A sample of a compound that contains only the elements C, H, and N is completely burned in O₂ to produce 44.0 g of CO₂, 45.0 g of H₂O, and some NO₂ . A possible empirical formula of the compound is ________.

Answer:

Hypothesis

Explanation:

This is a hypothesis. A hypothesis is simply a scientific guess to explain a particular phenomenon. It provides different approaches to which an observation can be verified and properly ascertained.

If we can deduce a pattern from a set of experimental data that we have but we have not explained why the observations occur, this is still within the phase of the scientific method called hypothesis.

Answer:

The correct answer will be-scientific law

Explanation:

The experiment is performed to test a tentative explanation or hypothesis which explains the process to a limited extent. The hypothesis when proved through repeated experiments gets transformed either in the scientific law or the scientific theory depending on the quantitative measurement.

The scientific law represents the description of any natural phenomenon by providing the mathematical expressions but it does not provide an explanation to the natural process as provided by the scientific theory.

Since the statement does not provide the explanation but only the description of the natural events therefore, a scientific law is the correct answer.

Explanation:

A chemical reaction equation that contains same number of atoms on both reactant and product side is known as a balanced chemical reaction equation.

For example, [tex]Na_{2}S(aq) + CdSO_{4}(aq) \rightarrow Na_{2}SO_{4}(aq) + CdS(s)[/tex]

Here, number of reactant molecules are as follows.

Na = 2

S = 2

Cd = 1

O = 4

Number of product molecules are as follows.

Na = 2

S = 2

Cd = 1

O = 4

As there are already equal number of atoms on both reactant and product side. Hence, the reaction equation is balanced.

Also, in this reaction both [tex]Na_{2}S[/tex] and [tex]CdSO_{4}[/tex] are present as aqueous solution. And, CdS is the precipitate that is formed as it is the insoluble solid that forms.

[tex]Na_{2}SO_{4}[/tex] is present in aqueous state.

Answer:

254

Explanation:

The caloric content of peanut butter, given the data from the bomb calorimetry experiment, is approximately 5.8 Cal/g.

The subject of the question is determining the caloric content of peanut butter in Cal/g using bomb calorimetry. You can do this by using the information provided on the temperature rise and the calorimeter's heat capacity. The heat absorbed by the calorimeter is calculated by multiplying the heat capacity of the calorimeter by the change in temperature.

In this case, the heat absorbed is 130 kJ/degrees C * (25.2 degrees C - 22.4 degrees C) = 364 kJ. To convert this value to Calories, we need to remember that 1 Calorie equals 4.184 kJ. Therefore, the caloric energy produced by the combustion of peanut butter is approximately 87 Cal.

Since the mass of the peanut butter is 15g, the caloric content of peanut butter is 87 Cal / 15 g gives approximately 5.8 Cal/g.

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The food caloric content of peanut butter can be calculated using bomb calorimetry. The calorimeter used in this experiment has a heat capacity of 130 kJ/°C, and the temperature change in the calorimeter is from 22.4 °C to 25.2 °C. The caloric content of peanut butter is determined to be 6.743 Cal/g.

The food caloric content of peanut butter can be calculated using the concept of bomb calorimetry. In this case, the mass of the peanut butter is 15g and it is combusted in a calorimeter with a heat capacity of 130 kJ/°C. The change in temperature of the calorimeter is from 22.4 °C to 25.2 °C.

To calculate the food caloric content, we can use the formula:

Caloric content = (Heat capacity of calorimeter × Change in temperature) / Mass of peanut butter

Substituting the given values:

Caloric content = (130 kJ/°C × (25.2 °C - 22.4 °C)) / 15g

Now, we can convert kJ to Cal using the conversion factor 1 kJ = 0.239 kcal:

Caloric content = (130 × 0.239 × (25.2 - 22.4)) / 15g

Simplifying the equation gives:

Caloric content = 6.743 Cal/g

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Answer:

5400 cans

Explanation:

First we convert the total weight, 1 ton, to grams:

[tex]1ton=1x10^{6}g[/tex]

Now we need to know the mass of aluminum:

[tex]m_{Al}=\frac{10^{6}*8.1}{100} =81000g[/tex]

Now we make the relation between the mass of aluminum in 1 ton of the earth's crust and the mass of aluminum per can:

[tex]n=\frac{81000g}{15g/can} =5400cans[/tex]

5,400 cans could be made from 1 ton of the Earth’s crust of aluminum.

