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Draw the atomic structure (nucleus and electron orbitals) for the following atoms and label the valence electrons in each sodium chlorine carbon

1.00029 is possibility of repeating unit of  polymers. In the given given figure, unit structures for the polymers.

P is probability of repeating unit.

Relation between weight average molecular weight Mw / number average molecular weight,  Mn =1+P

 Mw/Mn= 1+P

Degree of polymerization K = 1/ (1-P)

P = 1 + 1/K = 1 + 1/3420 = 1 + 0.00029 = 1.00029 is possibility of repeating unit of  polymers.

Hence, 1.00029 is possibility of repeating unit of  polymers.

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The following compounds in order of decreasing strength of intermolecular forces is as follows :

CH₃CH₂CH₂CH₂CH₂CH₃ > (CH₃)₃CCH₂CH₃ > (CH₃)₃CCH₃

1) The following compounds in order of decreasing strength of intermolecular forces is as follows : as the surface are decreases the intermolecular force decrease or as branching increases intermolecular forces decreases.

CH₃CH₂CH₂CH₂CH₂CH₃ > (CH₃)₃CCH₂CH₃ > (CH₃)₃CCH₃

2)  the compound CH₃CH₂CH₃ have the weaker van der wall forces and having the lowest boiling point.

3) the following substances in order of increasing vapor pressure at a given temperature is as follows :

SF₄  < SF₆   <  SiH₄  

SF₄ is the polar molecular and hs the lowest vapor pressure.

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The temperature of the reaction system will all increase the rate of a reaction.

Collision theory states that the rate of a chemical reaction is proportional to the number of collisions between reactant molecules. The more often reactant molecules collide, the more often they react with one another, and the faster the reaction rate.

Energetic collisions between molecules cause interatomic bonds to stretch and bend, temporarily weakening them so that they become more susceptible to cleavage. Distortion of the bonds can expose their associated electron clouds to interactions with other reactants that might lead to the formation of new bonds.

With an increase in temperature, there is an increase in the number of collisions. Increasing the concentration of a reactant increases the frequency of collisions between reactants and will, therefore, increase the reaction rate.

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Answer:

-be properly aligned to rearrange into the products

-be in contact with the other reactant rather than another molecule of itself

-have sufficient energy to overcome the activation energy of the reaction

Explanation:

Three criteria must be met for a collision to lead to a successful reaction. In general, the collision must be set up to allow the reactants to rearrange into the products. The direction of motion before the collision does not make a difference.

The first condition for a successful collision is that the collision must be between the two reactants, rather than a molecule colliding with another molecule of itself. A higher temperature will lead to more collisions between all molecules, but only collisions between the two reactants will result in a reaction occuring.

Second, the molecules must be lined up properly for the reaction to occur. For example, a molecule made up of two different elements needs to have the correct element collide with the other reactant molecule to be able to make the correct new bond.

Third, the molecules must have enough energy to overcome the activation energy necessary to make the bond rearrangements into products. A benefit of a higher temperature reaction, beyond the increased collisions, is that the molecules are more likely to have the energy needed to complete the reaction.

Answer:

2H² + 0² ---> 2H²O

Explanation:

Now there is 4 hydrogen atoms and 2 Oxygen atoms.

The pollutants which may be released into the environment during the production or incorrect disposal of batteries include the following:

A. SO₂

C. Toxic metals

D. CO₂

In Science, a pollutant can be defined as a harmful, poisonous and toxic chemical substance or chemical compound that is capable of causing physical degradation or contamination to the environment through emission such as the burning of coal, production of batteries, or incorrect disposal of batteries.

Generally speaking, some examples of the primary pollutants that are produced from the burning of coal and incorrect disposal of batteries include the following:

In conclusion, toxic metals are most likely to be released due to the incorrect disposal of batteries or even during its production.

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Complete Question:

Which of the following pollutants may be released into the environment during the production or incorrect disposal of batteries? Select all that apply.

