The freezing point and the boiling point of water can be altered by a variety of
techniques.

Which of the following has little or no effect on the boiling point of water?

a. Increasing the air pressure above the liquid
b. Adding alcohol to the water
c. Adding sodium chloride to the water
d. Increasing the amount of water

Answer:

It's a.

Explanation:

The reaction will proceed at an increasing rate.

The effect that does super critical mass have on a nuclear reaction, the reaction to have on a nuclear reaction, the reaction rate increases. The correct option is a.

Nuclear reaction is the reaction in which two nuclei are combined to form nuclides or one nuclei combine with a subatomic particle to form nuclides.

There are four types of nuclear reaction, fission, fusion, decay and transmutation.

Thus, the correct option is a, the reaction rate increases.

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Answer: its A

Explanation:

Answer: Option A

Explanation:

One gene one enzyme hypothesis was proposed by George Wells Beadle in which he stated that one gene directly affects the production of the  single enzyme.

This consequently affects the individual step in the whole metabolic pathway.  

So, a mutation in the single gene will lead to the production of the faulty protein. The step of the metabolism will be affected in which the faulty enzyme will participate.

The answers would be 3 and 2 so the subscripts would both equal 6.

Answer: [tex]3O_2(g)\rightarrow 2O_3(g)[/tex]

Explanation:

According to the law of conservation of mass, mass can neither be created nor be destroyed. Thus the mass of products has to be equal to the mass of reactants. The number of atoms of each element has to be same on reactant and product side. Thus chemical equations are balanced.

The balanced chemical equation for the given reaction will be:

[tex]3O_2(g)\rightarrow 2O_3(g)[/tex]

where the (g) stands for the state of reactants and products which is gaseous.

Answer:

The correct answer is option C

Explanation:

Pure water at 25°C self-ionizes to form an equilibrium in which. Option C is correct. This is further explained below.

Generally, ionization is simply defined as any process that turns electrically neutral atoms or molecules into electrically charged ones.

In conclusion, At 25°C, pure water self-ionizes to establish an equilibrium in which

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Answer: There are 8 hydrogen atoms on the product side in the reaction.

Explanation:

Every balanced chemical equation follows law of conservation of mass.

This law states that mass can neither be created nor be destroyed but it can only be transformed from one form to another form. This law also states that total number of individual atoms on the reactant side must be equal to the total number of individual atoms on the product side.

For the given reaction, the balance chemical equation follows:

[tex]PCl_5+4H_2O\rightarrow H_3PO_4+5HCl[/tex]

On reactant side:

Number of Phosphorus atoms = 1

Number of Chlorine atoms = 5

Number of Hydrogen atoms = 8

Number of Oxygen atoms = 4

On Product side:

Number of Phosphorus atoms = 1

Number of Chlorine atoms = 5

Number of Hydrogen atoms = 8

Number of Oxygen atoms = 4

Hence, there are 8 hydrogen atoms on the product side in the reaction.

Answer: The correct option is 8 hydrogen atoms

Explanation:

I did the test and got it right

Answer: Electrons orbit the nucleus

Final answer:

In an atom, electrons are not found in the nucleus but in orbitals around it. These orbitals represent regions of high probability for the electron's location, and their shapes are determined by quantum mechanical wave functions.

Explanation:

The component of an atom that you would not expect to find in the nucleus but might be orbiting around it is the electron. Electrons are found in orbitals, which are regions in space surrounding the nucleus where they are likely to be located. Unlike the Bohr model's simple orbits, these areas are defined by mathematical equations from quantum mechanics, reflecting the dual wave-particle nature of electrons.

The structure of an atom includes a central nucleus, composed of protons and neutrons, which houses most of the atom's mass, with electrons distributed in the space surrounding the nucleus.

Answer:

a

Explanation:

Answer: Option (b) is the correct answer.

Explanation:

A balanced equation is defined as the equation where number of atoms of the reactant equal to the number of atoms of the product.

This also means that mass of the reactants is equal to the mass of products in a chemical equation.

For example, [tex]2Na + Cl_{2} \rightarrow 2NaCl[/tex]

Total mass of reactants = [tex][(2 \times 23) + (35 \times 2)] g/mol[/tex]

                                      = 116 g/mol

Total mass of products = [tex]2 \times (23 + 35)[/tex] g/mol

                                      =  116 g/mol

Hence, mass if conserved in a chemical reaction.

thus, we can conclude that a balanced chemical equation shows the proportions of reactants and products necessary for mass to be conserved.

