what technique is used in this investigation? group of answer choices colorimetry calorimetry gas pressure measurements titration combustion analysis

Organic molecules are those that contain carbon and often hydrogen atoms bonded together, and they are the building blocks of life.

Carbon is an element that is essential to life on Earth and is the central atom in organic compounds. It can form covalent bonds with other elements such as hydrogen, oxygen, nitrogen, and sulfur.

Carbon has the unique ability to form long chains of molecules, branched structures, and rings that are essential to the structure and function of organic molecules.

Organic molecules include carbohydrates, lipids, proteins, and nucleic acids. Carbohydrates are sugars and starches that provide energy to living organisms.

Lipids are fats and oils that are important for insulation and energy storage. Proteins are complex molecules that carry out many functions in the body, such as catalyzing chemical reactions and providing structure to cells.

Nucleic acids are DNA and RNA, which carry genetic information and are essential for the synthesis of proteins.

Oxygen is another element that is essential to life on Earth. It is often found in organic molecules, especially in carbohydrates and lipids.

Oxygen is important for respiration, the process by which living organisms use energy stored in organic molecules to carry out cellular processes.

In respiration, oxygen reacts with organic molecules such as glucose to produce carbon dioxide, water, and energy in the form of ATP.

Organic molecules contain carbon and often hydrogen atoms bonded together, and they are the building blocks of life.

Carbon has the unique ability to form long chains of molecules, branched structures, and rings that are essential to the structure and function of organic molecules.

Oxygen is another element that is often found in organic molecules and is important for respiration.

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The electron configuration of valence electrons of carbon before and after sp hybridization are shown below:Before hybridization: 2s2 2p2After hybridization: sp2 2p2The orbital diagram before sp hybridization shows two electrons in the 2s orbital and two electrons in each of the 2p orbitals. After hybridization, the 2s orbital mixes with one of the 2p

orbitals to form two sp hybrid orbitals. These sp hybrid orbitals are oriented at 180° to each other, which allows maximum overlap with two 2p orbitals of the carbon atom. The remaining 2p orbital remains unhybridized and

unchanged. Therefore, the hybridized orbitals contain only one electron each and the unhybridized 2p orbital has two electrons.The boxes with arrows in the orbital diagram represent the orbitals and their electrons. The label "2s" is

dragged to the box representing the 2s orbital before hybridization. Similarly, the labels "2p" and "sp" are dragged to the boxes representing the unhybridized and hybridized orbitals after hybridization, respectively. The label "2p" is also dragged to the unhybridized 2p orbital after hybridization.

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The equilibrium reaction for the formation of cobalt(II) complex when cobalt(II) chloride is dissolved in ethanol and then water is added is given by the following equation:

CoC₂l + 4 ethanol → Co(C₂H₅OH)₄Cl₂

When the cobalt(II) chloride is dissolved in ethanol, a cobalt(II) complex is formed. The complex is a tetrahedral molecule with four ethanol molecules attached to the cobalt ion. When water is added, it causes the equilibrium reaction to shifting to the right, with more of the cobalt(II) complex being formed. This is because the water molecules can displace the ethanol molecules from the complex, allowing the complex to form. The reaction can be expressed as:

CoC₂H₅OH)₄Cl₂ + 4 H₂O ↔ Co(H₂O)₄Cl₂ + 4 C₂H₅OH

In conclusion, the equilibrium reaction for the formation of cobalt(II) complex when cobalt(II) chloride is dissolved in ethanol and then water is added can be given as:

CoCl₂ + 4 ethanol → Co(C₂H₅OH)₄Cl₂ + 4 H₂O ↔ Co(H₂O)₄Cl₂ + 4 C₂H₅OH.

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The symbol for the oxygen isotope with 9 neutrons is O-16.

The atomic number of oxygen is 8, which means it has 8 protons. The mass number for oxygen-16 is 16, which refers to the total number of particles in the nucleus (8 protons + 8 neutrons). The element symbol for oxygen is O.

Isotopes are atoms that have the same number of protons but different numbers of neutrons.

Oxygen-16 has a total of 9 neutrons, meaning it has one more neutron than the most common isotope of oxygen (oxygen-15, with 8 neutrons).