We can calculate the number of cans by dividing the total mass of aluminum in earth's crust to the mass of aluminum in one can.

We know that relation between tons and gram is as follow:

1 ton = 10⁶ grams

Given % mass of aluminum = 8.1%

Now, the mass of aluminum in 1 ton can be calculated as:

mass = 8.1 × 10⁶ / 100 = 81,000 grams

Given mass of aluminum in one can = 15 grams

Therefore number of cans = 81,000 / 15 = 5,400

Hence, 5,400 cans can be made.

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Answer:

C

Explanation:

Answer:

The answer to your question is below

Explanation:

2.- 6

3.- Carbon

4.- These electrons can be share to obtain stability.

5.- Protons, electrons

6.- electron cloud

7.- I and III

8.- 1

9.- 8A

10.- 4

11.- F

12.- F

13.- F

14.- T

15.- T

16.- T

17.- T

18.- T (I can not read the question but I think is true)

Answer:

molar composition for liquid

xb= 0.24

xt=0.76

molar composition for vapor

yb=0.51

yt=0.49

Explanation:

For an ideal solution we can use the Raoult law.

Raoult law: in an ideal liquid solution, the vapor pressure for every component in the solution (partial pressure) is equal to the vapor pressure of every pure component multiple by its molar fraction.  

For toluene and benzene would be:

[tex]P_{B}=x_{B}*P_{B}^{o}[/tex]

[tex]P_{T}=x_{T}*P_{T}^{o}[/tex]

Where:

[tex]P_{B}[/tex] is partial pressure for benzene in the liquid  

[tex]x_{B}[/tex] is benzene molar fraction in the liquid  

[tex] P_{B}^{o}[/tex] vapor pressure for pure benzene.  

The total pressure in the solution is:

[tex]P= P_{T}+ P_{B}[/tex]

And  

[tex]1=x_{B}+x_{T}[/tex]

Working on the equation for total pressure we have:

[tex]P=x_{B}*P_{B}^{o} + x_{T}*P_{T}^{o}[/tex]

Since [tex]x_{T}=1-x_{B}[/tex]

[tex]P=x_{B}*P_{B}^{o} + (1-x_{B})*P_{T}^{o}[/tex]

We know P and both vapor pressures so we can clear [tex]x_{B}[/tex] from the equation.

[tex] x_{B}=\frac{P- P_{T}^{o}}{ P_{B}^{o} - P_{T}^{o}}[/tex]

[tex] x_{B}=\frac{35- 22}{75-22} = 0.24[/tex]

So  

[tex]x_{T}=1-0.24 = 0.76[/tex]

To get the mole fraction for the vapor we know that in the equilibrium:

[tex]P_{B}=y_{B}*P[/tex]

[tex]y_{T}=1-y_{B}[/tex]

So  

[tex]y_{B} =\frac{P_{B}}{P}=\frac{ x_{B}*P_{B}^{o}}{P}[/tex]

[tex] y_{B}=\frac{0.24*75}{35}=0.51[/tex]

[tex]y_{T}=1-0.51=0.49[/tex]

Something that we can see in these compositions is that the liquid is richer in the less volatile compound (toluene) and the vapor in the more volatile compound (benzene). If we take away this vapor from the solution, the solution is going to reach a new state of equilibrium, where more vapor will be produced. This vapor will have a higher molar fraction of the more volatile compound. If we do this a lot of times, we can get a vapor that is almost pure in the more volatile compound. This is principle used in the fractional distillation.

Answer:

Explanation:

Given parameters:

Volume of CO₂ = 24cm³

time taken for the reaction to complete = 8minutes.

Unknown:

rate of reaction

Soution

The reaction rate is a measure of speed of a chemical reaction. It is often calculated using the expression below:

    Reaction rate = [tex]\frac{change in concentration of reactant/product}{time taken}[/tex]

   Reaction rate = [tex]\frac{24}{8}[/tex] = 3cm³/min

In this reaction, 3cm³ of carbon dioxide were produced per minute

The study of chemicals and bonds is called chemistry. There are two types of elements and these are metals and nonmetals.

