How many moles of o2 are needed to react with 12 moles of c2h6?2C2H6 + 702 — 4CO2 + 6H20

Answers

Answer 1

21 moles of O2 are needed to react with 12 moles of C2H6.

The balanced chemical equation for the combustion of ethane (C2H6) is:

2C2H6 + 7O2 -> 4CO2 + 6H2O.

From the balanced equation, we can see that for every 2 moles of C2H6 that react, 7 moles of O2 are needed.

Since you have 12 moles of C2H6, the number of moles of O2 needed for the reaction would be:

12 moles C2H6 / 2 moles C2H6/7 moles O2 = 12 moles C2H6 / 2/7 moles O2 = 12*7/2 = 42/2 = 21 moles O2.

Therefore, 21 moles of O2 are needed to react with 12 moles of C2H6.

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Related Questions

2Mg(s) + O2(9) 2MgO(s) How many grams of MgO are produced when 1.25 moles of Oz react completely with Mg? O 50.49 O 30.49 O 60.8 g O 101 g 0 201 g

Answers

The amount of MgO produced when 1.25 moles of O₂ react completely with Mg is 60.8 g.

Why does 1.25 moles of O2 reacting with Mg produce 60.8 g of MgO?

The balanced chemical equation shows that 2 moles of Mg react with 1 mole of O₂ to produce 2 moles of MgO. From the stoichiometry of the equation, we can calculate the number of moles of MgO produced by multiplying the number of moles of O₂ by the stoichiometric coefficient. Finally, using the molar mass of MgO, we can convert the moles of MgO to grams.

In this case, 1.25 moles of O₂ reacting with Mg will produce (1.25 mol O₂) * (2 mol MgO / 1 mol O) * (40.31 g MgO / 1 mol MgO) = 60.8 g MgO.

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The protein lysozyme has an isoelectric point of 11.0. Suppose you did a pH titration of a solution containing lysozyme. At what pH will the protein aggregate?

Answers

The protein lysozyme will likely aggregate when the pH of the solution is significantly away from its isoelectric point (pI) of 11.0. When the pH of the solution is either below or above the pI, the protein's charge will be different from its isoelectric charge, leading to reduced solubility and increased propensity for aggregation.

At a pH lower than the pI (acidic conditions), the lysozyme will carry a net positive charge due to the excess of protons, leading to electrostatic repulsion between protein molecules. This repulsion prevents aggregation. However, as the pH moves closer to the pI, the net charge decreases, reducing the repulsion forces and increasing the likelihood of aggregation.

Similarly, at a pH higher than the pI (alkaline conditions), the lysozyme will carry a net negative charge due to deprotonation. Again, the electrostatic repulsion between protein molecules prevents aggregation. But as the pH moves closer to the pI, the net charge decreases, diminishing repulsion and increasing the chances of aggregation.

Therefore, the pH at which lysozyme is most likely to aggregate will be around the isoelectric point of 11.0, where the net charge is close to zero.

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chlorine has two stable isotopes, and . calculate the binding energies per mole of nucleons of these two nuclei. the required masses (in g/mol) are = 1.00783, = 1.00867, = 34.96885, and = 36.96590.

Answers

The binding energy per mole of nucleons for chlorine-35 and chlorine-37 is 7.1178 x 10^12 J/mol and 7.0667 x 10^12 J/mol, respectively.

What are the binding energies per mole of nucleons for chlorine-35 and chlorine-37?

The binding energy per mole of nucleons can be calculated using the formula:

Binding energy per mole of nucleons = [Z(mp + me) + N(mn)]c^2 / A

where Z is the atomic number, N is the neutron number, mp is the mass of a proton, me is the mass of an electron, mn is the mass of a neutron, c is the speed of light, and A is the mass number (A = Z + N).