Answer:

D. 2NH₃(g) ⟶ N₂(g) + 3H₂(g)

Explanation:

A chemical equation must show the correct formulas for reactants and products.

A and B are wrong, because they have NH₃ as a product.

C is wrong. H₃ does not exist.

A is correct. The equation for the decomposition of ammonia is

2NH₃(g) ⟶ N₂(g) + 3H₂(g)

2NH₃(g) ⟶ N₂(g) + 3H₂(g) correctly represents the reaction that takes place when nitrogen gas and hydrogen gas are formed as ammonia decomposes. Hence, option D is correct.

A decomposition reaction occurs when one reactant breaks down into two or more products.

This can be represented by the general equation: AB → A + B.

Thus, 2NH₃(g) ⟶ N₂(g) + 3H₂(g) correctly represents the reaction that takes place when nitrogen gas and hydrogen gas are formed as ammonia decomposes.

Hence, option D is correct.

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Answer:

The right word to fill the blank space is GREATER THAN.

Explanation:

In nature, heat in form of temperature is usually transfer from the region of higher temperature to the region of lower temperature. Thus, for heat to be transfer from one substance to another one, the temperature will flow from the body with the higher temperature to that which has a lower temperature, the substance that is giving out the heat must have a higher temperature.  

Explanation:

When two substances of different temperature are in contact with each other then heat will flow from hot object to cold object until a thermal equilibrium is maintained between them.

Kinetic energy is the energy obtained due to the motion of an object is known as kinetic energy. Total kinetic energy of all the particles present in a system is known as average kinetic energy.

Thus, we can conclude that when two samples of carbon come into contact. Heat will transfer from Sample A to Sample B if the average kinetic energy of Sample A's atoms is greater than the average kinetic energy of Sample B's atoms.

Answer:

V₂ = 14.56 mL.

Explanation:

where, P is the pressure of the gas in atm.

V is the volume of the gas in L.

n is the no. of moles of the gas in mol.

R  is the general gas constant,

T is the temperature of the gas in K.

(P₁*V₁) / T₁ = (P₂ * V₂) / T₂

V₁  =  80.0 mL, P₁ = 0.20 atm, T₁ = 27  °C + 273 = 300 K.

V₂  =  ??? mL, P₂ (STP) = 1.0 atm, T₂ (STP) = 0 °C + 273  =  273 K.

Applying in the above equation

(P ₁* V₁) / T₁ = (P₂ * V₂) / T₂

(0.20 atm * 80.0 mL) / 300 K= (1.0 atm  * V₂) / 273 K

V₂ = (0.20 atm * 80.0 mL * 273 K) / (300 K * 1.0 atm)

V₂ = 14.56 mL

So, the answer is: V₂ = 14.56 mL.

The gas volume at STP will be approximately 14.56 mL, derived using the combined gas law.

To solve this problem, we need to use the combined gas law, which is expressed as:

(P1 * V1) / T1 = (P2 * V2) / T2

Given:

We need to find the final volume V2 at STP.

Rearranging the combined gas law to solve for V2:

V2 = (P1 * V1 * T2) / (P2 * T1)

Plugging in the values:

V2 = (0.200 atm * 80.0 mL * 273 K) / (1 atm * 300 K)

V2 = (4368 mL * K) / (300 K)

V2 ≈ 14.56 mL

Thus, the volume of the gas at STP is approximately 14.56 mL.

Answer:0.75 atm

Explanation: 0.75 atm is the pressure if the gas

Answer:

No, it is not balanced.

The balanced equation is: Zn(OH)₂ + 2NaOH → Na₂ZnO₂ + 2H₂O.

Explanation:

The no. of Na atoms in reactants side is 1 but in products side is 2.

The no. of H atoms in reactants side is 3 but in product side is 2.

So, the equation is not balanced.

Zn(OH)₂ + 2NaOH → Na₂ZnO₂ + 2H₂O.

Zn (1), O (4), H (4), and Na (2).

Answer:

The relationship of pH and concentration of H+ ion is pH = -lg[H+]. So the concentration of H+ is 10^(-2). And [OH-][H+]=10^(-14). pOH + pH = 14. So the right answer is A.

