What percentage of extracellular fluid is accounted for by interstitial fluid and plasma? a) 20% b) 40% c) 80% d) 100%.

Answer:

False

Explanation:

Genetic variation is the difference in the sequence of DNA in the individuals of a population and a heterozygote has more genetic variation that homozygote person because heterozygote has two different alleles of a gene while homozygous individual have two same alleles.

Heterozygotes have advantage over homozygotes because it protects the individual from many genetical diseases and increase the genetic variation by increasing the gene pool in the population. So higher fitness results in more genetic variation in the population therefore the statement is false.

Answer:

Rainfall and temperature

Explanation:

The type of terrestrial biomes that occurs in different parts of the world is mainly influenced by rainfall and temperature. The density, height, and diversity of species decreases from warm, wet climates to cool, dry climates. The differences in rainfall and temperature, which are important climatic factors, determine the distribution of terrestrial biomes across the world.  

For example, low rainfall is a main climatic factor that influences the variety of plant species that are found in desert biomes.  

Answer:

temperature and rainfall

Answer:

Staphylococcus aureus

Explanation:

S. aureus is a toxin producer and even though the bacteria can be destroyed with heat, its toxin is heat stable, this means that it can survive after heating producing food poisoning. This kind of poisoning occurs in foods that require hand preparation, like the potato salad or ham in the example, especially because in the example those food were at room temperature, in the picnic, allowing the S. aureus to produce the toxin.

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Answer:

A carbohydrate

Explanation:

Carbohydrates, also known as sugars, are molecules with a chemical composition made of only carbon, hydrogen and oxygen, their general formula is (CH2O)n.

Apart from its composition, we have to consider that plant cells have walls composed of polysaccharides such as cellulose that is made of many carbohydrates together.

Explanation:

The unknown organic molecule in the cell walls of the newly discovered plant species is a carbohydrate, likely cellulose or a related carbohydrate that contributes to the structural integrity of the plant's cell walls.

Based on the description that the unknown organic molecule contains only carbon, hydrogen, and oxygen and is found in the cell walls of a plant species, it is likely a carbohydrate. Carbohydrates are organic compounds composed of carbon, hydrogen, and oxygen in a 1:2:1 ratio. The basic structural unit of carbohydrates is the monosaccharide, which includes sugars like glucose and fructose.

In the context of cell walls, carbohydrates play a critical role. Plant cell walls are primarily composed of a carbohydrate called cellulose, which is a polymer of glucose molecules. Cellulose provides structural support and rigidity to plant cells and is a key component of their cell walls.

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Answer:

1/16

Explanation:

The desired genotype is "CcmmLLPp". The proportion of the desired genotype can be calculated by using the product rule. The probability of getting Cc, mm, LL and Pp genotype can be calculated separately first and then the product rule is applied.  

Parents= CcMmLlPP X CCmmLlpp

Cc x CC= 1/2 Cc: 1/2 CC

Mm x mm= 1/2 Mm: 1/2 mm

Ll x Ll = 1/4 LL: 1/2 Ll: 1.4 ll

PP x pp= All Pp

Therefore, the probability of obtaining an individual who is CcmmLLPp = 1/2 Cc x 1/2 mm x 1/4 LL x 1 Pp = 1/2 x 1/2 x 1/4 =1/16

Answer: Directional selection

Explanation:

In the population genetics, directional selection is the mode of selection during which the extreme phenotype are favored more than the other phenotype.

This causes the allele frequency to shift towards the time in the direction of that particular phenotype.

Here, in the question the acid tolerant plant species is favored over the other phenotype.

Hence, the correct answer is option D

Answer:

constitutive mutations

Explanation:

Constitutive mutations -

They are the strains which uninterruptedly make proteins , and therefore , can lead to excess of protiens and the process is very difficult or nearly impossible to stop , is known as the process of Constitutive mutations .

One of the example of this process of Constitutive mutations is ,

The strain with lac operon mutation which can even results in th etranscription of the lac genes .

Hence , from the statement of the question ,the correct term is Constitutive mutations .  

Answer:

D. Caterpillars would evolve to a color that matched the leaves they eat.

Explanation:

In addition to the ability of caterpillars to cling in leaves and draw water from them, they are able to camouflage themselves on the leaves depending on their coloration.

Caterpillars can come in many different colors, but most are green or brown, this is an evolutionary response, so caterpillars can be mistaken for the leaves they usually feed on, for the purpose of not drawing attention of predators such as birds, for example.  This evolutionary trait will therefore give caterpillars a better chance of survival.