The correct answer 3Cm.

The data is given as follows:-

The reaction rate is a measure of the speed of a chemical reaction. It is often calculated using the expression below:

   Reaction rate = [tex]\frac{change\ in\ concentration}{time}[/tex]

  Reaction rate =[tex]\frac{24}{8}[/tex]  = 3cm³/min

Hence, In this reaction, 3cm³ of carbon dioxide were produced per minute

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Answer:

Th answer to your question is:

a)  3.5 x10⁻¹⁰ meters; 0.35 nm

b) 6857142.86 atoms

c) Volume = 2.06 x 10⁻²³ cm³

Explanation:

a) data

Uranium atoms = 3.5A°

meters

           1 A° ----------------  1 x 10 ⁻¹⁰ m

         3.5A° ---------------  x

 x = 3.5(1 x10⁻¹⁰)/ 1 = 3.5 x10⁻¹⁰ meters

          1 A° ------------------ 0.1 nm

        3.5 A° ---------------- 0.35 nm

b) 2.4 mm

Divide 2,40 mm / uranium diameter

But, first convert 3,5A° to mm   = 3.5 x 10⁻⁷ mm

# of uranium atoms = 2.4 / 3.5 x 10⁻⁷ = 6857142.86

c) volume in cubic cm

Convert 3.5A° to cm  = 3.5 x 10⁻⁸

Volume = 4/3 πr³ = (4/3) (3.14)(1.7 x10⁻⁸)³

Volume = 2.06 x 10⁻²³ cm³

a) The radius of a uranium atom is approximately 1.75 Å, which is equivalent to 17.5 nm. b) To span a distance of 2.40 mm, approximately 6.86 billion uranium atoms would be needed. c) The volume of a single uranium atom, assuming it is a sphere, is (4/3) * π * (1.75 [tex]Å)^3.[/tex]

a.) To find the radius of a uranium atom, we can divide the given diameter by 2. The formula to convert the radius from angstroms (Å) to meters (m) is:

(radius in m) = (diameter in m) / 2

Given that the diameter is 3.50 Å, we can calculate the radius:

(radius in m) = (3.50 Å / 2) = 1.75 Å

Next, to convert the radius from angstroms to nanometers (nm), we can use the conversion factor:

(radius in nm) = (radius in Å) * 10

Therefore, the radius of a uranium atom is 1.75 Å (in meters) and 17.5 nm (in nanometers).

b.) To find how many uranium atoms would be needed to span 2.40 mm, we can divide the distance by the diameter of a uranium atom:

Number of uranium atoms = (2.40 mm) / (diameter of a uranium atom)

To calculate this, we need to convert the diameter from angstroms to millimeters using the conversion factor:

1 mm = 10000000 Å

Therefore, the number of uranium atoms needed to span 2.40 mm is:

Number of uranium atoms = (2.40 mm) / (3.50 Å * (1 mm / 10000000 Å))

c.) To find the volume of a single uranium atom, assuming it is a sphere, we can use the formula for the volume of a sphere:

Volume = (4/3) * π * (radius)^3

Using the radius we calculated in part a, we can substitute the value into the formula and solve for the volume:

Volume = (4/3) * π * (1.75[tex]Å)^3[/tex]

Since the volume is given in cubic centimeters (cm³), we need to convert the unit of length from angstroms to centimeters:

1 Å = 1E-8 cm

Therefore, the volume of a single uranium atom is:

Volume = (4/3) * π * (1.75 Å * (1E-8 cm [tex]/ 1 Å))^3[/tex]

Once we calculate this volume, we will have the answer in cubic centimeters (cm³).

Answer:

hafnium atomic number 72

phosphorus atomic number 15

rhodium atomic number 45

osmium atomic number 76

magnesium atomic number 12

Explanation:

Answer:

D

Explanation:

Ketone is R-CO-R' Which is D

A is R-CHO

B is R-COO-R'

C is R-COOH

Answer : The correct option is, (D)

Explanation :

A ketone is an organic compound which contain a functional group with (-CO) i.e R-CO-R'

R-CO-R' functional group consists of a carbonyl center that means a carbon which is double-bonded to the oxygen. The carbon of this carbonyl group bonded with a carbon chain, (R) to one end and a carbon chain, (R') to another end.