SO₂

H₂O

Toxic metals

CO₂

FeO

The amino acid phenylalanine can be made in the laboratory. Ore NH3 reagents needed to make this molecule.

Phenylalanine is a crucial amino acid with the chemical formula C 9H 11NO 2. Its symbol is Phe or F.  Reagents like benzyl group in place of the methyl group in alanine or as a phenyl group in place of the terminal hydrogen. This significant amino acid is classified as neutral and nonpolar due to the inert and hydrophobic nature of the benzyl side chain. The L-isomer is used in the biochemical synthesis of DNA-coded proteins. Precursors of phenylalanine include tyrosine, the monoamine neurotransmitters dopamine, norepinephrine (noradrenaline), and epinephrine (adrenaline), as well as the skin pigment melanin. It is encoded by the codons UUU and UUC. Phenylalanine is a substance found in animal milk. It is used to make food and drink products and is marketed as a dietary supplement due to its analgesic and depressive qualities. It is a direct precursor to the neuromodulator dietary supplement phenethylamine. Because neither humans nor other animals can synthesize phenylalanine, it must be ingested or found in proteins, making it an essential amino acid.

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The chain of atoms that are joined together to form the essential structure of an organic substance is called the skeletal structure.

The following sentences provide crucial guidelines for depicting skeletal structures:

1) Each heteroatom and the hydrogen atoms that are chemically connected to it.

2) A carbon atom can be found at the end of any line or at the intersection of any two lines.

3) Each carbon has four bonds because there are enough hydrogen atoms surrounding it.

These three option are the correct statements to describe the important rule for the drawing skeletal structures to represents the important structure of the organic compound.

The position of the carbon and hydrogen atoms are indicated by lines in the skeletal structure, line formula, or abbreviated formula for organic compounds. The endpoints of the lines and their intersections, as well as the hydrogen atom deduced from the number of bonds exhibited between each other, illustrate where the carbon atoms are located in the skeletal structure.

Hetero-atoms are any atoms other than carbon and hydrogen. The only hydrogen atoms that must be present in skeletal structure are those that are physically connected to a hetro atom.

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Answer:

Explanation:

1+ 2+ 3+

copper(I), Cu+ cadmium, Cd2+ chromium(III), Cr3+

gold(I), Au+ chromium(II), Cr2+ cobalt(III), Co3+

mercury(I), Hg22+ cobalt(II), Co2+ gold(III), Au3+

silver, Ag+ copper(II), Cu2+ iron(III), Fe3+

Using 645 L /s of oxygen at 195 ° C and 0.88 atm will result in 0.355kg/s of NO.

First, we go through the equation for the conversion of NH3 to NO: 4NH3(g) + 5O2(g) ⟶4 NO(g) +6 H2O(l). (l)

Next, we compile the data that will be used in our computations.

645 L/s O2 Volume Rate

0.88 atm of pressure

Temperature is equal to 195°C plus 273°K.

NO has a molecular mass of 30.01 g/mol.

Third, using the basic gas equation PV =n RT, we must determine how many moles (n) are contained in 645L of O2 in order to compute the number of NO moles created by this amount of O2.Keep in mind that the constant R in this equation is 0.08205Lxatm/Kxmol.

PV =n RT

n= PV / RT

n= [0.08205 Lxatm/Kxmol] x 468K / [(0.08atm x 645L/s)]

n= 14.781 moles of oxygen per second.

Fourth, now that we know how many moles of O2 will be created, we can use the equation to determine how many moles of NO will also be produced. Finally, with the help of the molecular weight, we will be able to get the total mass per second.

14.781 moles of O2 x 4 moles of NO x 5 moles of O2 x 30.01g of NO x 1 mol of NO x 1 kg of NO /1000g of NO = 0.355 kg/s of NO

Complete question:

Nitric acid is a key industrial chemical, largely used to make fertilizers and explosives. The first step in its synthesis is the oxidation of ammonia. In this reaction, gaseous ammonia reacts with dioxygen gas to produce nitrogen monoxide gas and water. Suppose a chemical engineer studying a new catalyst for the oxidation of ammonia reaction finds that liters per second of dioxygen are consumed when the reaction is run at and . Calculate the rate at which nitrogen monoxide is being produced. Give your answer in kilograms per second. Round your answer to significant digits.

