How are sexual reproduction and asexual reproduction different from each other?A. sexual reproduction requires two parents and asexual reproduction requires only one parentB. asexual reproduction requires two parents and sexual reproduction requires only one parentC. mutation rates are lower in sexual reproduction than in asexual reproductionD. asexual reproduction occurs only in multicellular organisms

Answer:

Amino Acids make up proteins

Explanation:

Amino acids are the monomers of proteins.

Answer:

FLACC stands for the Face, Legs, Activity, Cry, and Consalibility scale. Children should be between 2 months to 7 years of age. The form of evaluation is a scale from 1-10 to describe pain.

Explanation:

FLACC stands for Face, Legs, Activity, Cry, and Consolability, and it's a tool used to assess pain in children aged 2 months to 7 years. The scale measures pain through five categories, with caregivers or healthcare professionals observing the child's behavior to gauge pain levels.

FLACC stands for Face, Legs, Activity, Cry, and Consolability. It is a tool used to assess pain in children, particularly those who can't express their pain verbally. These five categories help evaluate the physical and behavioral signs of pain. Each category is scored from 0 to 2, providing a total score that can range from 0 (no pain) to 10 (severe pain).

The FLACC scale is typically used for children aged 2 months to 7 years, but it can be also used with older children who are unable to communicate verbally due to cognitive or developmental disabilities. However, for children above 7 years with good communication skills, other pain assessment scales should be used.

When using the FLACC scale, caregivers or healthcare professionals watch and evaluate the child's behavior and expressions to gauge their level of pain. They score each of the five categories based on their observations and sum up these scores to quantify the child's pain level.

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You would generally not be able to recover fossils from volcanic or plutonic rock, so looking around in an area on active volcanic islands would yield nothing.

You always want to look in the layers of sedimentary rock for fossils. The Grand Canyon would be a great place to see these layers as well as a shallow ocean because you may find the remains of prehistoric shark teeth or bones protruding through the surface of the sand.

The answer is Active volcanic islands.

If this is a question in which you can choose more than one answer it may be smart to also choose a shallow ocean as well. This is because it is difficult to get the tools and materials necessary down in the water and would be difficult to get deep enough underneath sand to start digging into actual fossil bearing rock.

So in that case, the answer would then be both Active volcanic islands and A shallow ocean.

Answer:

ATP Adenosine triphosphate

Explanation:

Answer:

ATP

Explanation:

Mitotic division and differentiation of basal epithelial cells.

Answer: C. They are jointed

Explanation: “arthro” is a root meaning “jointed”

Answer:

C. They're jointed

Explanation:

Anthro= Jointed

Answer:

surgical puncture into the pelvic cavity to remove fluid from the space between the rectum and uterus, called the rectouterine pouch (Douglas's cul-de-sac).

Culdocentesis is the medical procedure that involves making a puncture to aspirate fluid from the douglas cul-de-sac (or rectouterine pouch).

The procedure involved in making a puncture to aspirate fluid from the douglas cul-de-sac, also known as the rectouterine pouch, is referred to as culdocentesis. This medical technique involves inserting a needle into the area posterior to the vagina and anterior to the rectum to aspirate any fluid that might have accumulated due to different conditions such as ectopic pregnancy, pelvic inflammatory disease, or a ruptured ovarian cyst.

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Answer:

only found on the south-western coast ofAfrica, living in colonies on 24 islands between Namibia and Algoa Bay, near Port Elizabeth, South Africa

Answer:

Penguins can be found in South America on the coasts of Chile, Argentina, Uruguay, and Peru. Specifically, some of the most well-known penguin colonies in South America are found in Punta Tombo in Argentina, Isla Magdalena in Chile, and the Ballestas Islands in Peru. Penguins are flightless birds that are adapted to living in cold environments. There are several species of penguins found in South America, including the Magellanic penguin, the Humboldt penguin, and the Galapagos penguin.

Explanation:

D.The rain forest is important to life as a whole on the planet.

Answer: d. The Rainforest is important to life as a whole to the planet

Explanation: option D best summarizes the information because the whole processes described are all essential in sustaining life as it is more encompassing that the other options. Plants therein sequestering carbondioxide and releasing oxygen is the process of photosynthesis, sugars are also produced which give life as food to a variety of animals. Plants and animals also avail themselves of the great quantities of water held by the plants. Thus the whole cycle produces more plants and animals to replace dying ones thereby preserving life.

Answer:

he used multiple different types of water the experiment is to broad

Explanation:

he can't compare 4 different ph's in 1 experiment

Answer:

C. Bacteria breaks down ammonia into nitrogen

Explanation:

Option (D) is the correct answer. During nitrification, bacteria convert ammonia to nitrites, and then to nitrates. This process ensures that nitrogen is available to plants in a usable form. Thus, ammonia is changed back into nitrate.

