Discuss the key types of strokes used for airbrush make up application

Answer:

An individual person can help protect biodiversity in multiple ways.

Explanation:

I don't know if this was the answer you're looking for, but I hope it's a start!

The major difference between an endospore of a bacterium and an exospore of a fungus is that B, endospores are dormant forms which are highly resistant to environmental stresses, while exospores are not.

Endospores are formed by some bacteria, such as Bacillus anthracis, as a means of survival in harsh environments. They are metabolically inactive and can withstand extreme temperatures, radiation, and chemicals. When conditions improve, the endospore can germinate and the bacterium can resume its normal life cycle.

Exospores are formed by some fungi, such as actinomycetes. They are not as resistant to environmental stresses as endospores, but they can help the fungus to disperse and colonize new areas.

Find out more on endospore and exospore here: https://brainly.com/question/4197584

#SPJ1

Based on the number of MN blood group genotypes, they are not from the HW data, possibly due to the Wahlund effect of interbreeding with neighboring tribes (or maybe inbreeding)

In population genetics, the Wahlund effect is the buildup of heterozygosity (ie when an organism has two different alleles at a locus) in a population caused by the structure of subpopulations. That is, if two or more subpopulations are in Hardy-Weinberg equilibrium but have different allele frequencies, the overall heterozygosity is less than if the entire population is in equilibrium. The underlying cause of this population subdivision could be a bottleneck to the geographic flow of genes followed by genetic shifts within the subpopulation.

Genotype frequency:

Allele frequency:    

Frequency M = p = p² + 1/2 (2pq) = 0.2 + 1/2 (0.6) = 0.2 + 0.3 = 0.5

Frequency N = q = 1-0.5 = 0.5.

Expected genotype frequencies (assuming Hardy-Weinberg):

MM (p²) = (0.5)² = 0.25

MN (2pq) = 2(0.5)(0.5) = 0.5

NN (q²) = (0.5)² = 0.25

Expected number of individuals from each genotype:

MM = 0.25 X 400 = 100

MN = 0.5 X 1200 = 600

NN = 0.25 X 400 = 100

CHI-SQUARE (X²):

X² = Σ(O-E)²/E

X² = (400-100)²/400 + (1200-600)²/1200 + (400-100)²/40

X² =225 + 180 + 200

X² =630

X² (Calculated) > X² (table), then reject the null hypothesis. Not on HWE.

Therefore, conclude there is a statistically significant difference between what was observed and what was expected under Hardy-Weinberg. That is, the null hypothesis is rejected and concludes that the population is not in HWE. They don't, possibly due to the Wahlund effect of interbreeding with neighboring tribes (or possibly inbreeding).

Complete question, see the picture

Learn more about Hardy-Weinberg equilibrium at https://brainly.com/question/16823644

#SPJ4

These two molecules are two nuclide acids namely DNA and RNA.

When nucleic acid is naturally occurring, it may be broken down into phosphoric acid, sugars, and a variety of organic bases (purines and pyrimidines). Because they control the creation of proteins, nucleic acids—the primary information-carrying molecules of the cell—determine the inherited traits of every living creature. Deoxyribonucleic acid (DNA) and ribonucleic acid (RNA) are the two primary types of nucleic acids .

All free-living creatures and the majority of viruses have genetic material made up of DNA, which is the ultimate life plan. RNA is the genetic material of certain viruses, but it is also present in all living cells and is crucial to many biological activities, including the synthesis of proteins.

Therefore, the two molecules described are RNA and DNA.

Read more about nucleic acids, here

https://brainly.com/question/11309892

#SPJ1

The probability of a male offspring having hemophilia is 0.5 or 50%.

The probability of a female offspring being a carrier of hemophilia is 0.5 or 50%.

Since the woman is a carrier of the hemophilia gene, she must have one normal X chromosome (X^N) and one hemophilia X chromosome (X^H). The man has two normal X chromosomes (X^NX^N).