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Zn(s) = Zn2+ (aq) + is the half-reaction on the anode, where oxidation takes place (2e-). To create Zn2+, the zinc loses two electrons. Cu2+ (aq) + 2e- = Cu is the half-reaction on the cathode where reduction takes place.

Oxidation half reaction (anode) : Mg(s) → Mg²(aq) + 2e⁻

Reduction half reaction (cathode) : Cd²(aq) + 2e⁻ → Cd(s)

Thus the overall reaction will be,

Mg(s) + Cd²(aq) → Mg²(aq) + Cd(s)

Here is an illustration of a half cell reaction at the anode: Zn(s)→Zn2+(aq)+2e−. The zinc metal loses two electrons during the process, forming the Zn2+ ion. As a result of the loss of electrons, the anode's half-cell reaction is an oxidation half-reaction.

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Statement 1 and statement 4 are true about the volume and temperature relationship.

Boyle's law, an experimental gas law, illustrates the connection between a confined gas's pressure and volume. It claims that when the temperature of a mass of confined gases is constant, the product of pressure and volume is similarly constant.

By this law, the temperature and volume relationship is given by,

[tex]V \propto T[/tex] where V is volume and T is the temperature at constant pressure.

From this relationship, we can tell, when the temperature of the gas increases, it increases the volume also. This is because the volume of gas is directly proportional to its absolute temperature.

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Aldol condensation is a reaction that results in the formation of a carbon-carbon bond, an enol or enolate molecule, and an aldehyde or ketone.

Removing the alpha hydrogen, establishing fresh carbon and carbonyl bonds, and changing carbonyl groups into COH.

These reactions include an enol or enolate ion reacting with a carbonyl molecule to produce a -hydroxy aldehyde or -hydroxy ketone, which is then dehydrated to produce a conjugated enone. Let's talk more about cross aldol condensation, the aldol condensation process, and its mechanism.

Thus, the acetaldehyde enolate's nucleophilic addition to benzaldehyde produces the aldol product: We will discuss all the additional potential outcomes and specifics of the crossover aldol reaction.

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The increase in concentration of CO₂ will leads to form low pH of water because CO₂ is a acidic oxide. The temperature will also rising, this an organism that is experiencing an elevated carbon dioxide concentration most likely do.

The heat that is trapped aids in keeping the earth's temperature constant. However, the amount of heat trapped in the atmosphere will grow as CO₂ levels rise. Global warming is the process through which the earth's temperature rises as a result.

An immediate rise in CO₂ does not reduce respiratory oxygen consumption; rather, it increases with prolonged development in the field at increasing CO₂. Thus, the increase in concentration of CO₂ will leads to form low pH of water because CO₂ is a acidic oxide. The temperature will also rising, this an organism that is experiencing an elevated carbon dioxide concentration most likely do.

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The complete question is as follows:

A public good cannot be provided to one person without making it available to others as well.

A non-exclusive, non-rivalrous good is referred to as a public good. It cannot be given to just one person without also being made available to others. If one person uses it, it doesn't prevent others from doing so as well. Roads are an illustration of a public good.

Club goods and private goods are in opposition to public goods. An example of a public good is a club good. It is non-rivalrous but excludable. One example of a club good is paid streaming services. The service is not available to those who do not subscribe. However, each subscriber is equally valued by the service.

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The stoichiometry calculation involves the ratios of atoms within a compound, and ratios of substances in a chemical reaction.

The stoichiometry calculation involves the relationship between the product and the reactants in the chemical rection. stoichiometry is the measurement of the element. the steps follows the stoichiometry calculation is :

1) balance the chemical reaction.

2) convert the substance units to moles.