Due to the difference in neutron numbers, the atomic mass of oxygen-16 is slightly larger than oxygen-15.

Atomic mass is the combined mass of all of the protons and neutrons in an atom's nucleus. In oxygen-16, the protons and neutrons have a combined mass of 16, hence the mass number of 16.

Oxygen-16 is an important isotope because it is present in significant amounts in the Earth's atmosphere and is used in numerous medical and scientific applications.

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According to the second law of Faraday, the oxidation number of gold ions is +3.

The second law of Faraday is also known as Faraday's law of electrolysis. According to this, the quantity of a substance that is deposited or released during electrolysis is directly proportional to the amount of electric charge that is transported through the electrolyte.

Given information,

Mass of silver (Ag) deposited = 0.732 g

Mass of gold (Au) deposited = 0.446 g

According to this law,

Weight of Ag/Equivalent weight of Ag = Weight of Au/Equivalent weight of Au

0.732/108 = 0.446/196.96 × valency

Since the equivalent weight of Ag is 108g and the equivalent weight of Au is 196.96g.

0.0067 = 0.0022  × valency

Valency = 0.0067/ 0.0022

Valency = 3

Therefore, the oxidation state of the gold ion (Au⁺³) is +3.

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In a cyclic voltammogram of an irreversible electrochemical reaction, only one peak is present (either anodic or cathodic) due to the limited reversibility of the reaction.

An irreversible reaction cannot be completely reversed so when the potential of the reaction is increased, the reaction will proceed in the same direction, leading to the formation of a single peak.

The peak represents the forward reaction, either the oxidation or reduction of the species in the reaction.

The magnitude of the peak depends on the rate of the forward reaction and the degree of reversibility of the reaction.

When the potential of the reaction is increased, the reaction will move further in the same direction, and the peak will become more prominent.

The peak will reach a maximum size when the reaction reaches its equilibrium potential, which occurs when the rate of the forward and reverse reactions are equal.

The magnitude of the peak also depends on the rate of diffusion of the species in the reaction. The peak will be smaller when the rate of diffusion is slow, and it will be larger when the rate of diffusion is fast.

The shape of the peak will depend on the degree of reversibility of the reaction, with more symmetrical peaks for reversible reactions and more asymmetrical peaks for irreversible reactions.

Only one peak is present in a cyclic voltammogram of an irreversible electrochemical reaction due to the limited reversibility of the reaction.

The magnitude of the peak is determined by the rate of the forward reaction, the rate of diffusion of the species, and the degree of reversibility of the reaction.

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Both elements must lose one or more electrons. In a binary ionic bond, one element donates one or more electrons to the other element, which accepts the electrons. So the correct option is B .

This results in one element becoming a cation (a positively charged ion) and the other element becoming an anion (a negatively charged ion). The attraction between the opposite charges holds the two ions together in a crystal lattice, forming an ionic bond.

For example, in the formation of sodium chloride (NaCl), sodium donates one electron to chlorine, which accepts the electron, forming Na+ and Cl- ions. The attraction between the Na+ and Cl- ions forms the ionic bond in NaCl.

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The reaction has reached its equivalence point once it is complete.

To determine if the reaction has reached its equivalence point once the reaction is complete, we must first calculate the moles of each compound:

HCl moles = 1.0 M x (10.0 mL / 1000 mL/L) = 0.01 mol

NaOH moles = 2.0 M x (5.0 mL / 1000 mL/L) = 0.01 mol

The two compounds react in a 1:1 ratio.

There are now no more moles of HCl or NaOH left to react since they have equal moles.

We can thus conclude that the reaction has reached its equivalence point as soon as the reaction is over. Since the moles of both HCl and NaOH have been completely neutralized, the pH at the equivalence point is 7.

This indicates that the reaction has reached its equivalence point once it has finished.

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The entropy change per mole of gas is -1.387R.

The entropy change per mole of gas in a process in which an ideal gas is compressed to one-fourth of its original volume at a constant temperature can be calculated as follows:

Let us denote the original volume as V₁, the final volume as V₂, and the number of moles of the gas as n. The entropy change can be calculated using the formula:

ΔS = nR ln (V₂/V₁)

Therefore, the entropy change per mole of gas is given by:

ΔSper mole = R ln (V₂/V₁)

In this case, V₁ = 4V₂ and so,

ΔSper mole = R ln (1/4) = - R ln 4 = -2.303 R log 4 = -1.387R

Thus, the entropy change per mole of gas when an ideal gas is compressed to one-fourth of its original volume at a constant temperature is -1.387R.