For example : [tex]H_3C-CO-CH_3[/tex]

In the given options we conclude that, option D is a ketone.

Hence, the correct option is, (D)

Answer:

It is an example of a precipitation reaction. Soap contains the conjugate bases of fatty acids, and these anions (carboxylates of fatty acids) tend to form insoluble salts with magnesium and calcium cations.

Explanation:

Usual soaps are made by a reaction called saponification, in which triglycerides (which are the main components of animal and vegetal fats and oils) react with a strong base (like KOH or NaOH), breaking the triglyceride into three fatty acid conjugate bases (carboxylates) and a molecule of glycerol.

These fatty acid conjugate bases are formed by a long saturated carbon chain and an ionised tip (i attached the structure of a generic fatty acid carboxylate). These anions form very insoluble salts with Calcium of Magnesium cations, and thus a precipitate is formed, therefore the answer is B.

Final answer:

The formation of a ring in a bathtub due to the reaction of hard water with soap is an example of a precipitation reaction.

Explanation:

The formation of a ring in a bathtub due to the reaction of hard water with the solute anions in soap is an example of a precipitation reaction. Hard water, which contains Mg2+ and Ca2+ ions, reacts with the anions in soap to form insoluble salts. These salts precipitate and create a ring in the bathtub.

Answer:

protons in the atom.

Explanation:

The identity of an element relies on the number of protons in its atom. This is called the atomic number. The atomic number is the basis of the periodic table of elements. Modern periodic law states that "the properties of elements are a periodic function of their atomic number".

Atomic number of atoms do not change and they are convieniently used in identifying an atom.

Answer:

protons in the atom

Explanation:

Answer:

The correct option is: an increase in body temperature due to high fever

Explanation:

Denaturation of protein is a process by which the protein unfolds i.e. loses it's quaternary, tertiary, and the secondary structure when exposed to high temperature (above 41°C), change in pH or chemical denaturants. Denaturation of proteins leads to loss of activity.

The enzymes pancreatic proteases breaks down proteins by hydrolysis, thus leading to the denaturation of protein.

Since, generally fever does not increase the body temperature above 41°C. Therefore, it doesn't lead to denaturation of protein.

Final answer:

Digestion by pancreatic proteases does not cause protein denaturation; it results in protein hydrolysis, which is the breakdown of proteins into amino acids. Protein denaturation can be reversible unless caused by irreversible changes such as cooking an egg white. Other factors causing denaturation include high temperatures, acidic conditions, and changes in pH.

Explanation:

Protein denaturation occurs when the structure of a protein is altered, leading to a loss of function. Factors that can cause denaturation include high temperatures from cooking, the presence of hydrochloric acid, changes in blood pH, and an increase in body temperature due to fever.

However, digestion by pancreatic proteases does not cause protein denaturation; instead, these enzymes are designed to operate in the digestive system and facilitate the process of protein hydrolysis, breaking down proteins into their constituent amino acids without denaturing them.

Thus, all of the listed conditions can cause denaturation, except for the digestion by pancreatic proteases, which actually serves a different purpose in the body. Protein denaturation is a delicate process, often reversible if the denaturing agent is removed, allowing the protein to resume its function. Some proteins, like those in bacteria that survive in hot springs, are adapted to function at high temperatures and do not denature easily, unlike the albumin protein in egg white which denatures irreversibly when cooked.

Answer:

Explanation:

So, the formula for the compound should be:

[tex]XCl_{6}[/tex]

Now we assume that we have 1 mol of substance, so we can make calculations to know the molar mass of element X, as follows:

[tex]M_{Cl}=35.45g/mol\\[/tex]

So we have that 6 moles weight 212.7g, and we can make a rule of three to know the weight of compound X:

[tex]212.7g\rightarrow 86.9\%\\x\rightarrow 13.1\%\\\\x=\frac{212.7g*13.1}{86.9} =32.06g[/tex]

As we used 1 mol, we know that the molar mass is 32.06g/mol

So the element has a molar mass of 32.06 g/mol and an oxidation state of +6, with this information, we can assure that the element X is sulfur, so the compound is [tex]SCl_{6}[/tex]

Final answer:

To identify element X in a compound with chlorine, where X constitutes 13.10% of the compound's mass, and the atom ratio of X to Cl is 1:6, we calculate based on moles and percent composition, leading to the identification of phosphorus (P) as element X.