3) by using the moles ratio to calculate the yield of the substances in the reaction.

4) convert the moles of the needed elements to the required units.

The stoichiometry calculation is mostly based on the chemical formulas of the compound.

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Draw the organic product(s) of the following reactions including stereochemistry when it is appropriate. H₂ lindlar catalyst is given as :

CH₃-C≡C-CH₂-CH₂- CH₃ + H₂ Lindlar catalyst --> CH₃ - C=C - CH₂ -CH₂- CH₃

                                                                                            |   |

                                                                                            H H

The lindlar catalyst is used to hydrgenate the bond into the double bonds. H₂ + lindlar catalyst is used to reduce the alkynes which contains the triple bond in to the alkene which contains the double bond. the H₂ + lindlar catalyst doest noty react with the the alkenes.  the reaction of H₂ + lindlar catalyst is given as follows :

CH₃-C≡C-CH₂-CH₂- CH₃ + H₂Lindlar catalyst --> CH₃-C=C - CH₂ -CH₂- CH₃

2 - hexyne                                                                           |   |

                                                                                            H H

                                                                                           2 - hexene

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Amounts of absorbance have no units. Centimeters are used to measure path length. The unit of molar absorptivity is derived from these two as M⁻¹cm⁻¹.

Molar absorptivity is the characteristic that gauges how strongly a chemical species absorbs light of a specific wavelength. Beer-Lambert law links a light's attenuation to the features of the medium it travels through. This law is given as A = εcl where A is the absorbance, l is the path length in centimeters, c is molar concentration in M, and ε is molar absorptivity. From the above equation, we can find the unit of molar absorptivity as,

[tex]\begin{aligned}\epsilon&=\frac{A}{c\cdot l}\\&=\frac{\text{no unit}}{\text{M\;cm}}\\&=\mathrm{M^{-1}cm^{-1}}\end{aligned}[/tex]

Therefore, the required answer is M⁻¹cm⁻¹.

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Answer: Oxygen

Explanation: Oxygen is just an element, not a solution

True.

Polar substances have electronegativity differences while non polar substances do not have differences.

The analyze is:

N2F2 is polar. Because there are differences in the electro negativity values of the 2 elements. But the polarity depends on the type of isomer, the cis isomer form is polar because it has a dipole moment of 0.16 D. Meanwhile the trans isomer form is non polar because it doesn't have a dipole moment.

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Using complex-forming processes, complex metric titrations are primarily used to identify metal ions.

Although there are various complexing agents that can be utilized for this task (cyanide, thiocyanate, fluoride, 1,2-diaminoethane, etc.), in actuality the titrants are usually invariably compounds with the iminodiacetic acid functional groups. The sodium salt, Na₂H₂Y 2H₂O, and ethylenediaminetetraacetic acid are the two that are used the most frequently (better soluble in water).

Most requirements for a good complexometric titrant are mostly met by EDTA. It reacts quickly with most metal ions (except Cr₃⁺), forms sufficiently stable complexes with most metal ions, all of the complexes have perfect 1:1 stoichiometry (independent of the charge of the cation), are water soluble, and are colorless (unless the metal is present).

(unless the metal ion is colored by itself). A typical metal ion's reaction with EDTA (H₄Y) can be expressed as follows:

that is, as a battle between the metal ion and hydrogen ions for interacting with Y₂−. The equilibrium constant for the reaction, KMeY, which measures the stability of binding of Men + with Y₂ is as follows.

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None of them are true statements regarding beer's law. Limiting factors, including using only diluted liquids and monochromatic light, must be taken into account when applying legislation to any analysis.

The following is stated by Beer's law: The sample concentration and sample path length for a particular substance are directly related to the light absorbance.

You can see from the formula for absorbance that it depends on three things: the solution's molar absorptivity, the path length, or the distance traveled by light in the sample cell, and the solution's concentration.