The Punnett square for their cross would look like:

 | X^N    | X^H

--|--------|------

Y | X^NX^N | X^HY

--|--------|------

Y | X^NX^N | X^HY

The possible genotypes of their offspring are X^NX^N, X^NX^H, and X^HY.

The male offspring will have hemophilia if he inherits the X^H chromosome from his mother. Since the mother is a carrier and has one X^H and one X^N chromosome, there is a 50% chance of passing on the X^H chromosome to her son.

The female offspring will be a carrier of hemophilia if she inherits one X^H chromosome from her mother. There is a 50% chance of the mother passing on the X^H chromosome to her daughter, and a 50% chance of the daughter inheriting the X^N chromosome from her father.

Learn more about hemophilia at: https://brainly.com/question/14203344

#SPJ1

Answer:

c) one organism benefits while the other organism is not affected.

Whether some membrane proteins are involved in bioenergetic reactions while others are involved in membrane transport is True.

Membrane proteins have specific roles to play, and they play a crucial role in transporting materials in and out of cells. Some membrane proteins are involved in bioenergetic reactions (metabolism) while others are involved in membrane transport. These proteins help in transporting ions, sugars, amino acids, neurotransmitters, and other molecules across the membrane.

Some membrane proteins are involved in bioenergetic reactions (metabolism) while others are involved in membrane transport. Membrane proteins are an essential component of all cells since they assist in cell communication, regulate cell growth, and transport molecules throughout the cell.

Learn more about Membrane proteins: https://brainly.com/question/15048921

#SPJ11

It is true that some membrane proteins are involved in bioenergetic reactions (metabolism) while others are involved in membrane transport. Membrane proteins are a class of proteins that are associated with, or embedded in, a biological cell's membrane.

They play a variety of roles in biological cells, including being channels for the movement of hydrophilic (water-soluble) molecules and ions across the membrane; for transducing signals from the extracellular environment to the inside of the cell; for facilitating the recognition of the extracellular environment and subsequent adhesion and cell-cell interactions.

Membrane proteins' functions vary greatly depending on their location in the cell membrane. Many proteins, such as transporters and channels, help with the passage of molecules across the membrane. Others, such as receptors and enzymes, are involved in transmitting signals across the membrane.

It is true that some membrane proteins are involved in bioenergetic reactions (metabolism) while others are involved in membrane transport

To know more about membrane proteins, refer

https://brainly.com/question/4707495

#SPJ11

Answer:

Option C is correct ( Action potential)

Explanation:

a momentary reversal in electrical potential across a plasma membrane (as of a neuron or muscle fiber) that occurs when a cell has been activated by a stimulus.

Answer:

your answer would be b

Explanation:

Many Body segments are very wholesome are essential such as a segment for digestion and a segment for reproduction.

In the above case, it would be more accurate to say that many bodily systems are essential for our overall health and well-being, and they each play important roles in maintaining our bodily functions. For example, the digestive system is responsible for breaking down food and absorbing nutrients, while the reproductive system is responsible for producing and delivering offspring.

Therefore, It is important to note that while some bodily functions or segments may be considered more "wholesome" than others, each system is necessary and contributes to the overall functioning of the body. So, rather than categorizing them as wholesome or not, it's more useful to think of them as essential components of a complex and interconnected system.

P.S. Question seems incomplete and general definition is given.

Learn more about bodily systems on:

https://brainly.com/question/342055

#SPJ1

Answer:

Domain

Explanation:

A domain is the most inclusive of the levels

Answer:

jnnnnnnnnnnnnnnnnnnnnnnnnnnnnnnn

Explanation:

Answer:

The correct answer is Incus

Femur bones is NOT part of the pelvic girdle

The region between the thighs and abdomen is pelvic region otherwise called pelvic girdle or bony pelvis.

This pelvic girdle is a basin-shaped structure of bones associates the legs and the trunk which is a part of the appendicular skeleton,

It connects the lower limbs to the axial skeleton where the upper limb is connected by the pectoral girdle to the axial skeleton.

The pelvic girdle form the bony framework with the sacrum of the vertebral column and coccyx.

It provides support and stability from the axial skeleton to the hips and lower limbs and also protects the abdominal and pelvic visceral organs.