Explanation:

To find element X in a compound composed of element X and chlorine, where the compound is 13.10% X by mass, and each molecule of the compound contains six times as many chlorine atoms as X atoms, we can use the concept of percent composition and atomic weights. Assuming a 100 g sample, we can calculate that there are 13.10 g of element X and 86.90 g of chlorine. Given that the molar mass of chlorine (Cl) is approximately 35.45 g/mol, we can estimate the moles of chlorine and use the given ratio to find the moles and eventually, the molar mass of element X. If we assume that there is 1 mole of X and 6 moles of Cl in the molecule, we can calculate the molar mass of X using its percent composition and the total molar mass of chlorine present.

Step-by-step:

Answer:

The answer to your question is: letter D. 1.33 L

Explanation:

Data

V1 = 50 ml

C1 = 19.3

To solve this problem use the formula  C₁V₁ = C₂V₂

                            C2 = C1V1 / V2

C = concentration

V = volume

a) 1.15 L

                     C2 = (19.3)(50) / 1150

                      C2 = 0.84 M

b) No right answer

c) V2= 0.80 L

                     C2 = (19.3)(50) / 800

                     C2 = 1.2 M

d) V2 = 1.33 L

                        C2 = (19.3)(50) / 1330

                       C2 = 0.72 M

e) V2 = 350 ml

                         C2 = (19.3)(50) / 350

                         C2 = 2.75 M  

Answer: Two answers apply to physical change:

1-Condensation of Ethanol

2-Evaporation of Ethanol

Explanation:

Physical and Chemical changes are two very different types of change. However, both processes are possible because of the same thing: the investment of energy.

Physical change requires a lower investment of energy and this is the reason why these kind of changes can be reverted and the molecular structure of the matter does not change.

For example: I can easily change the state of water with fire or a fridge, and go from ice to liquid to vapor and back as many times I want. This is possible because I'm not giving enough energy to break or modify bonding forces inside the molecule of water, but enough energy to modify the interaction between two different molecules of water.

This is why Ethanol can be evaporated and then condensated into liquid again, representing this physical changes.

Chemical change, on the other hand, requires a higher investment of energy and because of this is that the bonds between atoms inside a molecule can be affected (bonds between atoms in the molecule are stronger). Therefore, when the molecules themselves are modified, the matter is transformed from a compound into a new one. This is why glucose becomes carbon dioxide, ethanol or carbon. These three compounds appear when the bonds between Carbons in the glucose are broken.

Answer: Condensation, then freezing is the correct option.

Explanation:

Condensation is defined as the process in which vapor state of a substance changes into liquid state.

Vaporization is defined as the process in which liquid state of a substance changes into vapor state.

Freezing is defined as the process in which liquid state of a substance changes into solid state.

Sublimation is defined as the process in which a solid changes directly into vapor state without undergoing liquid state.

In a solid, particles are arranged in a crystal lattice as they are held together by strong intermolecular forces of attraction due to which these molecules are unable to move from their mean position.

So, in the given situation when the particles move more slowly and run into each other more often. They eventually form a lattice structure, only slightly moving. Then it means substance has first changed into liquid state and then finally it became a solid.

Thus, we can conclude that this process is called condensation, then freezing.

Answer:

The solutions in order of decreasing concentration:

(IV) > (II) > (III) > (I)  = (V)

Explanation:

1) 200 mL of 1.50 M NaCl solution  - (I)

Concentration of NaCl is given , [NaCl]= 1.50 M

2) 100 mL of 3.00 M NaCl solution  - (II)

Concentration of NaCl is given , [NaCl]= 3.00 M

3) 150 mL of solution containing 19.5 g of NaCl  - (III)

Moles of NaCl = [tex]\frac{19.5 g}{58.5 g/mol}= 0.3333 mol[/tex]

Volume of solution = 150 mL = 0.150 (1L = 1000 mL)

[tex][NaCl]=\frac{0.3333 mol}{0.150 L}=2.222 M[/tex]

4) 100 mL of solution containing 19.5 g of NaCl  - (IV)