Final answer:

The most likely adaptation for caterpillars under predation pressure would be camouflaged coloration to match the leaves, enhancing survival by avoiding detection from bird predators.

Explanation:

In the given scenario of caterpillars and their bird predators, the most likely adaptation to evolve would be camouflaged coloration that matches the leaves the caterpillars eat. This adaptation, option D, would increase their chances of avoiding detection by predators, thereby enhancing their chances for survival and reproduction.

Examples of this process include the peppered moth, which evolved darker coloration to blend in with sooty trees in polluted environments, and hypothetical lizard populations that develop camouflaged coloration to evade predators. Such adaptations are a result of selective pressures that favor individuals with traits that provide better protection against predators,

Answer:

The correct answer is option a. "Shared DNA sequences".

Explanation:

The most reliable evidence that suggest that vertebrates are more closely related to echinoderms than are any other invertebrate phyla is the fact that vertebrates share DNA sequences with echinoderms. Among the different genes that have been analyzed between vertebrates and echinoderms, the genes involved in immunology and biomineralization are the ones practically identical among these two categories of species.

Answer: receives lymph from most of the body.

Explanation:

Lymphatic Vessels collect and transport Lymph (a protein-rich fluid containing white cells). By collecting lymph from the lymphatic vessels, it helps to remove excess fluid from the tissues. It also plays a vital role in fat absorption.

The protein-rich fluid in lymphatic vessels, known as lymph, travels from most parts of the body through these vessels and is filtered by small organs called lymph nodes. The spleen is the largest lymphatic organ, while the small intestine contains isolated lymph follicles.

The protein-containing fluid within lymphatic vessels is known as lymph. This fluid receives lymph from most parts of the body, which is then transported back to the bloodstream. These lymph fluids pass through small organs called lymph nodes that are associated with the lymphatic vessels, where harmful substances like bacteria and viruses can be filtered out. However, the largest lymphatic organ is the spleen, not these vessels. In the small intestine, there are isolated clusters of lymph follicles known as Peyer's patches, but again, these are separate from the fluid within the lymphatic vessels.

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Answer:

b times its self b mailman

Explanation:

c times itself c squared

To make a diluted 1mg/mL acepromazine solution from a 10mg/mL solution, you should mix 1mL of the acepromazine with 9mL of sterile water.

To make a dilute solution, we will need to take a low amount of acepromazine (which is in a higher concentration) and mix it with a larger volume of sterile water (which acts as a diluent) to reduce the amount of acepromazine per milliliter. Since the initial solution is 10mg/mL, to achieve a dilution of 1mg/mL we would need to take 1ml of the initial solution (which contains 10mg of acepromazine) and then add nine times this volume of water to dilute it to 1mg/mL. Therefore, the correct answer is b. 1 mL acepromazine and 9 ml sterile water.

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Answer:

b) temporal isolation

Explanation:

Temporal isolation occurs when two species of similar population dwelling in the same habitat or environment reproduce at different times of the day or at different seasons. They reproduce in the same habitat, but at different seasons, making it difficult for both species of a similar population to interbreed.

Temporal isolation occurs due to the difference in the breeding seasons of the two species of clams living in the same habitat, as one releases gametes into the water in early spring, while the other releases gametes into the water in late summer.

Answer:

Complete

Explanation:

Complete proteins (or high biological value proteins), are those that contain all the essential amino acids (one that the organism is unable to synthesize but is necessary for its functioning) in optimal amounts and proportions to meet organic needs.

A incomplete protein (or low biological value protein), does not have one or more essential amino acids in sufficient quantities.

The main sources of complete protein are eggs, milk, meat, fish and poultry. The essential amino acid mixture present in eggs was considered to be the best among food sources.

Most vegetable proteins (lentils, beans, peas, soybeans), in turn, are incomplete in terms of protein content and therefore have a relatively lower biological value.

Answer:

read the explanation.

Explanation:

Both are enzymes, both has active sites because they are enzymes. A difference is that serine proteases has serine aminoacids in it active site. The aspartic proteases has an activated water molecule bond to one or more aspartate aminoacid in its active site.

Serine proteases are two main kinds, chymotrypsin and subtilisin kind. Aspartic proteases are three main kinds, pepsin, cathepsin and renins.

Serine proteases are found either in eukaryotes and prokaryotes, meanwhile the aspartic proteases are found mainly in eukaryotes as molds and yeast but rarely in prokaryotes such as bacteria.

