The ____ protein is embedded in the membrane of Agrobacterium and senses the presence of acetosyringone from the wounded plant cell. (In your answer include the full name of the protein: for example ChvX or VirX, instead of the X protein.)

Answer:

B.macroevolution

Explanation:

Macroevolution is a type of evolutionary change pattern and process that brings about the emergence of new species through isolation, genetic drift, natural selection or gene flow. Macroevolution occurs on a larger scale above species level, unlike microevolution that is restricted to within a species or population.

Answer:

B. Macro-evolution.

Explanation:

It is a type of macro-evolution because in a separated and isolated specie there is a gradual but abrupt change is going to take place and a new specie is going to emerge in the environment. The new specie will have a effect on the value of it's mother specie and because the new specie is better adapted version of the previous one in particular environment. It may become possible that the new specie will continue to thrive and her mother specie will become extinct as the time passes by...

Answer:

Drugs that create feelings of calmness, reduce muscle tension, and lower sympathetic activity in the brain are called Anti anxiety Drugs.

Explanation:

Anti anxiety Drugs:- These drugs are also known as anxiolyticor minor tranquilizer. These drugs are classified as any category of drugs that reduces the symptoms of  or Anxiety. Anxiety is a  state of pervasive apprehension or fear of missing out that may be activated by specific environmental or personal factors.

A person with anxiety may suffer several symptoms like  palpitations, nausea, dizziness, headaches, and chest pains, sleeplessness and fatigue. When these conditions aresevere and not normal that person is advised to take care with both medication and psychotherapy.

Answer:

Antianxiety drugs or Anxiolytic

Explanation:

The antianxiety drugs refer to the drugs which can reduce the effects of the anxiety or inhibit the anxiety disorder.

The anti-anxiety drugs act on the neurons by producing the various neurotransmitters like the dopamine, serotonin, GABA which reduces the neuronal activity. The most commonly used anti-anxiety drugs are the Benzodiazepines and the  Buspirone.

Thus, Antianxiety drugs are the correct answer.

Answer:

Route of administration

Explanation:

Drugs may be defined as the chemicals that are given against the particular disease for the treatment of the patient. The drugs must be given in the proper amount as directed by the medical practitioner.

The effects of the drugs depend on the individual and its route of administration. The oral administration of drug is more common but a diabetic patient needs to given drug intravenously. Intraperitoneal drug route is given to show the effect of drug quickly and drug cannot infiltrate a blood vessel.

Thus, the answer is route of administration.

Answer:

During the carboniferous there is a proliferation of plants such as lycopodia and ferns. Theirs remains have generated large carbon deposits worldwide. These experimental plants reach their maximum richness and diversity during the Carboniferous (300-350 million years).

The adrenal glands are crucial for arousing the body, regulating salt balance, adjusting to stress, and affecting sexual functioning by producing hormones like epinephrine and norepinephrine, which activate the body's fight-or-flight response.

The endocrine glands that play key roles in arousing the body, regulating salt balance, adjusting the body to stress, and affecting sexual functioning are the adrenal glands. These glands are located atop each kidney and produce hormones crucial for the body's response to stress such as epinephrine (adrenaline) and norepinephrine (noradrenaline). These hormones stimulate the sympathetic division of the autonomic nervous system (ANS), causing increased heart and lung activity, dilation of the pupils, and a boost in blood sugar levels, giving the body a surge of energy.

Furthermore, the adrenal glands contribute to the regulation of salt and water balance via the secretion of mineralocorticoids like aldosterone. They are also involved in metabolism, the immune system, and sexual development and function. This highlights the integral role of the adrenal glands in managing responses to external threats and stress, maintaining fluid and electrolyte balance, and supporting sexual health.

Answer: If the F2 occurs in the ratio 9 blue:3 pink:4 white, one gene pair (i.e 2 genes) control the flower color phenotype.

Explanation: This principle is called INCOMPLETE DOMINANCE where one gene (dominant) won't completely override the other (recessive).

Let assume B represents the dominant gene and b represents the reccesive gene. Let also assume that Blue color is dominant over white color. We can assign the genotype as follows;

Homozygous dominant genes BB will produce Blue color

Homozygous recessive genes bb will produce white color

Heterozygous genes Bb will produce pink color.