For more details regarding pelvic girdle, visit

https://brainly.com/question/28903345

#SPJ2

Hardwired characteristics of the brain that attempt to keep us in balance by correcting deficiencies are referred to as homeostatic mechanisms.

Homeostasis is the body's ability to maintain a stable internal environment despite external changes.

In the context of the brain, homeostatic mechanisms involve various processes that regulate physiological functions and maintain optimal levels of essential substances.

These mechanisms can include feedback loops that detect imbalances and initiate corrective actions.

For example, if there is a deficiency in a particular nutrient or hormone, the brain may activate mechanisms to increase its production, decrease its consumption, or enhance its absorption from the environment.

Homeostatic mechanisms play a crucial role in ensuring the body's overall stability and functioning, helping to maintain proper levels of various substances and promoting overall well-being.

To know more about Homeostasis, refer here:

https://brainly.com/question/15647743#

#SPJ11

Answer:

The flight-or-flight hormones are released by the endocrine system in response to environmental changes detected by the nervous system.

Explanation:

yes

The best wave represents ultraviolet rays is Wave B.

Ultraviolet (UV) radiation is a type of non-ionizing radiation that is emitted by the sun and unnatural sources, such as tanning .

Exposure to UV rays can cause early ageing of the skin and signs of sun harm such as creases , leathery skin, liver bumps, actinic keratosis, and solar elastosis.

UV beams can also generate eye pains. They can force the cornea to become inflamed or ignited.\

Thus, the option "B" is correct,  Ultraviolet (UV) radiation is a type of non-ionizing radiation that is emitted by the sun and unnatural sources, such as tanning .

To learn more about  Ultraviolet radiation click here:

https://brainly.com/question/4144192

#SPJ2

Answer:

b

Explanation:

Abert's squirrels are light gray with a black or dark gray stripe down their backs and white underparts.

Kaibab squirrels have distinct color variations, with dark gray or black sides and underparts, white tails, and russet or chestnut brown backs and heads.

The canyon served as a physical barrier between the woods and squirrels on each rim. One squirrel population has split into two different groups that could no longer procreate. This is known as allopatric speciation, according to National Geographic.

Kaibab squirrels became geographically separated from Abert's squirrels, which live on the canyon's south rim. Kaibab squirrel« acquired special traits in isolation, such as a full whitetail.

Learn more about to  Kaibab squirrels

https://brainly.com/question/29969641

#SPJ4

Answer:

Mitosis is nothing more than creating an exact replica of the organism that is a source. Meiosis on the other hand allows for variation between organisms. In meiosis, the organism mates with another of the same species. If the two organisms that are mating are different, the resulting offspring will have similar genes to both the parents, but also could result in mutations. In meiosis, it is more likely for the offspring to have mutations rather than in mitosis.

Answer: by being smart and pog and swag

Explanation:

Even though there are gaps in the fossil record, some of the most direct evidence for evolution comes from fossils called Transitional intermediate  fossils that illustrate how certain major transformations in life forms occurred.

Microevolution, or small-scale evolution, can occasionally be observed directly (for example, in the case of drug-resistant bacteria or pesticide-resistant insects).

But many of the most exciting evolutionary events, like the separating of animal and plant lineages from a common ancestor, occurred millions of years ago.

Additionally, they did not evolve on the days-to-weeks timelines of bacterial and viral evolution, but rather over very lengthy time periods. Sometimes referred to as macroevolution, this large-scale evolution.

Therefore, Even though there are gaps in the fossil record, some of the most direct evidence for evolution comes from fossils called Transitional intermediate  fossils that illustrate how certain major transformations in life forms occurred.

To learn more about Evolution, refer to the link:

https://brainly.com/question/13492988

#SPJ4

Answer:

The question lacks options, the options are:

A. commensalism

B. mycorrhiza

C. parasitism

D. symbiosis

The answer is D, symbiosis (mutualism)

Explanation:

Organisms of same or different species interact with one another in their natural environment. The relationship between two organisms interacting with one another is called SYMBIOSIS. Symbiosis can be of different types depending on the effect of the relationship on the involved organisms. Symbiosis can be mutualistic, commensalistic or parasitic.