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The reaction between cobalt (II) chloride and potassium hydroxide can be depicted as follows:

CoCl2(aq)+2KOH(aq)----> Ca(OH)2(s)+2KCl(aq)

A double displacement reaction is one that involves the exchange of ions and leads to the formation of new products. The products that are soluble in water are represented by the symbol (aq) and the ones that are insoluble in the water remain in the (s) or precipitate form along with the chemical formulas.

The double displacement reaction can be depicted as follows:

XY+AB--->AB+AY

The reaction between cobalt (II) chloride and potassium hydroxide can be depicted as follows:

CoCl2(aq)+2KOH(aq)----> Ca(OH)2(s)+2KCl(aq)

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Option (b). 22 g He have the greatest volume at STP because it has the lower molar mass.

1 mole of gas at STP will have volume 22.4L (for all gases)

Mole is defined as the amount of a substance that contains the number of carbon atoms in exactly 12 g of isotopically pure carbon-12 .  It allows determination of the number of molecules or atoms by weighing them.      

         number of moles = mass / molar mass 

mass is the same for all. if moles will be high then the volume will be high . the mole will be high only which have a lower molar mass . The molar mass is defined as the mass in grams of 1 mole of that substance. For an element, the molar mass is the mass of 1 mole of atoms of that element for a covalent molecular compound it is the mass of 1 mole of molecules of that compound. for an ionic compound, it is the mass of 1 mole of formula units. so in all, He has a lower molar mass. so it will have highest no of moles.

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Answer:

C

Explanation:

Based on the information provided, it is likely that the observation will be a purple layer below a colorless layer. Potassium manganate(VII) is a purple crystalline compound that is often used as a laboratory reagent. When it is placed in water, it will dissolve and form a purple solution. However, if the solution is left to stand for a period of time, the purple color will gradually fade and a colorless layer of liquid will form at the bottom of the container, with the purple crystal unchanged at the top. Therefore, the most likely observation in this experiment will be a purple layer below a colorless layer (Option C).

Answer:

Inner core, outer core, mantle, crust

Explanation:

A region of the vacuum that contains both uniform electric field and a uniform magnetic field is called electromagnetic radiation.

A region of the vacuum that contains uniform electric and magnetic field simultaneously is called an electromagnetic radiation or an Electromagnetic wave.

Wave does not recover any medium to travel because it is made up of electric and magnetic field which also do not require any medium to be in existence.

An Electromagnetic wave travels with the speed of light. The component of the electric field and the magnetic field contributes equally in sense of energy of the wave.

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Molality: This feature of solutions tells us how many moles there are in a kilogram of the solvent. It is a way of displaying any solution's concentration.

a. We have,

42.95 degrees Celsius is the freezing point of pure lauric acid.

Benzoic acid and Lauric acid have a freezing point of 47.27 C.

Cryoscopic constant =3.90∘C⋅kg⋅mol−1

We know,

Δt=kf×m

(47.279−42.950)=3.90×m

m=3.90/4.329

m=0.9mol/kg

b. We know,

Lauric acid weighs 8.02 x 10(-3) kg (w1)

Suppose there are n2 moles of benzoic acid, which means:

w2/M2=n2

Where, w2 is the solute's andmolar mass of solute.

Hence,

m=(w2/M2 × 1/w1)mol/kg

And the number of moles is given as,

n=m×w1

  =0.9×8.02×10^(-3)

  =0.0072mol

As a result, there are 0.0072 moles of benzoic acid solute.

c. The experimental molar mass of benzoic acid,

=(w2/n2) g/mol

=1.04/0.0072

=144 g/mol

d. The accepted molar mass of benzoic acid

(CH3COOH) will be,

=(7×12)+(6×1)+(2×16) g/mol

=122 g/mol

e. Following are the details of the difference between the experimental and acceptable value:

= experimental molar mass - accepted molar mass  × 10/ accepted molar mass

= 144-122 ×100/122

=18.08%

f. By repeating steps 1 to 3, the molar mass of the unknown solute will be,

Step 1: Calculation of molality

   Δt=kf×m

2.34=3.90×m

    m=0.6

Step 2: Calculation of the number of moles of an unknown solute

n2=7m×w

   =0.6×(8.04×10^(-2))

   =0.0482 mol

Step 3: Calculation of molar mass of unknown solute

M = w/n

  =    0.98/  0.0482

  =23.11

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Answer:

Explanation:

To calculate the value of the Ideal Gas Law Constant (R), we need to make some reasonable assumptions about the missing data.