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The problem can be solved using Boyle's Law. The final pressure of the gas in the cylinder is 289.31 Pa.

Boyle's law is a gas law that describes the relationship between the pressure and volume of a gas at a constant temperature. Boyle's Law states that the pressure and volume of a gas are inversely proportional when temperature is held constant. Mathematically, it can be expressed as:

P₁V₁ = P₂V₂

where P₁ and V₁ are the initial pressure and volume, and P₂ and V₂ are the final pressure and volume.

We can plug in the given values to solve for the final pressure:

P₁ = 156 Pa

V₁ = 910 mL = 0.91 L

V₂ = 490 mL = 0.49 L

P₁V₁ = P₂V₂

156 Pa × 0.91 L = P₂ × 0.49 L

P₂ = (156 Pa × 0.91 L) / 0.49 L

P₂ = 289.31 Pa

Therefore, the final pressure is 289.31 Pa.

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The given statement "every atom in the universe emits energy in the form of a nucleus" is False.

In the universe, every atom does not emit energy in the form of a nucleus. It is not true in the case of every atom in the universe. But it is true that every atom in the universe emits energy.

According to the Bohr model of the atom, an electron orbiting an atomic nucleus emits radiation when it changes its energy level. The radiation emitted by the electron is in the form of a photon of electromagnetic energy. This is a spontaneous process and it is called spontaneous emission. It can be said that every atom in the universe emits energy.

Therefore, it is false that every atom in the universe emits energy in the form of a nucleus.

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(a) We would need 7 pies to serve a slice of pie with each cup of hot chocolate.

(b) There would be 6 slices of pie left over.

From item 6, we know that there are 50 cups of hot chocolate to be served.

Since each pie can be cut into 8 slices, we would need to serve 50/8 = 6.25 pies.

Since we cannot serve a fractional pie, we would need to round up to the next whole number of pies, which is 7.

To find out how many slices of pie would be left over, we need to calculate the total number of slices of pie and subtract the number of slices used to serve the hot chocolate.

Total number of slices of pie = 7 pies x 8 slices per pie = 56 slices

Number of slices used to serve the hot chocolate = 50 slices

Therefore, the number of slices of pie left over would be:

56 slices - 50 slices = 6 slices

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2.62 moles of glucose can react with 15.7 moles of oxygen. The balanced chemical equation for the combustion of glucose is:

C6H12O6 + 6O2 → 6CO2 + 6H2O

From the equation, we can see that for every mole of glucose that reacts, 6 moles of oxygen are required. Therefore, the number of moles of glucose that can react with 15.7 moles of oxygen can be calculated as follows:

Number of moles of glucose = (Number of moles of oxygen) / 6

Number of moles of glucose = 15.7 / 6

Number of moles of glucose = 2.62

Therefore, 2.62 moles of glucose can react with 15.7 moles of oxygen.

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4.83 x 10^24 atoms are there in 32.10 g of He.

To determine the number of atoms in 32.10 g of He, we first need to convert the mass to moles using the atomic mass of He, which is 4.003 g/mol.

number of moles of He = 32.10 g / 4.003 g/mol = 8.024 mol He

Next, we use Avogadro's number, which is 6.022 x 10^23 atoms/mol, to calculate the number of atoms in 8.024 mol of He:

8.024 mol He x 6.022 x 10^23 atoms/mol = 4.83 x 10^24 atoms

Therefore, there are approximately 4.83 x 10^24 atoms in 32.10 g of He.

Atoms are the fundamental matter units that comprise everything around us, from the air we breathe to the food we consume. They are made up of three different sorts of particles: protons, neutrons, and electrons.

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One molecule of this substance has the molecular formula CH₂ClO, which is methoxychloro. to ascertain how many oxygen atoms there are in 2 molecules of methoxychloro.

To create dioxygen, or oxygen, two oxygen atoms must make a covalent double bond with one another. Typically, oxygen exists as a molecule. It has the name dioxygen.