For chlorine-35, Z = 17, N = 18, A = 35, mp = 1.00783 g/mol, me = 0.00055 g/mol, and mn = 1.00867 g/mol. Substituting these values into the formula gives:

Binding energy per mole of nucleons for chlorine-35 = [17(1.00783 + 0.00055) + 18(1.00867)]c^2 / 35

= 7.1178 x 10^12 J/mol

For chlorine-37, Z = 17, N = 20, A = 37, and using the same values for mp, me, and mn, we get:

Binding energy per mole of nucleons for chlorine-37 = [17(1.00783 + 0.00055) + 20(1.00867)]c^2 / 37

= 7.0667 x 10^12 J/mol

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pump nitrate down to the u6 to so that metal reducing bacteria can reduce the uranium to u4 which is insoluble and unable to move though the groundwater

Answers

The process you're describing is known as in situ bioremediation. Essentially, it involves using naturally occurring microorganisms to break down contaminants in the environment. In this case, the goal is to reduce uranium contamination in groundwater.

To do this, the first step is to pump nitrate down to the U6 zone. This creates an environment where metal-reducing bacteria can thrive. These bacteria then work to convert the uranium to U4, which is insoluble and cannot move through the groundwater. This effectively removes the uranium from the water, reducing contamination levels.

It's worth noting that this process is not a quick fix and may take some time to be effective. Additionally, it requires careful monitoring to ensure that it is working properly and not causing any unintended environmental impacts. However, when done correctly, in situ bioremediation can be a powerful tool for reducing contamination and improving environmental health.

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using the table of bond energies, estimate h for the decomposition of aibn into two moles of radicals and one mole of n2. show which bonds are broken and which ones are made.

Answers

The bond energy table can be used to estimate the enthalpy change for the decomposition of AIBN into radicals and N₂. This involves breaking certain bonds and forming new ones, and the estimated enthalpy change is -480 kJ/mol.

To estimate the enthalpy change (ΔH) for the decomposition of AIBN into two moles of radicals and one mole of N₂, we need to calculate the sum of bond energies broken minus the sum of bond energies formed. The bond energies for the relevant bonds are:

C-N: 305 kJ/mol

C-C: 347 kJ/mol

N=N: 418 kJ/mol

C-N=N: 582 kJ/mol

The bonds broken are two C-N bonds and one N=N bond, with a total energy of 305 x 2 + 418 = 1028 kJ/mol. The bonds formed are four C-N bonds and one N-N bond, with a total energy of 305 x 4 + 418 = 1508 kJ/mol.

Therefore, the enthalpy change for the reaction is ΔH = energy of bonds broken - energy of bonds formed = -480 kJ/mol.

The negative sign indicates that the reaction is exothermic, and releases energy.

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The molar solubility of Mg(CN)2 is 1.4 x 10^-5 M at a certain temperature. Determine the value of Ksp for Mg(CN)2.
Based on the given values, fill in the ICE table to determine concentrations of all reactants and products. Mg(CN)2(s)= Mg²+(aq) + 2 CN-(aq)

Answers

We used the given molar solubility of Mg(CN)₂ to determine the concentrations of Mg²+ and CN- ions using an ICE table. We then used these concentrations to calculate the value of Ksp for Mg(CN)2 at the given temperature.

The ICE table for the reaction is:
Mg(CN)2(s) = Mg²+(aq) + 2 CN-(aq)
I            0             0                0
C          -x             +x              +2x
E         1.4x10⁻⁵      x               2x
Here, x is the concentration of Mg⁺² and 2x is the concentration of CN⁻.
The solubility product constant, Ksp, is defined as the product of the concentrations of the ions raised to their stoichiometric coefficients. Therefore, for the given reaction, we have:
Ksp = [Mg⁺²][CN⁻]²
Substituting the equilibrium concentrations from the ICE table, we get:
Ksp = (1.4x10⁻⁵)(2x)²
Simplifying the expression, we get:
Ksp = 5.6x10⁻¹¹
Therefore, the value of Ksp for Mg(CN)2 at the given temperature is 5.6x10⁻¹¹.

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a concentration cell is constructed of chromium electrodes at 25∘c, and the half cells contain concentrations of cr3 equal to 0.28 m and 1.77 m. what is the cell potential in volts?