Therefore, a pair of gene ( 2 genes) will determine the flower color phenotype.

In a certain species of plant, the flower color phenotype is controlled by two gene pairs. The F1 generation consists of blue flowers, which suggests that blue color is dominant over pink and white. The F2 generation exhibits a 9:3:4 phenotypic ratio of blue:pink:white.

The flower color phenotype in the given species of plant is controlled by two gene pairs. Each gene pair contains two alleles, which can either be dominant or recessive. The pink parent plant is homozygous for the dominant allele, resulting in the pink color, while the white parent plant is homozygous for the recessive allele, resulting in the white color.

When the pink plant is crossed with the white plant, their offspring (F1 generation) all have the dominant allele for blue color, resulting in blue flowers. This suggests that the blue color is dominant over both pink and white. As a result, the blue F1 plants are heterozygous for the blue allele

When the blue F1 plants are self-fertilized, the resulting offspring (F2 generation) show a phenotypic ratio of 9 blue:3 pink:4 white. This indicates that the blue color is controlled by two gene pairs, as the ratio follows a classic Mendelian dihybrid ratio.

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Answer:

D) sympatric speciation and habitat isolation

Explanation:

Sympatric isolation is a form of evolutionary process whereby different species from an ancestral origin evolve within the same geographical environment as a result of reproductive isolation.

Habitat isolation is a form of reproductive isolation which occurs when two populations of a species inhabiting overlapping habitats become unable to interbreed with each other.  

Reproductive isolation (habitat isolation) that occurs in the fleas is as a result of the new species becoming separate from it's ancestral species which feed only on pronghorn antelopes, although both species can still be found in the same geographical location (rangeland). The new species now have preference for cattle blood, and so are now found on cattle.

In the situation of the two new species of flea that would evolve, it can be said to an example of sympatric speciation and habitat isolation, since the host mammal is assumed to be their habitat and both the cattle and pronghorns often associate with one another in the same open rangeland.

Answer:

Two European men and two Polynesian women settled on a previously uninhabited tropical island. All four of the settlers have brown eyes, a dominant trait, but one of the Europeans is heterozygous and carries the recessive gene for blue eyes.  No new settlers arrive,and nobody leaves the island.After a few generations,the percentage of blue-eyed individuals increases from the original zero to 25 percent.This is probably due to which of the following factors?

genetic drift

Explanation:

Genetic drift entails when there are changes in the gene frequency which occur in a gene that is existing. From the analogy above, it is a known fact that only gneetic drift could allow such to happen as mutation will only occur with a sudden change of gene which is not the case described above

Final answer:

The increase in blue-eyed individuals in an isolated island population is likely due to genetic drift (option A), a random fluctuation in allele frequencies that is pronounced in small populations.

Explanation:

The increase in the percentage of blue-eyed individuals in a small, isolated population from 0 to 25% is most likely due to option A) genetic drift. Genetic drift is a mechanism of evolution that refers to random changes in the frequencies of alleles within a population's gene pool. This can lead to the increase or decrease of specific alleles, and is especially pronounced in small populations where chance events can have a more significant impact on the gene pool. An initial population where all individuals have brown eyes, but one individual carries the allele for blue eyes, is an example of how genetic drift could cause a notable change over generations if the alleles are passed on randomly.

In the given scenario, the heterozygous European man carrying the recessive gene for blue eyes could have passed it on to his offspring, and due to the small population size and isolation of the island, these traits could become more common by chance over a few generations. A mutation would imply a change in the genetic material which is not mentioned in the scenario, and gene flow requires the movement of genes between populations, which is also not applicable here as the population is isolated.

Final answer:

The conclusion that women aged 30 to 35 have twice the risk of developing migraines as men do is supported by the given data, though additional factors influencing prevalence should also be considered.

Explanation:

The inference that women have a two times greater risk of developing migraine headaches than men in the 30 to 35 age group, based on the data that 5 of 1,000 men and 10 of 1,000 women were found to have migraines, is correct. This conclusion is drawn from directly comparing the prevalence rates within the same age group for both genders, showing that migraines were found twice as often in women as in men.