Answer:

i don't see the statement but value is 14

Explanation:

Answer: 372.5 g KCl

Explanation: balanced equation

2K + Cl2-------> 2KCl

2 mol K produce 2 mol Kcl

5 mol K produce = 5x2/2=5 mol Kcl

Then moles = mass/molar mass

Mass = moles x molar mass= 74.5x5=372.5 g Kcl

Elk Cloner: The program with a personality. It will get on all your disks. It will infiltrate your chips. Yes, it's Cloner! It will stick to you like glue. It will modify RAM to send in the Cloner.

Answer:

Elk cloner is a computer virus designed for Apple II. This virus spreads by infecting the disks of computer operating systems. Although this virus was not primarily programmed to cause damage, it could corrupt discs by overwriting reserved tracks regardless of content. If a computer is infected with this virus, at startup it will receive the following message:

Elk Cloner: The program with personality

You will get all your records

it will get into your chips

Yes, it is Cloner!

It will stick to you as glue

will also change your RAM

Pass it on, Elk Cloner!

Answer:

a. +6;

b. +5;

c. +3.

Explanation:

Start with elements with well-known oxidation states.

The oxidation state on oxygen O in compounds is mostly -2. Common exceptions include:

The oxidation state on group 1 metals (Li, Na, K, etc.) in compounds is mostly +1.

The oxidation state on group 2 metals (Be, Mg, Ca, etc.) in compounds is mostly +2.

Barium Ba is a group 2 metal. The oxidation state on Ba in the compound BaSO₄ is expected to be +2.

The oxidation state on hydrogen H in compounds is mostly +1. The oxidation state on H might be negative when it is bonded to metals.  

The oxidation state on halogens (F, Cl, Br, etc.) is mostly -1. The oxidation state may vary when the halogen is bonded to oxygen or another halogen element.

Compounds are neutral. The oxidation state on all atoms in a compound shall add up to 0. Both BaSO₄ and HClO₂ are neutral.

Oxidation states:

Let the oxidation state on S be x.

2 + x + 4 × (-2) = 0;

x = 6.

Hence, the oxidation state on S in BaSO₄ is +6.

Oxidation states:

Let the oxidation state on Cl be x.

Refer to the equation in BaSO₄ as an example. Try setting up the equation on your own.

x = 3.

Hence, the oxidation state on Cl is +3.

Ions carry charge. Oxidation states on atoms in an ion shall add up to the charge of the ion. The superscript of an ion shows its charge. The superscript 3- in the phosphate ion shows that the ion carries a charge of -3.

Oxidation states:

Let the oxidation state on P be x.

x + 4 × (-2) = -3;

x = 5.

Hence, the oxidation state on P is +5.

Answer:

the anwser is c

Explanation:

aerobic = air

anerobic= does not

Answer: Option (C) is the correct answer.

Explanation:

In a cell, when glucose breaks down by the use of oxygen and yields carbon dioxide, water along with release of energy is known as aerobic respiration.

For example, in the mitochondria aerobic respiration takes place.

On the other hand, in a cell when glucose breaks down without the use of oxygen then it yields alcohol, carbon dioxide along with release of energy is known as anaerobic respiration.

For example, yeasts respire anaerobically.

Therefore, we can conclude that the main difference between aerobic respiration and anaerobic respiration is that aerobic respiration requires oxygen, and anaerobic respiration does not.

Answer:

The correct answer from the choices, which are included in the comments section, is:

Explanation:

Let's go through every choice from the list:

A. Easier to understand:

Incorrect.

Quantum model is not quite easy to understand. On the contrary, it is complex and quite hard to understand.

John Dalton's model was the first scientific model of the atom. It depicted the atom as indivisible, extremely tiny particles that constitute all matter.

Many facts were discovered later: the atom is not indivisible, there are some subatomic particles (electrons, protons and neutrons), the electrons are not in fixed positions (orbits) that were progresively explained by new models: J.J Thomson's model, Ernest Rutherford's model, Niels Bohr's model, and, the last and current one, the quantum model/

So. it is not easier to understand but more complete.

b. is a more recent theory

Incorrect.

As said, John Dalton's theory was the first scientific theory of the atom. It was developed in the first half of XIX century. It is, definetly, no a more recent theory. Modern-day quantum model is the most recent theory of the atom.

C. Can be represented in two dimensions

Incorrect.