Moles of NaCl = [tex]\frac{19.5 g}{58.5 g/mol}= 0.3333 mol[/tex]

Volume of solution = 100 mL = 0.100 (1L = 1000 mL)

[tex][NaCl]=\frac{0.3333 mol}{0.100 L}=3.333 M[/tex]

5) 300 mL of solution containing 0.450 mol NaCl - (V)

Moles of NaCl = 0.450 mol

Volume of solution = 300 mL = 0.300 (1L = 1000 mL)

[tex][NaCl]=\frac{0.450 mol}{0.300 L}=1.50 M[/tex]

The solutions in order of decreasing concentration:

(IV) > (II) > (III) > (I)  = (V)

We have 5 beakers with different solutions of NaCl. The order of the solutions in order of decreasing concentration is: 4, 2, 3, 1 = 5.

We have 5 beakers with different solutions of NaCl. To compare their concentrations, we will calculate the molarity of each solution.

The molarity of the solution is 1.50 M.

The molarity of the solution is 3.00 M.

We will use the following expression.

[tex]M = \frac{mass\ solute }{molar\ mass\ solute \times liters\ solution} = \frac{19.5g}{58.44g/mol \times 0.150L} = 2.22 M[/tex]

We will use the following expression.

[tex]M = \frac{mass\ solute }{molar\ mass\ solute \times liters\ solution} = \frac{19.5g}{58.44g/mol \times 0.100L} = 3.34 M[/tex]

We will use the following expression.

[tex]M = \frac{moles\ solute }{liters\ solution } = \frac{0.450mol}{0.300L} = 1.50M[/tex]

The order of the solutions in order of decreasing concentration is:

4, 2, 3, 1  = 5

We have 5 beakers with different solutions of NaCl. The order of the solutions in order of decreasing concentration is: 4, 2, 3, 1 = 5.

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Answer:

the answer is D

Explanation:

:0)

All of these elements have unstable electron shells ,

So, option D is correct

The atom in which outermost shell which is called valence shell is incomplete is consider as unstable electron configuration atom or element.

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Answer:

Explanation:

Given parameters:

Mass of CS₂ = 0.15g

Volume of O₂ = 285mL

Condition of reaction = at standard temperature and pressure.

Solution:

 Balanced reaction equation is shown below:

                CS₂ + 3O₂ → CO₂ + 2SO₂

For gases at standard temperature and pressure(STP);

     number of moles = [tex]\frac{volume occupied}{22.4}[/tex]

To find the final mixture of the gases at STP, we must identify the limiting reactant here first. The limiting reactant determines the extent of the reaction since it is the one used up.

    Number of moles of CS₂ = [tex]\frac{mass}{molar mass}[/tex]

     molar mass of CS₂ = 12 + (2 x 32) = 76g/mol

    Number of moles of CS₂ = [tex]\frac{0.15}{76}[/tex] = 0.00197mole

Number of moles of O₂ =  [tex]\frac{volume occupied}{22.4}[/tex]

   converting mL to dm³;

     1000mL = 1dm³

       285mL = 0.285dm³

Number of moles of O₂ =  [tex]\frac{0.285}{22.4}[/tex] = 0.01272mole

From the reaction equation:

       1 mole of CS₂ reacted with 3 moles of O₂;

  0.00197 mole of CS₂ will require 3 x 0.00197; 0.00591mole to react with;

We see that we have more than enough O₂. CS₂ is the limiting reagent.

Number of moles of excess O₂ =  0.01272 - 0.00591 = 0.00681moles

Now, we use the information of the limiting reagent to determine the product,

  1 mole of CS₂ will produce 1 mole of CO₂;

   0.00197 mole of CS₂  will produce 0.00197 mole of CO₂

 1 mole of CS₂ will produce 2 mole of SO₂

  0.00197mole of CS₂ will produce 2 x 0.00197; 0.00394mole of SO₂

The moles of the final mixture will = number of moles of excess O₂ + number of moles of CO₂ + number of moles of SO₂ =      0.00681+0.00197+0.00394

  = 0.01272moles

Volume of the final mixture = number of moles  x 22.4 = 0.01272 x 22.4

 Volume of final mixture = 0.2849dm³ or 284.9mL

Answer:

the answer is the option "a"

Explanation:

in petroleum polycyclic aromatic hydrocarbons are found. These organic compounds are composed of aromatic rings. PAH (Polycyclic Aromatic Hydrocarbons), are formed during the incomplete combustion of any type of organic matter. In general, exposure will be to a mixture of PAHs.