During nitrification, specific bacteria convert ammonia (NH₃) into nitrites (NO₂), and then other bacteria convert nitrites into nitrates (NO₃). This process is essential in the nitrogen cycle, which ensures that nitrogen is available to plants in a usable form.

Therefore, the correct answer is:

To summarize, in the nitrification process, bacteria change ammonia to nitrite and then to nitrate, making it available for plant uptake.

Answer:

The correct option is this: THE POTATO ORIGINATED IN IRELAND.

Explanation:

In 1800, the country of Ireland experienced potato famine, during this period a lot of people died from starvation. The principal reason why this event occur is because most of the potatoes in the country at that time were genetically similar. These potatoes were propagated from cuttings of the same plants, thus, their biodiversity level were quite low. This hamper their ability to resist the fungal disease that destroyed all the potatoes in the country at that time. The variety of potato planted in Ireland at the time of famine was lumper potato, this potato specie originated from another country.

Final answer:

The incorrect statement about the Irish Potato Famine is that 'The potato originated in Ireland.'

Explanation:

The statement that "The potato originated in Ireland" is NOT correct about the Irish Potato Famine. The Irish Potato Famine, which occurred from 1845-1852 AD, demonstrated the consequences of low crop diversity when a single variety of potato, which did not originate in Ireland but in South America, became highly susceptible to a potato blight.

This susceptibility led to the crop being wiped out, causing mass famine, death, and mass emigration. Most of the potatoes in Ireland were indeed genetically the same, as they were propagated from cuttings of the same plant. This genetic uniformity, along with a heavy dependency of Ireland's population on potatoes as a staple food, compounded the disaster when the crops were infected by a rot-causing mold.

Answer:

Water and CO2

Explanation:

Photosynthesis is a process performed by the plants (also some algae and bacteria) in which the energy of sunlight is transformed into chemical energy usable by those plants. Necessary components of this set of reactions are sunlight, water and CO2, while resulting products are glucose and oxygen. Products of photosynthesis are then used in the metabolic processes known as cellular respiration. During the cellular respiration, glucose and oxygen are used for the production of ATP, CO2 and water. Cellular respiration is performed in all living organisms.

Photosynthesis occur in the chloroplast, membrane organelles with photosynthetic pigments (such as chlorophyll).

Final answer:

Plants need carbon dioxide and water to perform photosynthesis, a process that occurs in the presence of sunlight, producing sugars and oxygen.

Explanation:

The two raw materials needed by plants to naturally perform photosynthesis are carbon dioxide and water. During photosynthesis, these materials are used in the presence of sunlight to produce sugars/carbohydrates like glucose and oxygen which are the main products of the process.

The reactions occur within the chloroplasts of the plant cells, where chlorophyll absorbs the sunlight needed to drive the process. During the cellular respiration, glucose and oxygen are used for the production of ATP, CO2 and water. Cellular respiration is performed in all living organisms.

Answer:

The correct option is C.

Explanation:

Climate refers to the average weather condition of a particular place over a period of about 35 years. Elements of climate include factors such as temperature, precipitation, relative humidity, cloudiness, atmospheric pressure, wind, sunshine, etc. There are different types of biomes all over the world.  

Climate is a principal determinant of the type of biome that can be found in a particular place. This is because the type of climate obtainable in a place determine the types of vegetation and the corresponding animals that will be found in that particular place. Thus, the average climate pattern of climate are important in determining biome distribution.

Climate, characterized by temperature and rainfall, determines biome distribution. In terrestrial biomes, the variability in temperature and precipitation shapes the type of vegetation and animal life present in a particular biome. Similarly, in aquatic biomes, factors such as sunlight penetration, density, and temperature shape the structure and types of species in each biome.

The best description of the effect of climate on biome distribution is that the average climate and patterns of climate are key in determining biome distribution. This is because the climate, characterized by predictable long-term atmospheric conditions, including temperature and rainfall, influences the type of vegetation and animal life that can thrive in a given area. These factors can vary based on the location's latitude, elevation, and other conditions. Biomes consist of multiple ecosystems with similar climates, which can be found in geographically distinct areas.

For instance, terrestrial biomes, including tropical wet forests, savannas, and deserts, each have characteristic climates. The tropical wet forest biome, characterized by warm temperatures, abundant water, and a year-round growing season, experiences high primary productivity, supporting a great variety of life. On the other hand, deserts and tundras, with their extreme temperatures and lack of water, have low primary productivity.

In aquatic biomes, other abiotic factors like sunlight penetration, water density, and temperature also shape the structure of these biomes. For example, different zones in the ocean will have different kinds of organisms adapted to conditions specific to each zone.

