Limestone forms as ocean water evaporates and leaves calcium carbonate behind, which is then deposited on the ocean floor. what type of rock can be formed in this way?

Answer:

Definition of a Wave

Explanation:

a disturbance or variation that transfers energy progressively from point to point in a medium and that may take the form of an elastic deformation or of a variation of pressure, electric or magnetic intensity, electric potential, or temperature.

The layer of the Earth's interior that lies between the inner core and the mantle is made of liquid iron and nickel and is responsible for producing the magnetic field of the planet.

The five-cent coin used in the United States has not always gone by the name nickel. Because it wasn't initially called the half disme, nickel wasn't used to make it. The half dime had the same silver composition as the ten-cent piece, weighed exactly half as much, and had the same face value.

Nickel exhibits no chemical reactivity in its metallic state. It is insoluble in both cold and hot water as well as ammonia. Alkalis and strong nitric acid have no effect on it. But it does dissolve in weak nitric acid.

To know more about Nickel visit:

https://brainly.com/question/1825239

#SPJ1

Answer:

⋱ ⋮ ⋰

⋯ ◯ ⋯ ︵ 　　　　　　^v^

¸︵︵( ░░ )︵.︵.︵

(´░░░░░░ ') ░░░' )

`´︶´¯`︶´`︶´︶´`　^v^　　^v^

╔┓┏╦━━╦┓╔┓╔━━╗╔╗

║┗┛║┗━╣┃║┃║╯╰║║║

║┏┓║┏━╣┗╣┗╣╰╯║╠╣

╚┛┗╩━━╩━╩━╩━━╝╚╝

♪♫•*¨*•.¸¸❤¸¸.•*¨*•♫♪

a) No, the population is not in Hardy-Weinberg equilibrium.

b) The frequency of the R allele is 0.75.

c) The frequency of the B allele is 0.25.

d) After 5 generations, the frequency of the R allele cannot be accurately predicted without information on the selection pressures acting on the population.

e) After 5 generations, the number of individuals who will be homozygous recessive cannot be accurately predicted without information on the selection pressures acting on the population.

a) The population is not in Hardy-Weinberg equilibrium because the observed frequency of the recessive phenotype (0.25) differs from the expected frequency (0.0625) calculated using the Hardy-Weinberg equation.

b) Since R is dominant to B and the population is in Hardy-Weinberg equilibrium, the frequency of the R allele can be calculated as the square root of the frequency of the recessive phenotype (0.25), which is 0.75.

c) Similarly, the frequency of the B allele can be calculated as 1 minus the frequency of the R allele, which is 0.25.

d) Without information on the selection pressures acting on the population, the frequency of the R allele cannot be accurately predicted after 5 generations.

e) Without information on the selection pressures acting on the population, the number of individuals who will be homozygous recessive cannot be accurately predicted after 5 generations.

To learn more about Hardy-Weinberg equilibrium, here

https://brainly.com/question/29773694

#SPJ4

Answer:

Explanation:

This question seeks to test the knowledge of anaerobic respiration during the process of glycolysis. During intense exercise (or suffocation) the energy/ATP produced (for the short period of about 2 minutes) is as a result of the breakdown of glucose in the absence of oxygen (known as anaerobic glycolysis).

When an individual is fasting or experiencing starvation, the glycogen storage is quickly converted to glucose and then released into the body for cellular breakdown or respiration for the production of energy or ATP. Glycolysis leads to the formation of pyruvate; during suffocation/exercise, the pyruvate (serves as reactant) undergoes fermentation to either produce lactate in humans or ethanol and carbon dioxide in yeast cells (where lactate, ethanol and carbon dioxide serve as products).

Hence, starvation can be said to deplete glycogen storage while suffocation or anaerobic respiration (breathing in the absence of oxygen) causes the cellular breakdown of glucose (glycolysis) to be anaerobic. However, when the glycogen storage starts getting depleted, stored lipids starts getting converted to energy also in the presence of water in body.

It should be noted that the glucose (which is stored as glycogen) is synthesized/obtained from the food we eat.

The symptoms would be seen in a client with type 1 diabetes who is experiencing hypoglycemia is looking pale, Shakiness, Dizziness , Sweating, nausea, fast heartbeat, Irritability or anxiety, etc.

Type 1 diabetes is a condition in which the pancreas produces either a little or no insulin. It is a serious condition that occurs in the juvenile stage.

Various insulin treatments are recommended by the doctors for such condition.

Hypoglycemia is a condition when the blood sugar level goes down the normal level due to excessive dieting. This condition can also occur during type I diabetes when there is very low intake.

As glucose is important for body functioning it can show many side effects.

To learn more about hypoglycemia here

https://brainly.com/question/14757163

#SPJ4

Mitochondrial DNA is maternally inherited because the egg contributes virtually all of the cytoplasmic organelles to the zygote.

The reason why alleles for genes located on mitochondrial DNA are maternally inherited is because the egg contributes virtually all of the cytoplasmic organelles to the zygote during fertilization.

Mitochondria, which are responsible for energy production within the cell, contain their own DNA separate from the nuclear DNA.

Sperm cells do contribute mitochondria to the zygote, but they are usually destroyed shortly after fertilization.

Therefore, the mitochondrial DNA in the zygote comes mainly from the egg and is therefore maternally inherited.

This pattern of inheritance is important in tracing maternal ancestry and in studying mitochondrial diseases, which are caused by mutations in the mitochondrial DNA.

For more such questions on Mitochondrial, click on:

https://brainly.com/question/15159664

#SPJ11

Alleles for genes located on mitochondrial DNA are said to be maternally inherited because the egg contributes virtually all of the cytoplasmic organelles to the zygote.

Mitochondria are organelles found in eukaryotic cells that have their own genome, which is separate from the nuclear genome. In most species, including humans, mitochondrial DNA (mtDNA) is inherited exclusively from the mother. This is because during fertilization, the sperm contributes only nuclear DNA to the zygote, while the egg contributes both nuclear DNA and cytoplasmic organelles, including mitochondria. The sperm's mitochondria are located in the tail, which is lost during fertilization, so they do not contribute to the zygote.Therefore, all of the mtDNA in the zygote comes from the mother. This pattern of maternal inheritance has been observed in a wide range of species and is thought to be a result of the high cytoplasmic volume of the egg compared to the sperm.

To learn more about Mitochondria:

https://brainly.com/question/10688306

#SPJ11

Answer:

At the intrastrand level, nucleotides interact via phosphodiester bonds, while at the interstrand level, nucleotides interact via hydrogen bonds

Explanation:

Deoxyribonucleic acid, also called DNA, is a double helical structure composed of two polynucleotide chains. Each of these chains is called a STRAND. Each strand is made up of nucleotide subunits containing a phosphate group, a pentose sugar and a nitrogenous base (Adenine, Guanine, Cytosine and Thymine).

Within the strand (intrastrand), the 5' phosphate group of one nucleotide subunit is joined to the 3' OH group of another nucleotide by a form of covalent bond called PHOSPHODIESTER BOND. This continuously forms the long polynucleotide chain that makes up a strand of DNA.

However, between the two strands (interstrand), the base of one strand is held to the complementary base of another strand by HYDROGEN BONDS. This forms the double-stranded molecule we are familiar with.

The 1 H+ needed to cotransport the Pineeds must be taken into account in the equation since the ATP synthase activity would stall if there was not enough Pi available.

Because the conversion of ADP to ATP depends on the oxidative processes taking place in the mitochondria, this procedure is referred as oxidative phosphorylation. The final phase of OXPHOS, the ATP synthase, is driven by a continuous proton motive force, which also powers the synthesis of ATP. To cotransport the Pi required for the ATP synthase complex to phosphorylate ADP, the phosphate translocase needs one H+. The 1 H+ needed to cotransport the Pineeds must be taken into account in the equation since the ATP synthase activity would stall if there was not enough Pi available.One FADH2 molecule creates 2 molecules of ATP, while one NADH molecule generates 3 molecules of ATP. In ETS, 10 NADH molecules are generated, but only 2 FADH2 molecules. This means that 34 molecules of ATP were produced overall from these NADH & FADH2 molecules.

Learn more about ATP

https://brainly.com/question/14637256

#SPJ4

PDC is a multienzyme complex which catalyzes the conversion of pyruvate from glycolysis into acetyl-CoA.

Pyruvate dehydrogenase (E1), dihydrolipoamide transacetylase (E2), and dihydrolipoamide dehydrogenase make up the 9.5 MDa complex known as PDH (E3). The E2/E3 protein kinase is an extra structural component required to promote the connections between both the E2 & E3 subunits. The multienzyme PDC contains the pyruvate dehydrogenase (PDH) enzyme, which is sometimes described to as a "gatekeeper" in the oxidation of carbohydrates. PDH catalyzes the biologically irreparable decarboxylation of pyruvate to acetyl-CoA. Three distinct enzymes—pyruvate dehydrogenase, dihydrolipoyl transacetylase, & dihydrolipoyl dehydrogenase—perform the total process. They combine to create a tight multienzyme complex that is simple to separate as such by mitochondrial extraction.

Learn more about Pyruvate

https://brainly.com/question/15159050

#SPJ4

Answer:

+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_

1.plants, algae, and some types of bacteria are all examples Autotroph

  Dogs, birds, fish, and humans are all examples of heterotrophs.

+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_

2. the 6 main types of organisms  They can be divided into six major types: bacteria, archaea, fungi, protozoa, algae, and viruses. Organisms are classified by taxonomy into groups such as multicellular animals, plants, and fungi; or unicellular microorganisms such as protists, bacteria, and archaea. All types of organisms are capable of reproduction, growth and development, maintenance, and some degree of response to stimuli.

+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_

3. The Sun is the major source of energy for organisms and the ecosystems of which they are a part. Producers, such as plants and algae, use energy from sunlight to make food energy by combining carbon dioxide and water to form organic matter. This process begins the flow of energy through almost all food webs.

+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_

4. Thermal Energy ,Nuclear Energy, Chemical Energy, Electromagnetic Energy, Sonic Energy ,Gravitational Energy, Kinetic Energy and Potential Energy

+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_+-+_

Answer:

Yes, swollen lymph nodes are more common than some might think.

Explanation:

The medical terms for swollen lymph nodes are adenopathy or lymphadenopathy.

Lymph nodes play a vital role in fighting off sickness in the body. They act as a filter, trapping bacteria and viruses before they can spread too far.

Lymph nodes typically swell up as a response to bacteria or viruses. Though cancer can be a factor in swelling, it is very rare. Most commonly they are felt right below the corner of the jaw, in the neck. Yet, they are not only in the neck; they are all throughout the body. When they are swollen, they might feel tender or even painful.

Answer:

yes I will help

Explanation:

yes I will help you

Answer:

Pathogen #2

Explanation:

The immune system RESPONDS to pathogens by creating an antibody, and if you look closely at the shape of the pathogen compared to the antibody, it makes most sense that it would be created in response to this one.

Answer:

C. It provides more energy to the water at the equator, which causes equatorial water to evaporate, pulling warmer water away from the poles. The sun causes currents in the ocean by providing more energy to the water at the equator. This causes the water to evaporate, which creates a low-pressure system that draws warmer water away from the poles towards the equator. This process is known as the Coriolis Effect.

Explanation:

give me brainiest

Answer: 256 or 300 sorry if i was incorrect

Explanation:

The student must reach the top of the hill, and this is entirely dependent on the hill's elevation, which varies from one area to the next and is not constant in any particular area.

The hill is the highest point on Earth and plays an important role in ecosystems because it can provide a variety of different habitats for plants and animals as well as act as barriers that separate different ecosystems, such as the forest ecosystem present on one side of the hill from the grassland ecosystem present on the other side of the hill, and it is also a depositary of minerals and other resources.

Hence, the student must reach the top of the hill, and this is entirely dependent on the hill's elevation, which varies from one area to the next and is not constant in any particular area.

Learn more about the hill here.

https://brainly.com/question/12559629

#SPJ6

Answer:

5 armor?

Explanation:

Answer:

three Drake Scales

Explanation:

Microtubules start at the centrosome and then connect to the kinetochores, which are structures at the central region of chromosomes. The centrosome is the main microtubule-organizing center (MTOC) in most animal cells, whereas plant cells lack a typical centrosome.

The two spindle poles are the central region of a chromosome where a kinetochore is connected. Microtubules are a type of cytoskeletal protein filament that plays a crucial role in the mechanics of cell division.

Microtubules, together with actin and intermediate filaments, form the cytoskeleton, which is the structural framework of the cell. Microtubules also transport vesicles and organelles, support cell shape, and mediate cell signaling.

They are also crucial in cell division, serving as a framework for the mitotic spindle, a structure that segregates chromosomes during cell division.

To know more about Microtubules, refer

https://brainly.com/question/1348622

#SPJ11

The animals in the novel "Animal Farm" concealed the fact that they were running out of food by falsifying their records. This was done in order to maintain the illusion that the farm was successful and to prevent the animals from losing faith in the revolution.

They did this by increasing the food production figures on the records and lying to the animals about how much food was actually available. This allowed them to keep up the appearance that everything was going well on the farm, even though it was not.

The pigs, who were in charge, did this to maintain their power and control over the other animals. They knew that if the animals found out that they were running out of food, they would lose faith in the revolution and potentially revolt against the pigs.

Your question is incomplete, most likely it was:

How did the animals in Animal Farm conceal the fact that they were running out of food? why did they do this?

Learn more about Animal Farm here:

https://brainly.com/question/11752825

#SPJ11

The point mutations that are not within the within the boundary in T4 r11

are r43, r65, r73, r61, r47, r64,r59,r707 r62 and r71,

What is point mutation?

The mutation occurring in a genome when a single base pair is added or deleted while most point mutations are benign they can also have various functional consequences, including changes in gene expression or alterations in encoded proteins.

The T4 rII system is an experimental system developed in the 1950s by Seymour Benzer for studying the substructure of the gene. The experimental system is based on genetic crosses of various mutant strains of the E. coli-infecting virus bacteriophage T4.

By analyzing the recombination frequency between several r strains, Benzer was able to map the substructure of a single gene because he could produce numerous distinct r mutants. Even if there is a slim possibility that any mating pair of rII mutants will successfully recombine, a single petri dish might serve as the starting point for millions of experiments at simultaneously. The K12 () strain of E. coli, which was tolerant to wild type T4 but not to r mutants, was used to quickly screen them. [2]

Learn more about point mutations by clicking here :

https://brainly.com/question/15870401

#SPJ4

By using the DNA polymerase enzyme, DNA replication is the process by which new DNA nucleotides are added to the existing DNA chain.

During replication, a double-stranded DNA molecule is copied to produce two identical DNA molecules. DNA replication is one of the most fundamental processes that occurs within a cell.

One of the crucial elements in DNA replication is the enzyme DNA polymerase. DNA polymerases, which sequentially add nucleotides to the growing DNA chain while only integrating those that are complementary to the template, are responsible for the production of DNA. DNA replication is aided by four main enzymes. DNA replication, DNA polymerase, DNA ligase, primase, and helicase.

To know more about polymerase visit:-

https://brainly.com/question/29377728

#SPJ4

The fossil record is the type of evidence that is used with molecular clocks to estimate the split from a common ancestor.

A molecular clock is an estimation of the times of divergence used for the study of biological phenomena.

Molecular clocks are based on fossils found for a given species and the mutation rate of a given genomic sequence.

In conclusion, fossils are used as point of reference to build molecular clocks based on the mutation rate of homo-logous nucleotide sequences for a given taxonomic group for which these fossils belong.

Learn more about molecular clocks here:

https://brainly.com/question/2141539

#SPJ1

Answer:

Habitat & Diet

Sea turtles live in almost every ocean basin throughout the world, nesting on tropical and subtropical beaches. They migrate long distances to feed, often crossing entire oceans. Some loggerheads nest in Japan and migrate to Baja California Sur, Mexico to forage before returning home again.

Explanation:

hope it helps

Explanation:

DNA is a self replicating material that is present in nearly all living organisms as the main constituent of chromosomes. It is the carrier of genetic information

RNA is a nucleic acid present in all living cells. Its role is to act as a messenger carrying instructions from DNA for controlling the synthesis of proteins

Nucleic acid is a complex organic substance present in loving cells, especially DNA and RNA, whose molecules consist of many nucleotides liked in a long chain

Answer:

Hey mate.....

Explanation:

This is ur answer.....

However, unlike plants, fungi do not contain the green pigment chlorophyll and therefore are incapable of photosynthesis. That is, they cannot generate their own food carbohydrates by using energy from light. This makes them more like animals in terms of their food habits.

Hope it helps!

Brainliest pls!

Follow me! ;)

Answer:  

Chemical Formula C

Oxidation Combines with oxygen to produce carbon d ...

Reactivity Carbon does not dissolve in, or react wi ...

Chains of Atoms Carbon has the ability to make long stri ...

Compounds

Explanation:

No, I do not agree with my friend's statement. Trees and grass both rely on the Sun for energy, but the amount of energy each absorbs depends on their size.

Trees are larger than grass, so they are able to absorb more energy from the Sun. However, the distance between the Sun and the tree does not affect the amount of energy absorbed by the tree. The amount of energy absorbed by the tree depends on the surface area of its leaves, not the distance between the Sun and the tree.

Additionally, the amount of energy absorbed by the grass is much more affected by the distance between the Sun and the grass than the tree because the difference in size between the grass and the Sun is much greater.

know more about energy here

https://brainly.com/question/9704099#

#SPJ11

Answer:

I cant see the diagram but the answer is most likely C

Explanation:

The bird sitting on the ox to stalk prey is a classic example of commensalism, a type of symbiotic relationship between two organisms where one benefits and the other is neither harmed nor helped.

In this case, the bird benefits by being able to easily catch insects that are disturbed by the movement of the ox, while the ox is not affected by the presence of the bird.

This type of behavior is not uncommon in nature, and there are many other examples of commensalism in different ecosystems.

For instance, some fish swim alongside larger marine animals, such as sharks or rays, to scavenge food scraps left behind by the larger animal. Similarly, certain birds will follow grazing animals, such as buffalo or deer, to feed on insects that are disturbed by their movement.

Overall, commensalism is an important aspect of many ecological systems, as it allows different species to coexist and benefit from each other without causing harm. It also highlights the interconnectedness of different organisms in an ecosystem and the importance of biodiversity in maintaining a healthy and functioning ecosystem.

Learn more about biodiversity here : brainly.com/question/13073382

#SPJ11