Answer:

A

Explanation:

The formula used is

PV = P1 * V1

P = x

P1 = 4x

V1 = 1

V2 = ?

x * 1 = 4x * V2          Divide both sides by x

x/x = 4x /x * V2

1 = 4*V2                   Divide by 4

1/4 = 4*V2/4

1/4 = V2

The answer is A

Final answer:

According to Boyle's Law, at constant temperature, if the pressure of a gas is increased by a factor of 4, the volume decreases by a factor of 1/4.

Explanation:

The question is related to the behavior of gases under varying conditions of pressure and volume at constant temperature, described mathematically by Boyle's Law. Boyle's Law states that at constant temperature, the pressure of a gas is inversely proportional to its volume. Therefore, when the pressure of a gas at constant temperature is increased by a factor of 4, the volume must decrease by that inverse factor. Consequently, the volume would change by a factor of 1/4, making the correct answer A (1/4).

Answer:

plain flooding, river blockage, sediment deposition, bog formation, solid ground

Explanation:

Answer:

plain flooding, river blockage, sediment deposition, bog formation, solid ground

Explanation:

hope it helps

There is 35.14 kg of carbon dioxide is produced upon the complete combustion of 18.9 L of propane.

Given that;

The density of the liquid propane in the tank is 0.621 g/mL.

Now write the balanced equation for the combustion of propane (C₃H₈):

C₃H₈ + 5O₂ → 3CO₂ + 4H₂O

According to the balanced equation, one mole of propane (C₃H₈) produces three moles of carbon dioxide (CO₂) upon complete combustion.

Given:

Volume of propane = 18.9 L

Density of liquid propane = 0.621 g/mL

First, let's determine the mass of propane (C₃H₈) using its density:

Mass of propane = Volume of propane × Density of liquid propane

Moles of propane = (18.9 L × 1000 mL/L × 0.621 g/mL) / 44.10 g/mol

Moles of propane ≈ 266.14 mol

Moles of carbon dioxide = Moles of propane (3 moles CO₂ / 1 mole C₃H₈)

Moles of carbon dioxide ≈ 266.14 mol (3 mol CO₂ / 1 mol C₃H₈)

Moles of carbon dioxide ≈ 798.42 mol

Now, let's calculate the mass of carbon dioxide:

Mass of carbon dioxide = Moles of carbon dioxide × Molar mass of carbon dioxide

The molar mass of carbon dioxide = 44.01 g/mol

Mass of carbon dioxide ≈ 798.42 mol × 44.01 g/mol

Mass of carbon dioxide ≈ 35,138.5 g

Since the mass is in kilograms, convert grams to kilograms:

Mass of carbon dioxide ≈ 35,138.5 g / 1000

Mass of carbon dioxide ≈ 35.14 kg

Therefore, approximately 35.14 kg of carbon dioxide is produced upon the complete combustion of 18.9 L of propane.

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The balanced equation for combustion of propane is used to determine the stoichiometric relationship between propane and carbon dioxide. Using the given density, the volume of propane is converted to moles and then to grams of CO2. Finally, grams of CO2 are converted to kg to answer the question.

The subject of this question is the combustion reaction of propane. The balanced equation for the combustion of propane (C3H8) is that propane reacts with oxygen (O2) to produce carbon dioxide (CO2) and water (H2O), in a 3:1 ratio of CO2 to C3H8.

Therefore, the formula is: C3H8 + 5O2 -> 3CO2 + 4H2O

To determine the amount of carbon dioxide produced, we need to start by converting the volume of liquid propane to moles using the given density and the molar mass of propane (44.1 g/mol). Then, use the stoichiometric relationship from the balanced equation to convert from moles of propane to moles of carbon dioxide. Finally, convert the moles of CO2 to grams (and then to kg) using the molar mass of CO2 (44.01 g/mol).

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Explanation:

the process where the acids and bases neutralize each other to form salt and water is known as neutrilazation