Answers

In a concentration cell, the two half-cells are identical, except for the concentration of the electrolyte. The cell potential arises due to the concentration difference between the two half-cells. The cell potential can be calculated using the Nernst equation:

Ecell = E°cell - (RT/nF) ln Q

where Ecell is the cell potential, E°cell is the standard cell potential, R is the gas constant, T is the temperature in Kelvin, n is the number of electrons transferred in the balanced redox reaction, F is the Faraday constant, and Q is the reaction quotient.

In this case, the half-cell reactions are:

Cr3+(0.28 M) + 3e^- → Cr(s)

Cr3+(1.77 M) + 3e^- → Cr(s)

The overall cell reaction is:

Cr3+(1.77 M) → Cr3+(0.28 M)

The reaction quotient Q is the ratio of the concentrations of the products and reactants raised to their stoichiometric coefficients. Since the reaction involves only one species, Q is simply the concentration ratio of Cr3+:

Q = [Cr3+(0.28 M)] / [Cr3+(1.77 M)] = 0.158

The standard cell potential, E°cell, for this reaction is zero since both half-reactions involve the same species in the same oxidation state.

Substituting the given values and the calculated Q into the Nernst equation:

Ecell = 0 - (0.0257 V/K) ln 0.158 = 0.043 V

Therefore, the cell potential of the chromium concentration cell at 25°C is 0.043 V.

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Calculate the percent composition of Vitamin E (C29H50O2).

Answers

The percent composition of Vitamin E (C₂₉H₅₀ O₂) is:

Carbon: 80.81%

Hydrogen: 11.73%

Oxygen: 7.46%

Calculate the percent composition

To calculate the percent composition of Vitamin E (C₂₉ H₅₀ O₂), we need to find the total molar mass of the compound and the molar mass of each element present in it.

The molar mass of C29H50O2 can be calculated as:

(29 x 12.01 g/mol) + (50 x 1.01 g/mol) + (2 x 16.00 g/mol) = 430.72 g/mol

To calculate the percent composition of each element, we need to divide the molar mass of each element by the total molar mass and multiply by 100%.

The molar mass of carbon (C) inC₂₉ H₅₀ O₂ is:

29 x 12.01 g/mol = 348.29 g/mol

The percent composition of carbon is:

(348.29 g/mol / 430.72 g/mol) x 100% = 80.81%

The molar mass of hydrogen (H) in C₂₉ H₅₀ O₂ is:

50 x 1.01 g/mol = 50.50 g/mol

The percent composition of hydrogen is:

(50.50 g/mol / 430.72 g/mol) x 100% = 11.73%

The molar mass of oxygen (O) in C₂₉ H₅₀ O₂ is:

2 x 16.00 g/mol = 32.00 g/mol

The percent composition of oxygen is:

(32.00 g/mol / 430.72 g/mol) x 100% = 7.46%

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Calculate the approximate freezing point of the following aqueous solutions (assume complete dissociation for strong electrolytes): (b) 0.500 m C6H12O6

Answers

The approximate freezing point of the 0.500 m C6H12O6 aqueous solution is -0.93 °C.

The approximate freezing point of a 0.500 m C6H12O6 (glucose) aqueous solution can be calculated using the freezing point depression formula:.

ΔTf = Kf × m × i

Here, ΔTf represents the freezing point depression, Kf is the cryoscopic constant for water (1.86 °C/m), m is the molality of the solution (0.500 m), and i is the van't Hoff factor, which indicates the number of particles the solute dissociates into. Since glucose (C6H12O6) is a non-electrolyte and does not dissociate in water, i equals 1.

Using the given values, we can calculate the freezing point depression:

ΔTf = 1.86 °C/m × 0.500 m × 1

ΔTf = 0.93 °C

The normal freezing point of water is 0 °C. To find the new freezing point of the solution, subtract the freezing point depression from the normal freezing point:

New freezing point = 0 °C - 0.93 °C

New freezing point ≈ -0.93 °C

Therefore, the approximate freezing point of the 0.500 m C6H12O6 aqueous solution is -0.93 °C.