First, let's assume that the atmospheric pressure is 1 atm. This is a reasonable assumption, as atmospheric pressure is typically close to 1 atm at sea level.

Next, we need to calculate the number of moles of gas produced by the reaction. We can do this by using the mass of potassium chlorate before and after the reaction. The initial mass of potassium chlorate was 191.3 mg, and the final mass was 52.9 mg. This means that 191.3 mg - 52.9 mg = 138.4 mg of potassium chlorate were converted into gas.

The molar mass of potassium chlorate is 122.55 g/mol, so 138.4 mg is equivalent to 138.4 mg / 122.55 g/mol = 1.13 x 10^-3 mol of potassium chlorate. Since the reaction produces two moles of gas for every mole of potassium chlorate, the total number of moles of gas produced by the reaction is 1.13 x 10^-3 mol x 2 = 2.27 x 10^-3 mol.

Finally, we need to calculate the volume of gas produced by the reaction. We can do this using the Ideal Gas Law, which states that the volume of a gas is equal to the number of moles of gas times the gas constant (R) divided by the pressure and temperature of the gas. Since we have already calculated the number of moles of gas and we have assumed the pressure to be 1 atm, we just need to calculate the temperature of the gas in Kelvin. The temperature of the gas in Celsius was 34.5 %€, so we can convert this to Kelvin by adding 273.15: 34.5 %€ + 273.15 = 307.65 K.

We also know that the volume of water displaced by the gas is 49.18 mL, and the height of the water column remaining is 5.8 cm. We can convert this to volume by using the formula for the volume of a cylinder: V = πr^2h, where V is the volume, r is the radius of the eudiometer, and h is the height of the water column remaining. Sincethe radius of the eudiometer is half the diameter, we can calculate the radius as 0.5 x 2.5 cm = 1.25 cm. Since the height of the water column remaining is 5.8 cm, the volume of the water displaced by the gas is π x 1.25^2 x 5.8 = 41.83 mL.

We can now use the Ideal Gas Law to calculate the volume of the gas produced by the reaction: V = nR/P * T = 2.27 x 10^-3 mol x 8.31 J/molK / 1 atm x 307.65 K = 0.721 L.

We can now use the Ideal Gas Law to calculate the value of R: R = PV/nT = 1 atm x 0.721 L / 2.27 x 10^-3 mol x 307.65 K = 8.31 J/molK.

Therefore, the value of the Ideal Gas Law Constant (R) is 8.31 J/molK.

In summary, to calculate the value of R, we made some reasonable assumptions about the missing data and used the Ideal Gas Law to calculate the volume of gas produced by the reaction. Using this information, we were able to calculate the value of R to be 8.31 J/molK.

Adenosine triphosphate (ATP) to give the remaining product of ATP hydrolysis diagram is [SEE in attachement]

It will be presumed that more KHP is present in the solution if additional NaOH is added. As a result, the % KHP will be higher than anticipated. If the concentration of NaOH is doubled, just half the volume from the initial experiment is needed. To titrate NaOH with KHP, add NaOH from the burette to a predetermined amount of KHP. The mass and volume of KHP utilized to create the KHP solution are used to calculate the molarity of the KHP solution. The molarity of the NaOH is then determined using the information from the titration.

Additionally, ATP hydrolysis generates energy for coupling processes. (When ATP is used in a reaction, it sends energy along with its third phosphate to the chemical process. By phosphorylating another molecule, it releases the energy. Additionally, ATP hydrolysis uses energy coupling to carry out work in cells.)

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