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Answer:

lactose is present and glucose levels are low

Explanation:

Lactose operon or lac operon  (includes lacZ and lacY genes) is found in some bacteria and the products of its genes are involved in lactose metabolism. So, this operon is active (genes are transcribed) when lactose is present and glucose is absent. The operon is regulated by the lac repressor which acts as a lactose sensor and catabolite activator protein (CAP) which acts as a glucose sensor.

When there is lactose (in the form of allolactose) lac repressor detects it and stops being repressor. This enables transcription.

CAP detects glucose (via cAMP) and activates transcription when glucose levels are low/

The lacZ and lacY genes are transcribed when lactose is present and glucose levels are low. This occurs because allolactose, an inducer, prevents the repressor protein from binding to the operator, allowing transcription to occur. Additionally, low levels of glucose activate the transcription through the cAMP-catabolite activator protein (CAP) complex.

The lacZ and lacY genes are transcribed when lactose is present and glucose levels are low. The lac operon is a classic example of an inducible operon, meaning that it is only transcribed under specific conditions. When lactose is present, it is converted to allolactose, which acts as an inducer and prevents the repressor protein from binding to the operator. Additionally, when glucose levels are low, cAMP binds to the catabolite activator protein (CAP), which then activates the transcription of the lac operon.

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Answer: wherever the wind blows :)

Explantation:  the waves go 90 degrees to the left (southern hemisphere) or the right (northern hemisphere)

also, if it's blowing away from the beach, it causes upwelling,

which brings nutrients from the bottom of the ocean and attracts more organisms.

hope this helps :)

Well, this depends on the strength of the wind. The stronger the wind, the longer it blows and the longer the fetch, or stretch of ocean over which it blows, the larger the waves.

Answer:

CPT® Index - 96040

icd-10-cm code - Q99.2

Explanation:

Here in this case the diagnosis came out with fragility in X chromosome. This is some thing related with medical genetics. Hence, the CPT® Index for this scenario would be 96040. As per the American Medical Association, CPT® Index 96040 cover cases that fall into the category of “Medical Genetics and Genetic Counseling Services” which also involves counseling either with the patient or family for 30 minutes. The icd-10-cm code – Q99.2 deals with the problems associated with genetic abnormality

Hence, the answer is

CPT® Index - 96040

icd-10-cm code - Q99.2

A genetic counselor would report a combination of CPT and ICD-10-CM codes for a session on Fragile X syndrome, which would include medical genetics counseling services and the specific ICD-10-CM code for Fragile X syndrome, F81.82.

When it comes to the 45-minute session with a genetic counselor regarding a child diagnosed with Fragile X syndrome, a combination of CPT (Current Procedural Terminology) and ICD-10-CM (International Classification of Diseases, Tenth Revision, Clinical Modification) codes would be reported. The CPT code used would be reflective of the genetic counseling services provided. This would typically fall under a code for medical genetics and genetic counseling services. The specific ICD-10-CM code for Fragile X syndrome is FMR1 related disorders, including the specific code for Fragile X syndrome, which is F81.82.

It is essential for genetic counselors to provide education on the implications of genetic testing and the advantages and drawbacks of various testing methods, such as amniocentesis or chorionic villus sampling. In this case, the genetic counselor helps the parents understand the inheritance of Fragile X syndrome, the prognosis for the child, and the risks for future offspring.

animal fats are solid at room temperature but plant fats are liquid.

The statement, Denaturation of dna is a necessary step in southern blotting procedure because it separates double stranded dna into single stranded dna, is true.

Answer:

dominant allele

Explanation:

it's on google

It is because little kids and toddlers copy everything that they see other people do.  If they see you doing something, then they think they are supposed to do it too, and they copy you. Also they are “like sponges”(that’s what my mom says) and “soak up(/remember) everything”.

Answer:

2 in 4

Explanation:

If a female cat with orange fur (XOXO) is crossed with a male cat with black fur (XoY) then:

P: XOXO  x  XoY

F1: XOXo  XOY  XOXo  XOY

This means that half of the offspring will be females with tortoiseshell color  (XOXo) and other half  of the offspring will be males with orange fur (XOY).

Answer:

The answer is the sun!

Answer:

AArr and aaRR

Explanation:

The genotypes of the parents are AArr and aaRR.

A breeding experiment conducted between two organisms who are identical hybrids for two traits is called a dihybrid cross. Simply saying,, a dihybrid cross is a cross between two organisms, where both are heterozygous for two different traits. The individuals present in this type of trait are homozygous for a particular trait. These traits are due to the DNA segments which are called genes.

The parents carry different pairs of alleles for each trait in a dihybrid cross. One of the parents carries a dominant allele that is homozygous and the other one carries a recessive allele that is homozygous. The cross produces offspring in the F1 generation which is all heterozygous for specific traits.