It is important, however, to consider additional factors that might influence migraine prevalence such as hormonal differences, societal roles, and stress levels associated with traditional gender roles. Moreover, the explanation for higher rates of migraines in women could be partly attributed to differences in ethno-etiology, which offers various cultural explanations for health-related problems, as well as biomedical explanations which include a range of physiological and environmental factors.

Answer: Neurons

Explanation:

Neurons are the types of cells found in the body. It is like the other cells of the body but it is different in its functioning.

The neurons in the body is equipped for the transmission of signals throughout the body.

It is the basic functional unit of the brain and carries the information from brain to the various parts of the body.

Answer:

The answers is D

Explanation:

Ribosomes are numerous, small, round organelles that perform the function of protein production in the cell. They are found as freely-floating organelles in the cytoplasm and attached to the rough endoplasmic reticulum.

Ribosomes found as free-floating within the cytoplasm produce protein to be utilized within the cell while ribosomes attached to the endoplasmic reticulum are used inside the cell or outside the cell.

Answer:

1. Brain

2. Peripheral nerves

Explanation:

The nervous tissue or the nervous system is a system in the humans or animals formed by the neurons.

The nervous system can be categorised into two types based on the structure and functions: the peripheral nervous system and the central nervous system.

The central system of neurons comprises of the neurons present in the spinal cord and the brain and the peripheral system which comprises the nerves of the organs present except the brain and the spinal cord like the nerves in the limbs (legs, arms).

Thus, Brain and Peripheral nerves are correct.

Answer:

peripheral nervous system

Explanation:

The peripheral nervous system includes all nervous tissue except form the central nervous system. The afferent division of this nervous system delivers the sensory information from the sensory receptors to the central nervous system. In this way, the information from the somatic and special sensory organs such as the nose, tongue, eyes, and ears is delivered to the central nervous system.  

The motor division of the peripheral nervous system includes somatic and autonomic divisions. The somatic division is the motor division that conveys output from the CNS to skeletal muscles while the autonomic division sends the information from the CNS to smooth muscle, cardiac muscle, and glands.

The division of the nervous system responsible for facilitating communication between the brain, spinal cord, sensory systems (eyes, ears, skin, mouth), muscles, and glands is known as the "Peripheral Nervous System" (PNS).

The division of the nervous system that allows the brain and the spinal cord to communicate with the sensory systems of the eyes, ears, skin, and mouth, while also enabling them to control the muscles and glands of the body, is called the "Peripheral Nervous System" (PNS).

The PNS serves as a bridge between the central nervous system (CNS), which includes the brain and spinal cord, and the external environment. It consists of two main components:

1. Sensory (Afferent) Division: This component collects sensory information from various receptors throughout the body, including those in the eyes (vision), ears (hearing and balance), skin (touch, temperature, and pain), and mouth (taste and pressure). This sensory information is then transmitted to the CNS for processing and interpretation.

2. Motor (Efferent) Division: The motor division of the PNS carries commands and signals from the CNS to the muscles and glands, enabling voluntary muscle movements (somatic nervous system) and regulating involuntary functions like heart rate, digestion, and glandular secretions (autonomic nervous system).

The PNS plays a crucial role in sensory perception, motor control, and maintaining homeostasis by relaying information between the central nervous system and the body's external and internal environments.

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Answer:

Fur colour can be represented by both the dominant and the recessive alleles of the gene encoding the fur color.

Explanation:

In the activity, rabbit fur color phenotypes relate to the 'C' genes, with four possible alleles leading to different color expressions. In mice, an example of epistasis is shown where the 'C' gene can override the 'A' gene's color determination, leading to an albino mouse. These cases illustrate the concepts of phenotype (observable traits) and genotype (genetic makeup).