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Answer:C

Explanation:

Resting Membrane Potential (RMP) is the charge difference represented as voltage difference across a nueronal cell membrane at rest.

It has a value of -50 and -75mV.

Graphically it represents the flat plateau at the last part of the curve of action potential (check the attachments)

In a normal resting cell after Action potential ;for example nuerone,the intercellular layer has more potassium ions, while the extracellular layer has more Sodium ions .

These ions have special channels called sodium and potassium channels for movement in and out of these ions by active transports.

The movements of these ions across the membranes generated electrical potential difference for action potential.

The correct statement about resting membrane potential is that potassium (K+) and sodium (Na+) gradients are actively maintained in resting neurons. This potential is a negative charge inside the cell relative to the outside, created by the selective permeability of the membrane and the sodium-potassium ATPase pump. So the correct option is c.

The correct statement about the resting membrane potential of a cell is c) Potassium (K+) and sodium (Na+) gradients are maintained by active transport in a resting mammalian neuron. This is because potassium ions (K+) are found in higher concentrations inside the cell whereas sodium ions (Na+) are found in higher concentrations outside the cell. The sodium-potassium ATPase pump actively transports K+ into the cell and Na+ out of the cell, maintaining these concentration gradients. The resting membrane potential is approximately -70 mV, meaning the inside of the cell is negatively charged relative to the outside. This is largely due to the cell membrane being more permeable to K+ ions than Na+ ions, with K+ ions freely moving out of the cell more than Na+ ions move in, along with the activity of the sodium-potassium pump which expels three Na+ ions for every two K+ ions it brings into the cell. The resting potential is important for the function of neurons and muscle cells but is not unique to them as many types of cells exhibit a charge difference across their membranes.

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Answer:

The correct option is c. The sensors for the arterial baroreceptor reflex are located in carotid sinus and aortic arch.

Explanation:

Baroreceptors are primary sensors (or mechanosensitive nerve endings) that detect distention in vascular walls and are stimulated by mechanical deformations during blood vessel stretching. They are located in the carotid sinus and the aortic arch. The stretching the vessel walls at any of these locations causes vasodilation and bradycardia. The baroreceptors detect the stretching of the vessels due to changes in blood pressure, through them a more efficient control of blood pressure is achieved.

The sensors for the arterial baroreceptor reflex are found in the carotid sinus and aortic arch. They are responsible for detecting changes in blood pressure and initiating a response to maintain blood pressure homeostasis.

The sensors for the arterial baroreceptor reflex are located in the carotid sinus and aortic arch. Baroreceptors are specialized stretch receptors within the walls of these vessels that respond to changes in blood pressure. When there is an increase in blood pressure, these receptors are stretched more and their rate of firing to the cardiovascular centers in the medulla oblongata increases. This leads to adjustments in heart rate and blood vessel dilation/constriction to maintain blood pressure homeostasis.

These baroreceptor sites are critical for the baroreceptor reflex, which adjusts blood flow and pressure by changing the balance of sympathetic and parasympathetic nervous system actions on the heart and blood vessels. With increased pressure and stretch, the cardiovascular center decreases sympathetic stimulation and increases parasympathetic stimulation, and vice versa when pressure and stretch decrease.

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Answer:

Read the explanation section.

Explanation:

Cuba, Jamaica, Hispaniola (Haiti and the Dominican Republic), and Puerto Rico.

Global winds are caused due to the unequal heating of the planet by the sun, and they're named according to the direction they flow. While horizontal movement of wind is a product of the pressure change from high to low, vertical change happens because of density.

Final answer:

White blood cells are responsible for fighting off pathogens, and their numbers can increase within hours in response to an infection, thanks to the bone marrow's ability to produce them rapidly. These cells form an integral part of the immune system and vary in type and function, with changes in their numbers potentially indicating specific health conditions.

Explanation:

White blood cells fight pathogens such as bacteria, viruses, and other foreign organisms that may pose a threat to the body. These cells are a vital component of the immune system. Given their crucial role, when a person has an infection or an inflammatory process going on, the number of white blood cells can increase significantly within hours to counter the threat. The variable number of white blood cells is part of the body's sophisticated adaptive response to infectious diseases and aids in providing a robust defense mechanism.

The bone marrow plays a critical role in this process as it is the primary site for the production of white blood cells. When an infection occurs, signals are sent to the bone marrow to ramp up leukocyte production. The different types of white blood cells, including neutrophils, eosinophils, basophils, lymphocytes, and monocytes, each serve distinct functions in the body's defense system. Certain diseases or conditions can be associated with an increase or decrease in specific types of white blood cells, providing diagnostic clues to medical professionals.