Therefore, The genotypes of the parents are AArr and aaRR because a is dominant for a big size apple and the allele r is dominant for red color. One tree that produces big yellow apples and another tree that produces small red apples are crossed. Half of the offspring trees produce big red apples and half produce big yellow apples.

Read more about dihybrid cross, here

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Evolution is a term derived from word "evolve" which means "to unroll" or a process of development where organism reached a final destination. In scientific terminology, evolution also means almost similar, the process in which living organisms adapt themselves with respect to the environmental fluctuations by bringing some changes in their genetic makeup.

Though this is an inevitable process which is not in control of a certain living organism, therefore it has both positive and negative effects on species.

Beneficial aspects:

Evolution is the process which helps the organisms to survive when there are detrimental environmental hazards. In this process some organisms of a specie die while the others go through some genetic modification in such a way that they are better able to bear those environmental constraints and survive. This fittest and survived specie then reproduce superior offspring that are better able to withstand that environmental fluctuation in future. In simple terms we can say that evolution is a key process which makes specie more fit.

Harmful aspects:

Since evolution is just a hit and trial mechanism in which DNA undergoes some modifications in organism so the results are not always certain goal oriented. One devastating effect of evolution is parasitism which causes deadly effects for humans. There are some viruses and bacteria which are disease causing and when we are able to kill them with antibiotics they undergo evolution and form stronger parasites which are more difficult to combat the next time. This process has created a resistance for multiple strains of bacteria and the medical world is worried with the troublesome effects of this evolution in diseases like tuberculosis and AIDS.

Therefore, evolution is both beneficial and harmful for species.

Hope it helps!

Answer:

A) Plants with genes for the toxin are eaten less often by insects, and therefore less insecticide is needed.

Explanation:

Bt endoxin is lethal for some insects that ingest it (it is effective insecticide). Because of that, gene for the toxin is often used in the genetic engineering of certain plants, in order to reduce the use of pesticides. Unlike pesticides, which are unspecific (kill all insects, even those benefitial), Bt plants are a bit more specific.

Another advantage is that it has been shown that Bt corn is safe for human consumption.

Answer:

Prions

Explanation:

Prions are misfolded proteins found in the brain, they cause other proteins to fold the same way. The cell can't degrade the proteins which leads to an accumulation of these misfolded proteins and the development of neurodegenerative diseases like Alzheimer and Parkinson

Answer:

The correct answer will be option-is secreted by the epithelial cells of both layers of the serous pericardium

Explanation:

Serous fluid is a fluid which resembles the serum of the blood in its color which is pale yellow to transparent.

The serous fluid is present in the cavities of the body organs like in heart, the fluid is present in the pericardial cavity.

The serous fluid lubricates the wall of the heart and is produced by the serous pericardial membranes. The secreted fluid gets collected between the pericardial cavity which helps slide the smooth movement of the serous layer against each other.

Thus, secreted by the epithelial cells of both layers of the serous pericardium is the correct answer.

The serous fluid in the pericardial cavity reduces friction during heart contractions by lubricating the space between the heart and the pericardial sac. It is secreted by a special epithelium called the mesothelium attached to the pericardium.

The serous fluid in the pericardial cavity is secreted by the epithelial cells of both layers of the serous pericardium. Specifically, this substance is produced by a simple squamous epithelium known as a mesothelium, which is supported by connective tissue and attached to the pericardium. This fluid has a lubricating function, significantly reducing friction between the heart and the outer wall of the pericardial sac each time the heart contracts.

There are three serous cavities in the body: the pericardial, pleural, and peritoneal cavities. Serous membranes, including the pericardium surrounding the heart, form fluid-filled sacs or cavities and serve to cushion internal organs and prevent friction during movement.

For example, the serous fluid in the pericardial cavity safeguards the heart, while similar fluid in the pleural cavity protects the lungs. All these serous membranes secrete a thin, slippery serous fluid that functions to decrease friction and potentially harmful abrasion among organs.

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To signal hunger, the physiological need for food, the digestive tract sends messages to the hypothalamus by way of hormones and nerves.

The digestive tract sends messages to the hypothalamus by way of hormones and nerves to signal hunger.

To signal hunger, the physiological need for food, the digestive tract sends messages to the hypothalamus by way of hormones and nerves. The hypothalamus is a small region in the brain that regulates various bodily functions, including hunger and satiety.

When the body needs food, the digestive tract releases hormones such as ghrelin, which stimulates appetite. The hormones travel through the bloodstream and reach the hypothalamus, where they bind to specific receptors and trigger hunger signals.

In addition to hormones, the digestive tract also sends nerve signals to the hypothalamus. These nerve signals carry information about the state of the digestive system, such as the level of food in the stomach. If the stomach is empty, the nerves send signals to the hypothalamus, contributing to the sensation of hunger.

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