In the activity, the possible phenotypes for fur color in rabbits are represented by the 'C' genes. The wild-type allele is expressed as brown fur, the chinchilla phenotype is expressed as black-tipped white fur, the Himalayan phenotype has black fur on the extremities and white fur elsewhere, and finally, the albino phenotype is expressed as white fur. Therefore, this 'C' gene is represented by four alleles; wild-type (C+C+), chinchilla (cchcch), Himalayan (chch), and albino (cc). This indicates a dominance hierarchy, with the wild-type being most dominant and the albino being the least.

In mice, an example of epistasis is demonstrated. The 'A' gene determines the coat color, with the wild-type coat color, agouti (AA), being dominant over solid-color (aa). However, the 'C' gene, which impacts pigment production, can override the 'A' gene when present as a homozygous recessive (cc), resulting in an albino mouse irrespective of the 'A' gene configuration.

These illustrate the concepts of phenotype and genotype. The phenotype is the observable physical characteristics, in these cases the fur color, which are determined by the genotype, or the genetic makeup of an organism.

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Answer: Hypothalamus

Explanation:

Due to the fear of spiders, Mario is likely to have the following sensations: sweating, shivering, increased heartbeat, raised blood pressure.

And all these are controlled by the hypothalamus, a part of the Fore-brain

The amygdala is activated when Mario enters a room with spiders, triggering a fear response as part of the body's sympathetic nervous system. This fear can be intense due to evolutionary predispositions and have significant impacts on one's life.

When Mario, who is highly afraid of spiders, enters a room filled with spiders, the part of the brain that would be activated is the amygdala. The amygdala is responsible for processing emotions, such as fear, and it triggers the fear response. This response involves a cascade of physiological changes including increased heart rate, rapid breathing, and sweating, which are all part of the body's sympathetic nervous system response to perceived threats. The amygdala works in conjunction with other brain structures, such as the hypothalamus, to orchestrate the body's reaction to fear-inducing stimuli. This nervous system activity is automatic and can occur even if the threat is not real—as in the case of a person mistaking a piece of fuzz for a spider—showing the power of perception in eliciting a fear response.

In Mario's case, his intense fear of spiders, also known as arachnophobia, may have been influenced by evolutionary predispositions, as humans have historically associated spiders with danger, despite the fact that most spiders are not harmful to humans. The effect of fear on an individual’s life can be profound, as observed with Janet's extreme reaction to spiders limiting her activities and leading to job loss.

Answer:

Duplex theory of vision

Explanation:

The duplex theory of vision suggests that the eyes work functionally in two different ways: the scotopic system which is formed of the rod cells and allows the vision in the low light conditions and the photopic system which is formed of the cone cells and allow us to see in the light conditions.

The duplex theory arose due to the different spectral absorption by different photoreceptors of the eye, the differences in the sensitivity to the light and different summation properties.

Thus, Duplex theory of vision is the correct answer.

Answer:

Which type of selection tends to increase genetic variation? A. Disruptive selection B. Directional selection C. Stabilizing selection

The Answer is option A (Disruptive selection)

Explanation:

Selection can either shift the mean value of a trait, reduce the trait's variation, or increase its variation.

Genetic variation which allows natural selection to increase or decrease frequency of alleles already in the population is a source of phenotypic variation as it refers to differences in all the hereditary information of members of the same species.

Disruptive Selection is important in maintaining variation and initiating speciation as it Increases Variation by favoring alleles corresponding to more extreme phenotypes. But for it to occur, the mean phenotype has to experience the lowest fitness. Disruptive selection affects the frequency distributions of alleles and genotypes within a population.

Disruptive selection is based on the variance of a trait in a population as it increases genetic variance by equalizing the frequencies of existing alleles at polymorphic loci (a genetic loci with two or more alleles). Disruptive selection maintains and may even increase variation in natural populations by favoring extreme phenotypes, individuals with extreme values for a trait have greater reproductive success than individuals with intermediate values.

B) Disruptive selection is the right response. Natural selection that promotes extreme phenotypes while decreasing the predominance of intermediate phenotypes is known as disruptive selection.

A population's genetic diversity may rise as a result of this kind of selection.

Individuals with extreme qualities at both ends of the phenotypic continuum benefit more from disruptive selection than do people with moderate features.

As a result, while the intermediate qualities are being chosen against, the extreme features gradually grow more widespread in the population.