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.An atom of^85Ga has a mass of 84.957005 amu.
Calculate the mass defect (deficit) in amu/atom.
(value ± 0.001)
mass of^1H atom = 1.007825 amu
mass of a neutron = 1.008665 amu
An atom of 85Ga has a mass of 84.957005 amu.
Calculate the binding energy in MeV per atom.
mass of1H atom = 1.007825 amu
mass of a neutron = 1.008665 amu

Answers

The Mass defect of 85Ga is 14.375005 and the binding energy of an atom of 85Ga is approximately  148.781302 per atom.

1. Calculate the total mass of protons and neutrons in the nucleus:

- 85 Ga has 31 protons and 39 neutrons (39-31 = 8).

- Mass of protons: 31 ×1.007825 amu = 31.242 amu

- Mass of neutrons: 39× 1.008665 amu = 39.34 amu

- Total mass of protons and neutrons: 31.242 amu + 39.34 amu = 70.582 amu

2. Calculate the mass defect (difference between total mass and the actual mass of the atom):

- Mass defect: 84.957005 amu- 70.582 amu=14.375005

3. Convert the mass defect to energy using Einstein's mass-energy equivalence equation (E = mc²):

- 1 amu is approximately equivalent to 931.5 MeV.

- Binding energy:14.375005 amu × 931.5 MeV/amu ≈ 13390.3172 MeV

4. Calculate the binding energy per nucleon (atom):

- Binding energy per atom:13390.3172 MeV / 90 ≈ 148.781302 MeV

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for experiment 2, calculate the concentration of no remaining when exactly one-half of the original amount of h2 had been consumed.

Answers

The concentration of NO remaining when exactly one-half of the original amount of H₂ had been consumed is 0.0050 M.

What is the concentration of NO remaining?

Equation of reaction: 2 NO + 2 H₂ ---> N₂ + 2 H₂O

Experiment 2 data:

Initial concentration of NO = 0.006 M,

Initial concentration of H₂ = 0.002 M,

Initial rate = 3.6 * 10⁻⁴ L/(mol s)

From the equation of the reaction, 2 moles of NO reacts with 2 moles of H₂  to form the products.

The mole ratio of NO and H₂ is 1 : 1

One-half of the original amount of H₂ will 0.5 * 0.002 M = 0.001 M

Half of the original amount of H₂ has reacted with an equal amount of NO.

Hence, the amount of NO reacted = 0.001 M

The concentration of NO remaining = 0.0060 - 0.0010

The concentration of NO remaining = 0.0050 M

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which substances are chemically combined to form a compound

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Two or more elements can chemically combine to form a compound through a chemical reaction. The elements lose their individual properties and form a new substance with a unique set of physical and chemical properties.

In a compound, the constituent elements are held together by chemical bonds, which can be covalent, ionic, or metallic. Covalent compounds share electrons between atoms, while ionic compounds form through the transfer of electrons from one atom to another, resulting in positively and negatively charged ions that attract each other. Metallic compounds involve a sea of electrons shared between metal atoms. The composition of a compound is fixed and can only be separated by chemical means, as opposed to mixtures, which can be separated physically.

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based on periodic trends in electronegativity, arrange the bonds in order of increasing polarity.

Answers

The order of increasing polarity of the given bonds is: 2 (H-H) < 1 (C-H) < 3 (O-H) < 4 (F-H).

Electronegativity is the measure of an atom's ability to attract electrons towards itself in a covalent bond. The higher the electronegativity difference between two atoms, the more polar the bond.

In the given set of bonds, hydrogen is bonded to different elements (carbon, oxygen, and fluorine) and also to another hydrogen atom. Among these, the H-H bond has the least polarity as both atoms have the same electronegativity.

The C-H bond has a slightly higher polarity than H-H as carbon is more electronegative than hydrogen.

The O-H bond is more polar than C-H as oxygen is significantly more electronegative than carbon.

