become independent of aquatic habitats are the vascular system and seeds.
In order for plants to survive on land, they need a proper vascular system for the transport of food and water. Also, if not water, then another source should be present for plants for fertilization and protecting their embryos.
The presence of the vascular system is an adaptation that allowed plants to survive in land habitats. The xylem vascular system is responsible for transporting water from the soil to all the other parts of the plant. The phloem vascular bundle is responsible for the transportation of food from the leaves to all other parts of the plant.
The development of seeds in plants allowed a secure method for dispersal as seeds protect the embryos of plants and are also transported through means such as animals, winds etc.
Although a part of your question is missing, you might be referring to this question:
What are two major plant adaptations that were most important in allowing plants to become independent of aquatic habitats?
a. photosynthesis and symbiotic relationship with fungi
b. vascular system and seeds
c. bilateral symmetry and becoming multicellular organisms
d. spore production and becoming single-celled organisms
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One primary advantage of light microscopy over electron microscopy is that ________.
One primary advantage of light microscopy over electron microscopy is that light microscope can be used to view live specimens.
What is light microscopy?Light microscopy is the scientific instrument which provides a magnified view of very small objects that are illuminated with visible light which then passes through optical lenses.
On the other hand, the electron microscope is any of theseveral forms of microscope that use a beam of electrons, rather than one of light, and thus has a much greater resolving power.
The electron microscope is known to be way better at viewing structures than the light microscope. However, one major downside of the electron microscope is that it cannot be used to view live specimens unlike the light microscope.
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