With an electrical configuration of (2, 6) and an atomic number of 8, oxygen lacks two more electrons to complete an octet. By exchanging two pairs of electrons with another oxygen atom, the oxygen atom becomes stable. A diatomic oxygen molecule is one that contains two oxygen atoms.

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The solution that has the highest vapor pressure is the one with the lowest boiling point. The lower the boiling point, the higher the vapor pressure.

Vapor pressure is the pressure exerted by the vapor of a substance in equilibrium with its liquid or solid phase. When the rate of evaporation and the rate of condensation is equal, equilibrium occurs. At a particular temperature, each liquid has a distinct vapor pressure that is directly proportional to its temperature. A liquid with a low boiling point has a higher vapor pressure than one with a high boiling point.

The glucose and sucrose solutions are both nonvolatile solutes, whereas potassium acetate is a volatile solute. As a result, the potassium acetate solution has a higher vapor pressure than either the glucose or sucrose solutions. The answer is option C.10.0 g of potassium acetate in 100.0 ml of water.

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The molarity of the solution prepared by mixing 100.0 ml of the solution made in number 3 with 900.0 ml of 0.0250 m NaCl is 0.1225 M.

We first calculate the moles of NaCl present in 900.0 ml of 0.0250 m NaCl solution.The formula to calculate the moles of solute is given as:

Moles of solute = molarity x volume (in liters)

So, the moles of NaCl in 900.0 ml of 0.0250 m NaCl solution would be:

Moles of NaCl = 0.0250 x (900.0/1000) = 0.0225 mol

Calculate the total volume of the mixed solution.The total volume of the mixed solution would be the sum of the volumes of the two solutions used in the mixing process.Total volume of mixed solution = 100.0 ml + 900.0 ml = 1000.0 ml or 1.0 L

Calculate the total number of moles of NaCl in the mixed solution.Total moles of NaCl in the mixed solution = moles of NaCl in 900.0 ml of 0.0250 m NaCl solution + moles of NaCl in 100.0 ml of the solution made in number 3

Total moles of NaCl in the mixed solution = 0.0225 mol + 0.100 mol = 0.1225 mol

Calculate the molarity of the mixed solution.The molarity of the mixed solution would be the number of moles of solute present in the solution per liter of solution.

Molarity of the mixed solution = Total moles of NaCl in the mixed solution / Total volume of the mixed solution

Molarity of the mixed solution = 0.1225 mol / 1.0 L = 0.1225 M

Therefore, the molarity of the solution prepared by mixing 100.0 ml of the solution made in number 3 with 900.0 ml of 0.0250 m NaCl is 0.1225 M.

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Chlorine (Cl) is a nonmetal, meaning it has the tendency to gain electrons to achieve the electron configuration of a noble gas. The noble gas electron configuration of the nearest noble gas, argon (Ar), is 1s2 2s2 2p6 3s2 3p6, with a total of 18 electrons.

Chlorine has 7 valence electrons, meaning it needs 1 more electron to achieve a stable noble gas electron configuration. Therefore, chlorine wants to gain 1 electron to achieve a stable noble gas configuration.

In terms of bonding, chlorine can either gain 1 electron to form an anion with a 1- charge or it can share electrons with another atom to form a covalent bond. Chlorine most commonly forms a single covalent bond with another atom, such as hydrogen, to form hydrogen chloride (HCl). In this case, both atoms share electrons to form a stable molecule.

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The most likely identity of the unknown gas that effuses taking 37s is Oxygen(O₂).

Since the unknown gas effuses out faster, it must be lighter than Xe.

The most likely identity of the unknown gas can be determined using Graham's Law of Diffusion. According to this, the time taken for effusion/diffusion of two different gases under identical conditions is directly proportional to the square roots of their densities or molecular masses. It is given as:

t₂/t₁ = √(M₂/M₁)

where t₂,t₁ are the times taken and M₂, M₁ are the molecular masses.

This ratio is determined by the ratio of the molecular weights of the unknown gas and the sample of Xe. The heavier the molecular weight, the slower the rate of effusion.