Mutualism is a kind of symbiosis in which the involved organisms benefit from the actions of one another. This is a case of the association between the root nodules of leguminous plant and rhizobium species.

Rhizobium is a bacteria genus found in the soil. They form nodules by attaching to the root of leguminous plants, which helps the plants to fix atmospheric nitrogen i.e converting gaseous nitrogen to a usable form (ammonia). In return, the plants provide organic acids for the Rhizobia bacteria, which they use as carbon and energy source. Hence, the association is a symbiotic relationship and specifically a mutualistic one.

The answer is no mycorrhiza because it is an association between a FUNGUS and a plant.

Answer:

noooooooooooooooooooooo

Explanation:

really

When a boom thing binds to the extracellular area of a RTK, its dimerization is brought on with different adjoining RTKs. Dimerization results in a fast activation of the protein's cytoplasmic kinase domain.

Dimerization of the EGF receptor has been described as a mechanism for activation of the kinase activity and signal transduction through the EGF receptor.

Dimerization stimulates receptor PTK activity. Monomeric receptor PTKs exhibit weak basal activity (Inactive). Ligand-induced receptor dimerization increases the local concentration of the kinase domain leading to more efficient transphosphorylation of tyrosine residues in the mobile activation loop.

To know more about dimerization visit:-

https://brainly.com/question/17152685

#SPJ4

Answer: Dish Washer

Explanation:

3. only certain neighboring cells will be activated. Cells that are near to one another engage in paracrine signalling.

Here, a soluble signalling molecule released by one cell diffuses to a neighbouring cell. Chemical signals are used by cells to communicate. A transmitting cell will frequently exude these chemical signals, which are proteins or other substances, into the extracellular environment. They can reach nearby cells from there by floating like messages in a bottle. Desmosomes, tight junctions, and gap junctions are the three primary mechanisms by which cells join to one another. These kinds of junctions serve various functions and are distributed around the world.

The complete question is:

scientist is studying how chemical messages are transferred between cells of a developing embryo. in a research journal, the scientist draws a diagram to illustrate how the embryonic cells at the bottom of the early embryo are releasing chemicals to nearby cells to elicit protein production in the activated neighboring cells. a diagram representing embryonic cells releasing signaling molecules that are absorbed by nearby cells. if the signal is absorbed by the cell, it is transferred through the signal pathway into the nearby cells nucleus. which scenario is the most likely, regarding the signaling molecule?

1. all neighboring cells will be activated.

2. cells that have genetic variations will be activated.

3. only certain neighboring cells will be activated.

4. only cells that are already specialized will be activated.

Learn more about cell here:

https://brainly.com/question/30046049

#SPJ4

Answer:

A

Explanation:

When cardiac output increases due to increased blood volume, with no change in sym/psym activation, the ST segment of the ECG changes the most.

What is an ECG?

An ECG is a recording of the heart's electrical activity. This helps in detecting any type of heart-related problem.

The electrical activity of the heart is represented by an ECG. The electrical activity is generated by the heart's pacemaker, which is located in the sinoatrial (SA) node, which is situated in the right atrium, near the opening of the superior vena cava.

The SA node is responsible for initiating electrical impulses that control the rhythm and rate of the heartbeat.

What is cardiac output?

Cardiac output is the amount of blood the heart pumps out of the ventricles in one minute. This is determined by multiplying stroke volume by heart rate.

What happens when cardiac output increases due to increased blood volume?

When the volume of blood within the body increases, the cardiac output also increases, resulting in an increase in the ST segment of the ECG. This happens even if there is no change in the sym/psym activation.

What happens to the ST segment of the ECG?

When cardiac output increases due to increased blood volume, with no change in sym/psym activation, the ST segment of the ECG changes the most.

To know more about cardiac output, visit:

https://brainly.com/question/6463523

#SPJ11

Answer:north

Explanation:

Answer: It points North

Explanation: