what are the three terms used to discribe organisms such as sharks

Freshwater marshes occur beside rivers and oceans.

Yes, this statement is true .

Freshwater marshes conatins fresh water . They are generally found near the river mouths. They are  found along the fringes of lakes and rivers where the water table, the upper surface of underground water, is very high. Marshes are useful for the damage cause by the flood storing the water.

The benefit of using renewable resources such as sunlight and wind is that they are replaceable by healthy ecosystems and contribute to sustainable environmental practices.

Among the benefits of using renewable resources is that they are replaceable by healthy ecosystems. Thus, the answer to the student's question is C. Renewable resources are replaceable by healthy ecosystems. Renewable resources, such as sunlight and wind, are in abundant supply and are not in danger of being used up. The use of these resources contributes to a more sustainable environment, which means they can be used in a way that meets the needs of the present without compromising the ability of future generations to meet their own needs. This includes the sustainable harvesting of wood, cork, and bamboo, as well as sustainable agricultural practices. Using renewable energy sources like wind, solar, and hydroelectric power not only helps to combat climate change by reducing greenhouse gas emissions but also promotes energy independence and local control over power generation.

A community of organisms and their environment is called an ecosystem.

it is called ecosystem

three is your Answer :)

At least three seismograph stations are needed to locate the epicenter of a earthquake.

Further Explanation:

An earthquake occurs when two region of the earth slip past each other. Fault plane is the area where the slip occurs. Hypocenter is the region below the earth’s surface where earthquake starts while the epicenter is the region above it.

The earth consists of four major layer:

1. Inner core

2. Outer core

3. Mantle

4. Crust

Seismographs is an instrument used to record the earthquake. The recording done by this instrument is called as the seismograms.

The seismograph comprises of:

1.  A base: is fixed tightly in the ground  

2. Heavy weight: hangs freely

When the earthquake occurs, the ground shakes and in turn the seismograph also shakes while the hanging weight does not shakes. During the earthquake, the difference in the location between the shaking piece and the motionless piece is recorded. Magnitude of the earthquake is recorded as one for each earthquake. The magnitude of earthquake is measured by the Richter scale but is more commonly measured through moment magnitude scale.

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Answer Detail:

Grade: College biology

Subject: Biology

Chapter: Natural calamity

Keywords:

Seismograph stations, earthquake, fault plane, hypocenter, epicenter, inner core, outer core, mantle, crust, seismographs, instrument, seismograms, magnitude.

Answer: The correct answer is insoluble in water, covalent bonding, slow reaction rate, and high activation energies to begin reactions.

1,3,5,7

Explanation: Got it right on EDGE.

The characteristics of carbon bonds primarily involve covalent bonding with up to four carbon atoms, can include triple bonds, generally have high activation energies, and high melting points in covalent network solids like diamond.

The characteristics of carbon bonds involve covalent bonding where carbon atoms bond reasonably strongly with other carbon atoms and atoms of other elements. Carbon atoms can form up to four covalent bonds. Specifically, some forms of carbon, like diamond, do not have high solubility in water, do not conduct electricity, and have extremely high melting points, as all the atoms are connected by covalent bonds forming a covalent network solid. Covalent bonds generally have high activation energies for reactions, but the reaction rates can vary widely and are not necessarily slow. Carbon compounds can also form triple bonds, like those found in acetylene (C2H2).

Other properties of carbon compounds include the fact that they are generally non-electrolytes, as they do not dissociate in water to form ions, which means their aqueous solutions typically do not conduct electricity. However, an exception to this is graphite, which is an allotrope of carbon that exhibits both covalent and molecular solid properties, and can conduct electricity along the planes of carbon atoms due to delocalized bonding.

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The translation process activates to create polypeptide sequences.

When the messenger RNA gets information (codon) from the DNA, it comes toward the ribosomes where transfer RNA also attached. At the ribosomes, the transfer RNA decodes the information of messenger RNA as match its anticodons with codons of messenger RNA. (Nucleotides as A with U and C with G). This process of decoding at the ribosomes with the help of transfer RNA called the translation process which ultimately leads the process toward releasing of long chain peptide.

Polypeptide chains are formed when amino acids are joined by peptide bond . Linear polymers are proteins which are formed by joining of alpha carboxyl group of one amino acid to the alpha amino group of another amino acid. Peptide bond is formed when C=O group of one molecule react with NH2 group of another molecule and releasing a water molecule .

The process that joins amino acids together to form proteins is called "protein synthesis" or "translation." Protein synthesis occurs within the cells and involves two main steps: transcription and translation.

Transcription: The first step is the transcription of the genetic information stored in the DNA into a messenger RNA (mRNA) molecule. This process takes place in the cell nucleus. The enzyme RNA polymerase reads the DNA template strand and synthesizes a complementary mRNA strand by adding RNA nucleotides.

Translation: The second step is translation, which occurs in the cytoplasm of the cell, specifically in the ribosomes. During translation, the mRNA is "read" by ribosomes, and the sequence of nucleotides (codons) is used as a template to assemble amino acids into a polypeptide chain, which eventually folds into a functional protein.

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Nucleus is double membrane bound organelle present at center of cells. The nucleus holds the cell's DNA and controls all cell function. Cells with a nucleus are eukaryotic, and are also known as eukaryotes. The nuclear envelope in eukaryotes is like our skull, covering the nucleus and keeping the DNA safe.

This organelle has two major functions: it stores the cell's hereditary material, or DNA, and it coordinates the cell's activities, which include growth, intermediary metabolism, protein synthesis, and reproduction (cell division). Only the cells of advanced organisms, known as eukaryotes, have a nucleus.

The correct answer for this question is C) decreased mass - less energy needed for movement - less carbohydrates required - more available ATP

Solution; Increased muscle mass in athletes will increase the number of mitochondria in body. Mitochondria provides energy to cells of our body so more mitochondria will results in more energy and due to large amount of energy there will be increased cellular respiration and less fatigue, thus athletic performance will be improved.

Answer:

B

Explanation:

USATESTPREP

Answer:

Mutation can be defined as any change in the single base pair of the nitrogenous bases present in the DNA.

This change can be beneficial or harmful for the organism in which the mutation occurs.

The mutation can be of three types: Base substitution, base deletion and base insertions.

In case of base substitution a single or multiple base pair is substituted by another base pair which can produce a faulty protein.

In case of deletion any single or multiple base pair is deleted and due to that faulty proteins are produced.

In case of insertion mutation, base pair is inserted between the triplets which changes the predefined codes that leads to various disease and syndrome.

Sometimes the mutation can be beneficial or can cause no effect on the body of individual.

Them the solution is hypertonic. This means that the water within the cell would exit it and go outside and the cell would shrink.

Sorry I am late I think its D.. please let me know if it is correct or not thanks!!

Answer:

Collecting weather data helps geologists locate land that has been weathered

Explanation:

Option B is correct.

B. shared; atoms

A covalent bond, also called a molecular bond, is a chemical bond that involves the sharing of electron pairs between atoms. These electron pairs are known as shared pairs or bonding pairs, and the stable balance of attractive and repulsive forces between atoms, when they share electrons, is known as covalent bonding.

Answer:

B. shared; atoms

Explanation:

Covalent bond is formed by sharing of electrons between two atoms. In this way full outer shell is achieved by both the atoms. Since there is no gain or loss of electrons, no ions are formed in the process.

It is usually formed between the atoms of similar electronegativity. It can be of many types like sigma bond, pi bond etc. If a pair of electrons is shared, it's a single bond. If two pairs are shared, it's a double bond and if three pairs are shared, it's a triple bond.

An isotherm refers to a line associating locations with equivalent temperatures. The isotherm maps demonstrate that where the temperatures are comparatively low and high, and also where temperature modifications are dramatic or gradual over a distance. The isotherms are demonstrated with curved lines or in colored bands associating the temperatures.  

In the given case, one should go towards the South-West direction of the map to find a warmer temperature as the isothermal line of the highest temperature, that is, of 68 degree F directs towards the South-West.  

In the US, you would generally head south from New York State to find warmer temperatures, due to the Earth's tilt causing the sun's rays to heat the equatorial regions more intensely.

Without an actual isotherm map provided for reference, it's difficult to give a precise direction. However, generally, greater warm temperatures in the United States are found as you head southwards. This is based on the idea that temperature tends to rise as we move towards the equator. For example, moving from New York State towards Florida would generally involve encountering progressively warmer temperatures. This is due to the earth's tilt creating a direct path for the sun's rays to the equator than the poles, heating these areas more intensely.

The direction of heat transfer from hot to cold also supports this concept, mirroring the general tendency of warm air to rise and move towards cooler regions. These concepts of heat transfer and geographic temperature distributions are fundamental elements of thermodynamics and climatology. Secondly, other physical factors could affect the temperature such as altitude, ocean currents, and topography.

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No; the cells shrink with increasing salinity.

Hope this helps!

Answer:

No; the cells shrink with increasing salinity.

Explanation:

I did the study island

I believe the correct answer is commensalism.

This is a mutual symbiotic relationship were both the partners benefit from the process.In this case, the bacteria break down the food that is considered waste with facilitates its survival and on the other hand the human body obtains vitamins that are released in the bloodstream for absorption.

The left side of the tube will remain red, but rise in volume, as the right side of the tube falls in volume. The distilled water will dilute the sugar water.

Out of the provided options, the left side of the tube will remain red. However, there would be an increase in the volume as the right side of the tube drops in volume. The distilled water will also dilute the sugar water.

Further Explanation:

Osmosis refers to the spontaneous movement of the solvent particles via a semi-permeable membrane from a lower to the higher region of concentration, in the direction which tends to maintain equilibrium onto both sides. This process is essential in the biological systems as the membranes are semi-permeable.

In the given experiment, there are two tubes wherein one of them is filled with red sugar water while the other one is filled with distilled water and is segregated with a semi-permeable membrane. Osmosis will always focus on maintaining the equilibrium on both sides.

During this experiment, the solvent molecules will flow from lower to higher concentration region, which means that the molecules will move from the distilled water towards the sugar water. This will result in an increase in the volume of the left tube whereas there will a drop in the volume in the right tube. The distilled water will dilute the sugar water as the molecules move out.

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Answer Details:

Grade: High School

Subject: Biology

Chapter: Membrane Transport

Keywords:

Osmosis, U-tube experiment, molecules, lower concentration, higher concentration, sugar water, distilled water, semi-permeable membrane.

Answer:

The correct answer is

1. A rabbit living in  a desert has long ears  to disperse heat- abiotic factor.

2. A moth immediately  dives to the ground  when it hears a bat- biotic factor.

3. A lizard stays warm  by sunning itself  on a rock- abiotic factor.

4. A cactus has spines  instead of leaves  to help conserve water- abiotic factors.

5. A petunia is  bright red to  attract hummingbirds- biotic factor.

6. A stick-bug blends in  with trees to hide  from predators- biotic factor.

Explanation:-

The environment includes both abiotic and biotic factors which can affect the ecosystem. Living elements like plants and animals which affect ecosystem are known as biotic factors while the non-living elements which include air, water, temperature are called abiotic factors.

In the given question the options affected by the biotic factors due to bat, due to hummingbirds and due to predators.

Options affected by the abiotic factors due to heat and due to water.

The adaptations of organisms can be categorized based on whether they are responses to biotic factors or abiotic factors. Adaptations 1 and 3 are in response to abiotic factors, while adaptations 2, 4, 5, and 6 are in response to biotic factors.

Here are the classifications for each given adaptation:

1. A rabbit living in a desert has long ears to disperse heat.

 - This is an adaptation to an abiotic factor. The long ears help the rabbit to regulate its body temperature in the hot desert environment.

2. A moth immediately dives to the ground when it hears a bat.

 - This is an adaptation to a biotic factor. The moth's behavior is a direct response to the presence of a predator, which is a living organism.

3. A lizard stays warm by sunning itself on a rock.

 - This is an adaptation to an abiotic factor. The lizard is using the sun's heat, a non-living component of the environment, to regulate its body temperature.

4. A cactus has spines instead of leaves to help conserve water.

 - This is an adaptation to an abiotic factor. The spines reduce water loss through transpiration, which is crucial in the arid environment where water is scarce.

5. A petunia is bright red to attract hummingbirds.

 - This is an adaptation to a biotic factor. The coloration of the petunia is a strategy to attract pollinators, which are living organisms.

6. A stick-bug blends in with trees to hide from predators.

 - This is an adaptation to a biotic factor. The stick-bug's camouflage is an evolutionary response to the presence of predators, which are living organisms.

Adenosine triphosphate (ATP) holds more stored energy than Adenosine diphosphate (ADP). The energy is stored in the high-energy bonds between the phosphate groups in ATP, and it is released when ATP is converted to ADP.

The two structures, ATP (Adenosine triphosphate) and ADP (Adenosine diphosphate) both play crucial roles in energy storage and transfer in cellular function. To answer the question, ATP is the molecule that holds more stored energy. ATP consists of an adenine, a ribose, and three phosphate groups. The energy in ATP is stored in the bonds between the phosphate groups. These bonds are considered high-energy because a lot of energy is required to form them and energy is released when they are broken.

When ATP is transformed into ADP (a process called hydrolysis), a phosphate group is released, and so is the energy previously stored in the bond. The energy released from the hydrolysis of ATP to ADP is used for various cellular activities. When the cell has excess energy, it is used to convert ADP back into ATP, storing the energy in the newly formed phosphate bond for later use.

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I believe the answer would be B-Humans live in all habitats where life exists.

I can conclude that the carbohydrates can not be stored in body in form of sugars like glucose, fructose, lactose etc.

It is important in determining whether injuries/death was an accident or purposeful, and if purposeful, who, how and why did someone do it. They determine the weapon through the ligature marks left, the shape, force and impact of the injury, the location of the injury, and by analysing any fragments and trace evidence left on the wound

This is true weather is the condition of the air around us

The correct answer is option A. The hormone erythropoeitin increases the production of red blood cells when oxygen levels are low.

Homeostasis means maintaining a steady state of a particular variable within the body of a living being. That variable may be anything like body temperature, gases like oxygen or carbon dioxide or a body fluid. The body of an organism has various mechanisms to maintain homeostasis. If a particular variable like oxygen in the body of  an organism is less than the normal amount then the body produces erythropoietin (EPO) hormone in the kidney which in turn increases the production of red blood cells. The red blood cells have hemoglobin which is responsible for transporting oxygen to the various tissues of the body. So, increased level of RBC implies increased oxygen supply. So, with the help of regulating mechanism the organism produced EPO which increased the level of RBCs in the blood resulting in excess oxygen supply. This is how an organism counters the lack of oxygen with the help of homeostasis.

Plants take in Carbon Dioxide during the process of photosynthesis.

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Plants make sugars in the presence of sunlight in a process called photosynthesis, and plants take in carbon dioxide ([tex]CO_2[/tex]) from the atmosphere for the process of photosynthesis as described in Option A.

During photosynthesis, plants use energy from sunlight to convert carbon dioxide and water into glucose and oxygen, and this process of photosynthesis can be divided into two main stages: the light-dependent reactions and the light-independent reactions. Light-dependent reactions take place in the thylakoid membranes of the chloroplasts and involve the absorption of light, but in light-independent reactions, carbon dioxide is fixed. Later, when carbon dioxide is fixed, glucose is also formed.

Hence, plants take in carbon dioxide ([tex]CO_2[/tex]) from the atmosphere for the process of photosynthesis as described in Option A.

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The question is incomplete, the complete question is below

Plants make sugars in the presence of sunlight in a process called photosynthesis. What form of carbon do the plants take in for this process?

A)Atmospheric carbon dioxide

B)no carbon dioxide is used

Unlike terrestrial planets whose composition is rocky, gas giants have a mostly gaseous composition, such as hydrogen and helium. They do have some rocky material, although this is most often found in the planet core. Terrestrial planets are generally relatively small while gas giants are instead very large. (Historical researcher, D. Vogt stated that the lightest gas giant in the solar system is fourteen times the mass of the heaviest terrestrial planet, Earth.)

Gas giants are different from terrestrial planets in terms of composition, size and mass, and atmosphere characteristics.

Gas giants differ from terrestrial planets in several key ways:

Therefore, gas giants differ from terrestrial planets by composition (mostly hydrogen and helium), lack of solid surfaces, and being significantly larger and more massive.

Answer:

amino acid

Explanation:

one amino acid is carried by each transfer RNA (tRNA) during translation of messenger RNA to protein.