Modern-day quantum model represents the electrons in a 3-D arrangement around the atom's nucleus, like a "cloud" without definite size. Two dimensional representation is not a characteristic that defines how the modern-day quantum model of the atom is better than other models.

D. Answers many questions about atoms

Correct. Indeed, every model of the atom after John Dalton's model explains more facts about the atoms: J.J Thomson's explained that the negative charges are particles inside the atom (electrons); Ernest Rutherford's model explained the existence of the nucleus with protons, while the electrons are surrounding the atom; Bohrs model explained that the electrons cannot decay into the atoms' nuclei, because they can only have certain enery levels; and the modern-day quantum model explains much more facts than any previous one, specially about the behaviour of the subatomic particles.

To find how much calcium is contained in 40.0 g of calcium fluoride, calculate the moles of calcium fluoride and then determine the moles of calcium using its mass. 40.0 g of calcium fluoride contains 0.192 mol of calcium.

To calculate the amount of calcium in 40.0 g of calcium fluoride, we need to first determine the molar mass of calcium fluoride (CaF2), which is 78.08 g/mol. Next, we can calculate the moles of calcium fluoride in 40.0 g using the formula:

Moles = Mass / Molar mass = 40.0 g / 78.08 g/mol = 0.512 mol

Since the calcium fluoride contains 7.70 g of calcium, we can determine the moles of calcium using its molar mass (40.08 g/mol):

Moles of calcium = Mass of calcium / Molar mass of calcium = 7.70 g / 40.08 g/mol = 0.192 mol

Therefore, 40.0 g of calcium fluoride contains 0.192 mol of calcium.

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Number of your protons in an atom

The number of Protons

Answer:

The answer is urine (A)

Explanation:

The strong acid and strong base has high rate constant of dissociation. The rate constant for weak acid and base for the dissociation is low, they do not easily dissociate in water. Therefore, option A is the correct option.

Acid is a solution which releases H⁺ hydrogen ion when dissolved in water. Base releases hydroxide ion OH⁻ ion when dissolved in water.

pH is a measurement of amount of hydronium ion H₃O⁺ in a given sample. Strength of acidic nature is directly proportional to the concentration of hydronium ion.

On subtracting pH from 14, we get pOH which measures the concentration of hydroxide ion in a given solution. Temperature affect the pH. At room temperature pH scale is between 0 to 14. 7 is the pH of neutral solution. Urine among all the given option  would have the highest pOH level.

Therefore, option A is the correct option.

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Answer:

303 K

Explanation:

Converting 30 degrees Celsius to Kelvin temperature would come out to 303.15 ; it would not be any higher considering the decimal amount, so it would remain a positive 303 k. Hope this helps!

The Kelvin temperature for 30°C is 303k.

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Answer:

       This pH is 7.

Explanation:

Strong acids and strong bases ionize completely in aqueous solutions. The ionization of strong acids produce hydronium ions, H₃O⁺, and the ionization of strong bases produce hydroxide ions, OH⁻.

Since the ionization of strong acids and bases progress until completion, there is not reverse reaction.

The definition of pH is pH = - log [H₃O⁺]. Acids have low pH (below 7, and greater than 0) and bases have high pH (above 7 and less than 14). Neutral solutions have pH = 7.

Acid-base titrations are a method to determine the concentration of an acid from the known concentration of a base, or the concentraion of a base from the known concentration of an acid.

The equivalence point of the titration is the point at which the the number of moles of hydronium ions and hydroxide ions are equal.

Then, at that point, the hydronium and hydroxide ions will be in the stoichiometric proportion to form a neutral solution, i.e. the pH of the solution wiill be 7.

Not all titrations of a strong base with a strong acid have the same pH at the equivalence point. The pH value will be different when a weak acid is titrated with a strong base due to the presence of the weak conjugate base in the reaction mixture.

No, not all titrations of a strong base with a strong acid have the same pH at the equivalence point. For instance, the titration of 25.00 mL of 0.100 M HCl (a strong acid) with 0.100 M NaOH (a strong base) has a pH of 7.00 at the equivalence point. However, when a weak acid, such as acetic acid, is titrated with a strong base like NaOH, the pH at the equivalence point is 8.72, because the reaction mixture contains a weak conjugate base (acetate ion). The pH value at the equivalence point is dependent on whether the acid is strong or weak, and the presence of its conjugate base.

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Answer:

Explanation:

In a chemical reaction, as a result of the law of conservation of mass, reactants combine in fixed proportions to form the products.