Answer: Missense mutation

Explanation:

In sickle cell the glutamic acid in the 6th position of the beta chain of HbA (normal haemoglobin) is change to valine in HbS (sickle cell haemoglobin). This occur when there's a single nucleotide mutation. The (A) nucleotide in the condon (GAG) of glutamic acid is substituted for a (T) nucleotide. This single nucleotide substitution converts a glutamic acid codon (GAG) to a valine codon (GTG), which leads to polymerization of haemoglobin molecules in red blood cells. This cause a distortion of cell to a sickle shape.

Alcohol fermentation in yeast cells involves two main reactions that result in the production of ethanol and CO2 gas. This process does not directly relate to photosynthesis, the citric acid cycle, or anaerobic respiration.

In yeast cells, the process of alcohol fermentation plays a crucial role in the production of alcohol and certain bread products. This process involves two main steps. In the first reaction, an enzyme called pyruvate decarboxylase removes a carboxyl group from pyruvate, releasing CO₂ gas and producing acetaldehyde. The second reaction, catalyzed by the enzyme alcohol dehydrogenase, transfers an electron from NADH to acetaldehyde, producing ethanol and NAD*.

Moreover, glucose is known to be produced during photosynthesis, a process not directly related to yeast cells as they lack the capability to perform photosynthesis. During anaerobic respiration, or lack of oxygen, lactic acid can be produced in muscles, not typically in yeast.

In addition, the citric acid cycle or Krebs Cycle is the part of the aerobic metabolism where pyruvate is further processed, generating more energy through ATP and not at this stage, alcohol is produced.

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Final answer:

Alcoholic fermentation in yeast cells is an anaerobic process where glycolysis is followed by the conversion of pyruvic acid to ethanol and carbon dioxide, rather than entering the citric acid cycle. This process is crucial in wine making, where it converts the sugars from grapes into alcohol.

Explanation:

In yeast cells, alcohol is produced after glycolysis through a process known as alcoholic fermentation. This is part of an anaerobic respiration process, which takes place in the absence of oxygen. Glycolysis is the first step in both aerobic and anaerobic respiration, yielding two ATP molecules and resulting in the production of pyruvic acid. During alcoholic fermentation, this pyruvic acid is transformed into ethanol (ethyl alcohol) and carbon dioxide. Specifically, a carboxyl group is removed from pyruvic acid, releasing carbon dioxide and forming acetaldehyde, which is then converted to ethanol as electrons are transferred from NADH to acetaldehyde, regenerating NAD+ and allowing glycolysis to continue.

The products of alcoholic fermentation—ethanol and carbon dioxide—are essential in various industries. For example, carbon dioxide is what makes bread rise by forming bubbles in the dough, and ethanol is the alcohol found in beverages such as wine. In wine making, the sugars from grapes undergo alcoholic fermentation by yeasts to produce wine. This process does not occur during the citric acid cycle; instead, the citric acid cycle is a part of aerobic respiration that takes place in the presence of oxygen. Lactic acid is produced during a different type of anaerobic respiration, specifically lactic acid fermentation, which happens in muscles under low oxygen conditions, for instance.

Answer:

The correct option is B) ultraviolet region, especially below a wavelength of 320 nm.

Explanation:

Ultraviolet light carries an enormous amount of energy in it. It is invisible to the human eye. When UV light with enormous energy and wavelength lesser than 320nm, hits the DNA, it causes changes in the structure of the DNA. Mostly, it affects the thymine nitrogenous base regions and forms pyrimidine dimers. The structure of the DNA changes on all the sites where dimers form and hence, they cannot be properly transcribed.

DNA is the genetic material, that carries the information about organisms. The damage to the DNA is done maximum with the UV light below 320 nm wavelength.

DNA molecules consist of the bases adjoined by the phosphate diester bond and carrier the information for the formation of enzymes, proteins, and life activities.

The damage to the DNA results in the alteration of the nucleotide sequence and thereby functioning of the body.

The damage to DNA is caused by high-intensity ultraviolet radiation. The energy of the radiations is higher at lower wavelengths.

Thus, damage to DNA is caused by UV radiations with a wavelength lower than 320 nm. Thus, option B is correct.

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Answer:

No

Explanation:

The larvae are the juvenile phases of animals with indirect development and that have an anatomy, physiology and ecology different from those of the adult. The adjective derived from the larva is larval. In common language, larvae often receive different names from adults; The larvae always differ significantly from those of adults, in aspects such as size, external shape and even internal anatomy and the development of their functions. The differences are related to ecological differences, both in terms of habitat and resources.