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Answer:

A. Skeletal muscles

Explanation:

An effector is a group of cells, an organ, gland or any part of the body that acts to bring about a change in response to a nerve impulse from the CNS.  

In the case of thermogenesis as stated in the question above, where a drop in temperature is detected by thermoreceptors in the CNS, the part of the body that responds in returning the body temperature back to its baseline are the skeletal muscles. The skeletal muscles are the effectors that responded in repeated contracions to generate heat.

Answer:

A

Explanation:

In order to maintain homeostatic balance in human, negative feedback loop and sometimes positive feedback loop are usually employed. The control mechanism consists of receptors and effectors (muscles and glands). The Receptors are sensory cells that acts like sensors to detect changes stimuli from the internal and external environments and relay these as input to the control center the brain. The brain processes the input and  send the information as output to the effectors to bring about a corrective effects.

The control by  the  negative and positive loop  are usually within the set-points so that the homeostatic balance of the body is maintained.  

In this present scenario, the imbalance in body temperature (drop )is detected by the receptors in  the skin (thermoreceptos, so named because they are sensitive to heat). They sent input as temperature fluctuations to the brain the control center.Analysis by the brain is relayed as output to the effectors (skeletal muscles) to contract, repeatedly. This is shivering. It is a thermogenic mechanism of increasing body temperature when it drops.

Therefore the skeletal muscles is the effector  because , it causes a  biological change(shivering) in the body reverse  the  rise in body temperature, and  returns  it to normal level.

The entire process is called thermogenesis. Once the temperature reached the set-point the thermoreceptors, sense this and send  corrective input for the brain to stop the stimulation of the temperature control center : hypothalamus  to reduce the output to the effectors Therefore, he skeletal muscles relaxed.  and shivering is stopped

Although this is a corrective measure,  it has disadvantage of withdrawing  heat energy from the body core temperature via  vasodilitation and loss to  the surrounding environment via convention.  

Answer:

The frequency theory of hearing

Explanation:

The frequency theory of hearing contends that the perception of a sound's frequency depends on how often the auditory nerve fires.

The frequency theory of hearing pinpoints that the frequency of the auditory nerve's impulses coincides to the frequency of a tone, which makes it easy to distinguish its pitch. It causes the neural signals speed to go in line with the brain to distinguish the pitch.

Place theory says that the perception of pitch is connected with vibration of certain portions of the basilar membrane, and the frequency theory says the perception of pitch is connected with the frequency at which the whole basilar membrane vibrates.

Answer: The frequency theory of hearing

Explanation:

The frequency theory of hearing states that the rate at which auditory nerve impulses occurs is associated with the frequency of a tone whose pitch is been detected. It simply explains that it is the pulse which travels up to the auditory nerve that carries the sound that we hear for the brain to process and thus there is a match between the pulse rate and the sound being heard. The theory was created by William Rutherford a British Physiologist.

Answer: Option B) Carolus Linnaeus

Explanation:

The linnaean system of classification was introduced by a Swiss scientist named Carolus Linnaeus.

In this system, he first split living things into a general category called KINGDOM.

- The kingdom is further split into large smaller groups called PHYLUM (for animals) and DIVISION (for plants).

- Each phylum or division is broken down into CLASSES.

- Each class is broken down into ORDERS

- Orders into FAMILIES,

- Families into GENUS

- Genus into SPECIES

Also, he introduced the system of binomial nomenclature where an organism is described by two names:

- the 1st name is genus;

- the 2nd name is species.

For instance: Homo sapiens would means Man belongs to genus (Homo) and specie (sapiens).

Hence, binomial nomenclature consists of two names

Answer:

b

Explanation:

Answer:

16 genetically different offsprings

Explanation:

The diploid state of this organism has 4 chromosomes, hence, when it undergoes meiosis, it will produce gametes with 2 chromosomes each.

The number of different possible gamete combinations can be got using the formula 2^n, which n is the number of chromosomes in each gamete.

Therefore, 2^2 = 4 possible combinations of gametes.