Then, a chemical reaction is characterized by cuantitative relations between the atoms and compounds, which permit to make predictions on how much product can be obtained from certain amounts of reactants or how much of each reactant you would need to obtain a desired amount of product.

Stoichiometry is the use of the mole coefficients of a chemical equation to state ratios and set proportions, and, so, determine the number of moles or masses of reactants and products.

The calculation of quantities in chemical reactions is referred to as stoichiometry. It's about using a balanced chemical equation to figure out the quantitative relationships between the amounts of reactants and products. This process can be used in situations like quantitative chemical analysis.

The calculation of quantities in chemical reactions is referred to as stoichiometry. This means using a balanced chemical equation to determine the quantitative relationships between the quantities of reactants and products. In this process, chemical species' coefficients, derived from the balanced chemical equation, are used to provide the relative numbers, allowing a quantitative assessment of the relationships between the substances consumed and produced by the reaction.

Applying stoichiometry becomes particularly essential when dealing with more realistic situations, such as when reactants are not present in stoichiometric amounts. For instance, it is used in quantitative chemical analysis, such as titrations, where the volume of a titrant solution required to fully react with a sample solution is measured. This volume is subsequently used to calculate the concentration of analyte in the sample.

In other words, stoichiometry is the cornerstone of chemical calculations, providing a method to predict yields, determine reaction efficiencies, and understand the fundamental aspects of the reaction's reaction's stoichiometry. Quite simply, stoichiometry is a powerful tool that provides important insights into the world of chemistry.

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Answer:

Explanation:

A polar covalent bond is the result of uneven distribution of the electrons involved in the covalent bond.

The polar character of a covalent bond is determined by the difference in the electronegativities of the atoms bonded.

The higher the electronegativity difference of the two bonded atoms the more polar the covalent bond is.

Then, you need to find and compare the electronegativies of the atoms bonded.

This is the list of electronetativities of every atom in the question:

Using that list you can do these calculations:

Bond           Electronegativity difference

a) B–H          2.20 - 2.04 = 0.16

b) N–H         3.04 - 2.20 = 0.84

c) P–H          2.20 - 2.19 = 0.01

d) Al–H        2.20 - 1.61 = 0.59

e) C–H         2.55 - 2.20 = 0.35

Thus, the greatest electronegativity difference is that of N - H, 0.84, which indicates that this is the most polar bond from the choices.

The most polar bond among the given options is N-H.

The most polar bond among the given options is N–H.

The polarity of a bond is determined by the difference in electronegativity between the two atoms involved. Nitrogen (N) has a higher electronegativity compared to the other elements in the choices, and hydrogen (H) has a lower electronegativity. The greater the electronegativity difference, the more polar the bond.

For example, in a N–H bond, nitrogen attracts the shared electrons more strongly than hydrogen, resulting in a partial negative charge on nitrogen and a partial positive charge on hydrogen.

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Answer:

[tex]\boxed{\text{3.54 ng/L}}[/tex]

Explanation:

At equilibrium we have

[tex]\begin{array}{cccccc} &\text{Co}_{3}\text{(PO}_{4})_{2} & \rightleftharpoons &3\text{Co}^{2+}&+ & 2\text{PO}_{4}^{3-}\\\text{I:}& & & 0 & & 0.029\\\text{C:}& & & +3s & & 0.029 + 2s \\\text{E:}& & & 3s & &0.029+2s\\\end{array}[/tex]

[tex]K_{sp} = [\text{Co}^{2+}]^{3}[\text{PO}_{4}^{3-}]^{2}= 2.05\times10^{-35}\\\\(3s)^{3}\times (0.029 + 2s)^{2} = 2.05\times10^{-35}[/tex]

Assume that s ≪ 0.029. Then

[tex]27s^{3}\times (0.029)^{2} = 2.05\times10^{-35}\\\\2.27 \times 10^{-2}s^{3} = 2.05\times10^{-35}\\\\s^{3}= 9.028\times10^{-34}\\\\s = \sqrt[3]{9.028\times10^{-34}}= 9.665\times10^{-12}[/tex]

[tex]s = \dfrac{9.665\times10^{-12}\text{ mol}}{\text{1 L}}\times \dfrac{ \text{366.73 g} }{\text{1 mol}}\\\\ = 3.54\times 10^{-9} \text{g/L} = \text{ 3.54 ng/L}[/tex]

The solubility of cobalt(II) phosphate is [tex]\boxed{\textbf {3.54 ng/L}}[/tex].