Rearranging and plugging in the values as t₂= 75s, t₁= 37s,  M₁= 131g (for Xe), we get M₂ as follows:

M₂= (37/75)² x 131 = 31.8 ≈ 32g

32g corresponds to the molecular weight of O₂ and it is lighter than Xe.

Therefore, the unknown gas that effuses out of the container faster than the sample of Xe, resulting in the unknown gas taking 37 seconds, and the sample of Xe taking 75 seconds is oxygen(O₂).

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Answer: The type of chemical formula that tells how many atoms of each element are in a molecule but does not indicate their arrangement is a molecular formula.

What is a molecular formula?

A molecular formula is a chemical formula that displays the exact number of atoms of each element in one molecule of a compound, but it does not reveal how the atoms are arranged in a molecule.

A molecular formula is a symbolic representation of a molecule’s elements and the number of atoms of each element present in one molecule of that substance.

A molecular formula provides information about the kinds of atoms present in a molecule and the number of each kind of atom present, but it does not provide information about the structure of the molecule.

In other words, a molecular formula only tells us the number of atoms of each element present in a molecule and not their arrangement.

What is a chemical formula?

A chemical formula is a method of expressing the structure of a molecule in a short, concise form. Chemical formulas depict the number of atoms of each element in a molecule using chemical symbols, numerals, and other chemical shorthand. Chemical formulas can be used to represent both ionic and covalent compounds.

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Phenolphthalein is a commonly used indicator in acid-base titrations because it changes color at a pH around 8.2-10.0.

Phenolphthalein itself is a weak acid and has a specific equilibrium between its acidic and basic forms. When added to an acidic solution, it is predominantly in the acidic form and colorless. As the titration progresses and the solution becomes more basic, the equilibrium shifts towards the basic form which is pink.

The amount of indicator used in the titration should be kept to a minimum to avoid affecting the accuracy of the results. Using too much indicator can affect the stoichiometry of the reaction, leading to inaccurate results.

Therefore, only a small amount of phenolphthalein, typically two drops, is used to minimize its impact on the titration while still providing a clear visual indication of the endpoint.

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It helps explain why there are 4 equivalent C-H bonds in CH4,It allows for a better representation of the arrangement of electrons in the molecule, and It helps explain why the dipole moment of the molecule is zero.

Hybridization is the process of combining two or more distinct entities to create a new, unique entity that has a combination of the characteristics of the original entities. It can be used to describe a wide range of phenomena, ranging from the breeding of plants and animals to the intermixing of different cultures.

In biology, hybridization is the process of combining the genetic material of two different species to create a hybrid organism.

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The molar mass of the unknown monoprotic organic acid is 180.0 g/mol. by titration. If 6.12 ml of the naoH solution is required to neutralize the sample.

In order to determine the molar mass of the unknown monoprotic organic acid, follow the steps given below:

Step 1:

Calculate the number of moles of NaOH used in the titration by using the formula given below:

n(NaOH) = M(NaOH) × V(NaOH)

= 0.157 mol/L × 0.00612 L

= 9.62 × 10^-4 mol

Step 2:

Calculate the number of moles of the acid used in the titration by using the formula given below:

n(acid) = n(NaOH)

= 9.62 × 10^-4 mol

Step 3:

Calculate the mass of the acid used in the titration by using the formula given below:

mass(acid) = n(acid) × M(acid) = 0.173 gM(acid) = mass(acid) / n(acid)

= 0.173 g / 9.62 × 10^-4 mol

= 180.0 g/mol

Therefore, the molar mass of the unknown monoprotic organic acid is 180.0 g/mol.

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It is important not to dilute the initial sample before loading it onto the chromatography column because this can negatively impact the separation and resolution of the components in the sample.

Dilution can lead to a decrease in the concentration of the components in the sample, which can result in poor separation and overlap of the peaks. Additionally, dilution can cause loss of the target compound or impurities in the sample due to adsorption onto the walls of the container used for dilution.

By keeping the sample concentrated and loading it directly onto the chromatography column, the chances of obtaining a clear separation and good resolution of the components in the sample are increased

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Answer:

Ra3P2

Explanation:

Ra is +2

P is -3

Ra3P2

Elements in the same group share similar chemical structures and electron configurations, which makes them react similarly to changes in temperature.