If one of the individuals will produce 4 possible combinations of gametes, a combination of two of these gametes will result in offsprings with (4)^2 possible combinations of different offsprings. i.e. 16 possible genetically different offsprings.

Answer:

Option B, It allows different kinds of organisms to be easily identified based on their characteristics

Explanation:

Options for the question are

Solution

A standardized taxonomic system provides a common basis for the entire scientist community to identify and classify organism on common grounds and hence leading to a standardized organism classification across the globe.  

This also groups organisms into different kingdoms, taxas and classes with defined hierarchy and description of shared traits and characteristics. It also provides scope for inclusion of newly discovered species thereby making the standardized taxonomic system flexible  

Hence, option B is correct

Answer:

b

Explanation:

i got it right on SI

Answer:

The correct answer is - option A. aldosterone.

Explanation:

Aldosterone is secreted by the Zona glomerulosa of the adrenal cortex of the adrenal gland. It is mineralocorticoid which is a steroid hormone that signals the kidney to prevent sodium ion and water in case of low blood pressure and volume in vessels. To save the water and ion of salts it promotes the reabsorption and leads to low urine output.

On another hand, ANP or atrial natriuretic peptide which release from the heart and enhances the urine output in response to high blood volume and pressure as it ceases the release of the Aldosterone.

Thus, the correct answer is - option A.

An atrial natriuretic peptide secreted by the heart has exactly the opposite function of aldosterone (Option a).

In conclusion, an atrial natriuretic peptide secreted by the heart has exactly the opposite function of aldosterone (Option a).

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Answer:

Probability that their first child will be an albino = 1/4;

Probability that their second child will be an albino is 1/4;

Probability that their third child will have normal pigmentation = 3/4.

Total combined probability of these 3 children = 1/4 x 1/4 x 3/4 = 3/64.

Explanation:

Autosomal recessive disorders are the ones in which disease occurs only if recessive alleles are present in both the locus of a particular gene's allelic positions.

Here both the parents are heterozygous for albinism allele. The probability of allelic combinations of their children is shown as under:

Parentals:          Aa    x    Aa

                          /      |       |     \

Progeny:        AA   Aa    Aa   aa

The birth of children is independent event so rule of multiplication will be applicable here.

Probability that their first child will be an albino is 1/4 because out of 4 children 1 has the probability of being born with allelic combination 'aa'.

Probability that their second child will be an albino is 1/4 and the reason is same as above.

Probability that their third child will have normal pigmentation is 3/4 because AA, Aa and Aa are 3 children with normal pigmentation.

So the total combined probability is 1/4 x 1/4 x 3/4 = 3/64.

For two heterozygous parents, the probability their first two children will be albino and the third will have normal pigmentation is 4.6875%, as each genetic makeup is an independent event.

The subject of this question pertains to genetics, specifically the inheritance of the autosomal recessive allele for albinism. When both parents are heterozygous, each child has a 25% chance of being affected by albinism (both receive the recessive allele). Consequently, the probability of their first child, second child being albino and third child being normal (does not have the condition) would be calculated as 0.25 * 0.25 * 0.75 = 0.046875 or 4.6875%. The child's status does not influence the probability of the subsequent child's genetic makeup because each child's genetic makeup is an independent event.

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Answer:

The correct answer is cholinergic drugs.

Explanation:

Cholinergic drugs refer to a broad variety of drugs that works on the parasympathetic nervous system. These drugs function by increasing the activities of acetylcholine, which is a chemical messenger or a neurotransmitter in the brain. The influences of upsurged acetylcholine are regarded as the everyday function of the body like digestion, salivation, relaxation of skeletal muscle, and constriction of pupils.  

The cholinergic drugs function by preventing the enzyme, which dissociates acetylcholine, and results in the production of naturally occurring acetylcholine that lasts for a prolonged time.  

Answer:

Repressible operon

Explanation:

In a repressible operon, a corepressor binds to the repressor to activate it. The active repressor then binds to the operator to prevent the expression of the operon.  These operons have the genes that code for the enzymes required to make molecules from simpler substances. When the molecule is already present in the cell, it serves as a corepressor to prevent the expression of the genes.