The ideal gas law has the power to unravel any enigmatic gas law enigma. The captivating gas law intertwines the connections between pressure, volume, temperature, and the multitude of moles of gas.

It is conveyed through the equation PV = nRT, where P symbolizes pressure, V signifies volume, n represents the count of moles, R stands for the ideal gas constant, and T embodies temperature.

This equation empowers us to compute any of the four variables (pressure, volume, temperature, and number of moles) if we possess knowledge of the other three. It bestows a comprehensive framework for comprehending and prophesying the conduct of gases in diverse circumstances.

The spellbinding gas law can be employed to crack riddles concerning modifications in volume, pressure, or temperature of a gas, as well as enigmas involving the calculation of the number of moles of gas. It is an elemental instrument in the exploration of gases and is extensively applicable in domains such as chemistry, physics, and engineering.

In summary, the ideal gas law is an adaptable equation that encompasses the bonds between pressure, volume, temperature, and the multitude of moles of gas, rendering it the paramount preference for unraveling a vast array of gas law enigmas.

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Answer:

See below  

Explanation:

A. False. Alpha radiation is more damaging to the cell than beta radiation.

B. True. Beta radiation is less damaging, but it has greater penetrating power, so it can damage more cells.

C. True. Beta particles have greater penetrating power than alpha particles.

D. False. Beta particles are electrons. Alpha particles are much larger helium nuclei.

Answer:

False

True

True

False

Explanation:

Option A is False. Alpha radiation transfers more energy to the absorbing material than a beta particle. So alpha rays damage more cells than beta radiation.  

Option B is True. Beta cells are more penetrating than alpha cells, hence they wreck more havoc.  

Option C is True. Having smaller mass beta particles can travel farther, they penetrate through the skin and are absorbed by the body tissues. Alpha particles are heaver and don’t go past the skin cells.  

Option D is False. Beta particles are fast moving electrons with a negative charge where alpha particles are made up of two neutrons and two protons and so it is a +2 charged helium nucleus.  

D) mass of snake after feeding is equal to orginal mass of snake plus mouse since the mass is conserved

The law of conservation for the feeding of mice by snake by Dr. Martin states the mass of snake after feeding being equivalent to the mass of snake before plus the mass of mice. Hence, option D is correct.

The law of conservation is given as the state in which the quantity can neither be created nor  be destroyed.

The mass as the physical quantity in the chemical reaction founds to be conserved and not lost.

Thus, for the consumption of the mice by the snake according to the law of conservation stated by Dr. Martin, that the mass of snake after feeding mice will be the sum of the mass of snake before and the mass of mice. Thus, option D is correct.

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Answer:

0.744 mol

Explanation:

the balanced equation for the reaction is

8Fe + S₈ ---> 8FeS

molar ratio of Fe to S₈ is 8:1

number of moles of Fe - 55.0 g / 56 g/mol = 0.98 mol

number of moles of S - 23.8 g / 256 g/mol = 0.093 mol

if we are to assume that S₈ is the limiting reactant

if 1 mol of S₈ reacts with 8 mol of Fe

then 0.093 mol of S₈ reacts with - 8 x 0.093 mol = 0.744 mol of Fe

however there's 0.98 mol of Fe present but only 0.744 mol of Fe is needed

therefore Fe is in excess and S₈ is the limiting reagent

molar ratio of S₈ to FeS is 1:8

then 0.093 mol of S₈ reacts with - 8 x 0.093 = 0.744 mol of FeS

number of FeS moles produced is 0.744 mol

Answer:

0.74 moles iron (III) sulfide

Explanation:

From the balanced equation of reaction:

    [tex]Fe + S --> FeS[/tex]

1 mole of Fe reacts with 1 mole of S to give 1 mole of FeS.

moles = [tex]\frac{mass}{molar mass}[/tex]

mole of Fe = 55/55.8 = 0.99 moles

mole of S = 23.8/32.07 = 0.74 moles

Sulfur is limited in quantity and will therefore determine the rate of reaction.

1 mole of sulfur gives 1 mole of FeS

0.74 moles of sulfur will therefore give 0.74 moles of FeS.

0.74 moles iron (III) sulfide will be produced.