Assist the macronutrients' chemical processes produce energy One of the best vitamins for reducing fatigue is vitamin B, according to recommendations.

What are vitamins' major functions?

While vitamins are just as important for health as macronutrients like fats and carbohydrates, they are required in far smaller quantities. They are crucial for a variety of regular biological processes, including cell development and reproduction, but their role in the cell's ability to process energy comes first.

What uses does vitamin B12 have?

The creation of DNA, the molecules inside cells that carry genetic information, and the metabolism of cells are all crucial processes that are aided by vitamin B-12 (cobalamin). Poultry, meat, fish, and dairy products are food sources of vitamin B-12.

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Answer:

(In Ancient Rome) a religious official who observed natural signs, especially the behavior of birds, interpreting these as an indication of divine approval or disapproval of a proposed action.

Explanation:

Answer: It is called Accommodation.

Explanation:

Retina is the innermost and sensitive tissues around the eye, it is located near the optic nerve. The function of retina is receive light that lens has focused and convert those light to neural message and send the signals to the brain for interpretation.

Accomodation is the adjustment of objects at varrying distance. When the crystalline lens change shapes, it changes the focal distance of the eye so that object at different distances can be focused on and thus allowing the formation of clear and real image on the retina, this adjustment of lens is called accommodation. The crystalline lens of the eye is located at the iris and it is made up of fibres from the epithelial cells.

Answer:

Option c

Explanation:

Sexuality is something that is not related to the biological/physical make of an individual. However, it defines the sexual thoughts, behavior and attractions/liking towards others. Everything irrespective of its type i.e physical, sexual and emotional contributes to defining the sexual attraction, behavior or linking is termed as sexuality. It defines a person and creates positive and liberating experiences. There are basically three types of sexuality – homosexuality, heterosexuality and asexuality

Hence, option C is correct

Sexuality refers to a person's capacity for sexual feelings and attractions. It is not limited to biological gender or sense of being masculine or feminine. Sociologists study the social construct of sexuality and its various orientations.

Sexuality refers to a person's capacity for sexual feelings and attractions. It is not limited to biological gender or sense of being masculine or feminine. It encompasses a wide range of sexual orientations, including heterosexuality, homosexuality, bisexuality, asexuality, pansexuality, and more.

Sociologists study sexuality as a social construct influenced by cultural norms and attitudes toward sexual behavior. It is important to understand that sexual orientation is a central and durable aspect of a person's sociocultural identity.

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Answer:

All cells get energy from glucose

Explanation:

The main source of energy for all the metabolic process and function of body organ individually and as one entity is glucose. Thus, there is essential requirement to transport glucose to all the cells within the body. Insulin and glucagon hormone regulates, control and facilitates the transmission and production of glucose. Both these hormones works opposite to each other, hence a proper balance is to be maintained for producing adequate amount of glucose

The correct expectation for the son from the stated parents would be option B: The sons will all have normal color vision and brown eyes. This conclusion is based on the X-linked inheritance pattern of color blindness and the autosomal recessive inheritance of blue eyes.

Since the woman has normal color vision, she does not possess the gene for color blindness, which is an X-linked recessive trait. Her father was colorblind, but because she does not exhibit the trait, she must carry at least one normal allele from her mother on one of her X chromosomes. When paired with a man who also has normal color vision (implying he has X chromosomes free of the colorblind trait), the probability of their sons being color blind is none. For eye color, blue eyes are a recessive trait, which the woman has. Because the man has brown eyes but carries the blue eye trait (as his mother had blue eyes), there's a dominant (brown) and a recessive (blue) possibility. Their children will inherit one allele for eye color from each parent. As brown is dominant over blue, all their sons will have normal color vision and brown eyes because they will at least get one dominant allele for brown eyes from their father.

Answer:

            AT             At           aT             at

AT      AATT        AATt       AaTT        AaTt

At        AATt         AAtt        AaTt        Aatt

aT        AaTT        AaTt        aaTT       AaTt

at          AaTt         AaTt        aaTt        aatt

The results of the punnet square show that one out of 16 offsprings will have both the qualities of having terminal flowers and being a dwarf.

A punnet square can be described as a diagram which depicts the likely outcomes of a cross. In the above punnett square, for the plants to have both terminal flowers and to be dwarf, both the alleles should be recessive for the traits.