For example, tryptophan operon is expressed only when tryptophan is not present in the cells. Tryptophan serves as a corepressor to prevent the expression of the operon.

An organism would likely use a repressible operon to produce enzymes needed to manufacture a molecule from smaller environmental molecules.

D and E

Explanation:

The organisms are classified on the basis of their similarities and dissimilarities.

The taxonomic ranks are: Kingdom > Phylum> class > Order > family > genus > species.

As we move from kingdom towards the species the degree of similarities increases  i.e.  organisms that are grouped within a kingdom may have greater number of dissimilarities among them again more similar organisms are grouped into phylum, further organisms  whuich are more similar within a phylum are grouped into class and this goes on.

In a species the individuals are very similar and have least number of dissimilarities among them.

In the given situation, A,B and C are of same class But they are in different order but C,D and E are of same order.

So C is more similar to A and B when compared to D and E.

Thus, D and E  are expected to show greatest degree of structural homology.

Answer:

amount of Liquid fertilizer

Explanation:

Complete Question

Dieffenbachia plants usually grow well without fertilizer. A student wanted to see if adding liquid fertilizer would make a difference in the growth of the plant. Three plants were placed in the same type of pot with the same type of soil. Two plants received fertilizer and one plant did not. All plants received the same amount of light and water during the experiment.She watched the plants grow over a period of 30 days, only adding the same amount of water to each plant on a weekly basis. What variable is NOT being controlled in this experiment?

Solution

In an experiment the variables are categorized into two groups  

a) Controlled and  

b) Uncontrolled  

Uncontrolled variable are the ones which are independent i.e any kind of  variation in experiment or any of its factor does not impact the uncontrolled variable. Such variable when in itself are varied, affect all other controlled variable.  

Thus, amount of liquid fertilizer is an uncontrolled variable while factors such as growth of plant etc. are controlled variable.  

The student conducted a 30-day experiment comparing Dieffenbachia plant growth with and without liquid fertilizer under consistent light and water conditions.

The controlled variables included the amount of light, water, and frequency of watering provided to all plants.

This ensures that these factors did not influence the results, as all plants experienced the same conditions.

Light is crucial for photosynthesis, and water is essential for plant hydration and nutrient uptake.

The dependent variable was the growth of the Dieffenbachia plants, measured in terms of height, number of leaves, or overall vitality.

Over the 30-day period, the student observed and documented the growth of the plants, noting any noticeable differences in height, leaf development, or overall health between the fertilized and non-fertilized plants.

At the end of the experiment, by comparing the growth of plants with and without the liquid fertilizer, the student could determine if the addition of fertilizer had any significant impact on the growth and health of Dieffenbachia plants.

This information can be crucial for optimizing the care and growth of these plants.

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Answer:

The answer is option a. embryo

Explanation:

There are three stages in the prenatal period, namely the germinal, embryonic and foetal period.

The germinal period begins at conception and last for two weeks.

The embryonic period begins after germinal stage and last for two months. It is a period where organogenesis and development of limb buds occurs. These makes it a delicate period during prenatal development.

In the fetal period, sex organs bones and muscle tissues form. There is rapid growth of the foetus. It is a period which begin after two months of conception until birth.

The period of prenatal development during which exposure to teratogens is a. embryo.

Understanding Teratogens: Teratogens are substances that can cause malformations or defects in a developing fetus. They can include drugs, alcohol, infections, and environmental chemicals.

Critical Periods: The embryonic stage is known as a critical period in prenatal development, meaning that this is when the foundations for major body structures are laid out. This timing is crucial because during this phase, the major organs and systems (such as the heart, brain, and spinal cord) begin to form and are particularly sensitive to harmful influences.

Development of Major Structures: During the embryonic stage, cells differentiate and change into various types that will become the major structures of the body. For example, within just a few weeks after conception, the neural tube develops, which eventually becomes the spinal cord and brain. If teratogens are introduced during this time, they can disrupt the normal development of these critical structures.

Consequences of Exposure: Teratogenic effects can vary depending on the timing of exposure, the dose, and the genetic susceptibility of the embryo. The earlier the exposure occurs during the embryonic stage, the more severe the potential defects may be.