The melting point and boiling point of elements are both important indicators of an element’s chemical and physical properties.

Elements in the same group of the periodic table typically share similar melting and boiling points due to their similar chemical properties.

The melting point of an element is the temperature at which the solid phase of the element turns into a liquid. Similarly, the boiling point is the temperature at which the liquid phase of the element turns into a gas.

The melting and boiling points of elements in the same group tend to be very close, which indicates that the elements have similar physical and chemical properties.

This is because elements in the same group share similar chemical structures and electron configurations, which makes them react similarly to changes in temperature.

By understanding the melting and boiling points of elements in a group, scientists can more accurately predict the properties of the element in different phases of matter.

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In 1.2 x [tex]10^{24}[/tex] formula units of [tex]Li_{2} (SO)_{4}[/tex], there are roughly 1.993 moles of

[tex]Li_{2} (SO)_{4}[/tex].

Using Avogadro's number, or 6.022 x [tex]10^{23}[/tex] molecules/mol, we can calculate the number of moles of Li2SO4 in 1.2 x [tex]10^{24}[/tex]formula units.

First, we need to figure out how many moles of [tex]Li_{2} (SO)_{4}[/tex]  are needed to equal 1.2 x [tex]10^{24}[/tex]  formula units:

Formula units equal 6.022 x [tex]10^{23}[/tex] per mole of [tex]Li_{2}(SO)_{4}[/tex].

As a result, there are: 1.2 x [tex]10^{24}[/tex] moles of [tex]Li_{2}(SO)_{4}[/tex] in the formula units.

1.993 moles are equal to 1.2 x [tex]10^{24}[/tex] formula units / 6.022 x [tex]10^{23}[/tex] formula units/mol.

Hence, 1.2 × [tex]10^{24}[/tex] formula units of [tex]Li_{2} (SO)_{4}[/tex] contain about 1.993 moles.

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The species that should have the highest molar entropy at 298 K is CH4(g). The correct option is CH4.

Entropy is a measure of the amount of disorder or randomness in a system. In other words, it is a measure of the number of ways a system can be arranged while maintaining its energy state. It is represented by the symbol S.

The entropy of a pure crystalline substance is zero at absolute zero temperature because it has a well-defined, ordered, and rigid structure.

As temperature increases, the entropy of the substance increases because the molecules of the substance move more randomly and are distributed over a larger volume.

Entropy is highest for gases, followed by liquids and then solids. Molar entropy is a measure of the entropy of a substance per mole of the substance.

Molar entropy (S) is given by the equation:

S = ΔS/n

Where ΔS is the change in entropy and n is the number of moles of substance. At standard temperature and pressure, the molar entropy of a substance is represented by Sº.

The entropy of the given species at 298 K is as follows:

Thus, the species that should have the highest molar entropy at 298 K is CH4(g).

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The property that affects a substance's saturation temperature is Pressure.

Saturation temperature is the temperature at which a liquid and a gas have the same vapor pressure. The vapor pressure of a liquid is affected by temperature, and at the saturation temperature, the vapor pressure of the liquid equals the pressure of the surrounding atmosphere.

A substance's saturation temperature is influenced by several variables. Pressure is one of the variables that influences the saturation temperature of a substance. When the pressure surrounding a substance rises, its saturation temperature rises.

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(+61.3) is the specific rotation of pure (s)-carvone if a sample of (r)-carvone of 85% ee has a specific rotation of -52.

A chiral chemical compound's unique rotation is a characteristic in chemistry. It is described as the shift in monochromatic plane-polarized light's orientation, expressed as the product of distance and concentration, as the light passes through a sample of a substance dissolved in solution. Dextrorotary substances are those that spin a plane polarised light beam's polarisation plane clockwise, and they correlate to positive specific rotation values.

[α] = α / (c×l)

[α] =specific rotation

α = observed rotation

c=concentration in g/mL

l =path length in dm

[α] = (-52)/(1×1)

    = -52

(-52) = (0.85)×αr + (0.15)×αs

αs= (-52 - 0.85×αr) / 0.15

[α] = αs

    = (-52 - 0.85αr) / 0.15

(-52) = (0.85)(+112.0) + (0.15)α

α = (+61.3)

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