Finally, the F-H bond has the highest polarity as fluorine is the most electronegative element among those listed.

Thus, the order of increasing polarity is 2 (H-H) < 1 (C-H) < 3 (O-H) < 4 (F-H).

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Complete Question:

Based on periodic trends in electronegativity, arrange the bonds in order of increasing polarity. least polar 1 : C−H 2 iं H−H 3 # O−H 4 if F−H most polar

what is the net ionic equation for the reaction below?

Answers

The correct net ionic equation for the reaction;

Na₂SO₃(aq) + 2HBr(aq) → 2NaBr(aq) + H₂O(l) + SO₂ (g) is

SO₃²⁻(aq) + 2H⁺(aq)  → H₂O(l) + SO₂(g). Hence, option A is correct.

Ionic equations are the name given to chemical equations where electrolytes are represented as dissociated ions.

They are frequently employed to symbolize the displacement reactions that occur in aqueous media. Some ions engage in these processes, while others do not.

The total number of dissociated ions in a chemical reaction is shown by the entire ionic equation.

Thus, the correct equation is SO₃²⁻(aq) + 2H⁺(aq)  → H₂O(l) + SO₂(g).

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use the half-reaction method to balance the following equation in basic solution: fe2 mno4− → fe3 mn2 (do not include the states of matter.)

Answers

The balanced equation in basic solution is:

Fe2+ + MnO4- + H2O → Fe3+ + Mn2+

What is the half-reaction method?

To balance the given equation using the half-reaction method in basic solution, we first need to split the equation into two half-reactions:

Oxidation half-reaction: Fe2+ → Fe3+

Reduction half-reaction: MnO4- → Mn2+

Step 1: Balancing the Oxidation Half-Reaction

Fe2+ → Fe3+

We can balance the oxidation half-reaction by adding one electron to the left-hand side of the equation:

Fe2+ + e- → Fe3+

Step 2: Balancing the Reduction Half-Reaction

MnO4- → Mn2+

We start by identifying the oxidation state of each element in the reaction.

MnO4-: Mn has an oxidation state of +7, and each oxygen atom has an oxidation state of -2. The overall charge of the ion is -1, so the oxidation state of Mn + the sum of the oxidation states of the oxygens must equal -1. Therefore, we have:

MnO4-: Mn(+7) + 4(-2) = -1

Mn2+: Mn has an oxidation state of +2.

To balance the reduction half-reaction, we first balance the oxygen atoms by adding 4 OH- ions to the right-hand side of the equation:

MnO4- + 4OH- → MnO2 + 2H2O + 4e-

Next, we balance the hydrogen atoms by adding 2 H2O molecules to the left-hand side of the equation:

MnO4- + 4OH- + 3H2O → MnO2 + 8OH- + 4e-

Step 3: Balancing the Overall Equation

Now that we have balanced the oxidation and reduction half-reactions, we can combine them to get the overall balanced equation:

Fe2+ + MnO4- + 4OH- + 3H2O → Fe3+ + Mn2+ + 8OH-

Finally, we simplify the equation by canceling out the OH- ions on both sides of the equation:

Fe2+ + MnO4- + H2O → Fe3+ + Mn2+

Therefore, the balanced equation in basic solution is:

Fe2+ + MnO4- + H2O → Fe3+ + Mn2+

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The rest mass of a proton is 1.0072764666 u and that of a neutron is 1.0086649158 u The He nucleus weighs 4.002602 u. Calculate the mass defect of the nucleus in amu. 1. 0.029281 u 2. 1.98666 u 3. 2.6316 u 4. 0.001388 u 5. 0.058562 u

Answers

To calculate the mass defect of the nucleus in amu, we need to first calculate the total rest mass of the protons and neutrons that make up the nucleus. The He nucleus has 2 protons and 2 neutrons.


Total rest mass of the protons = 2 x 1.0072764666 u = 2.0145529332 u
Total rest mass of the neutrons = 2 x 1.0086649158 u = 2.0173298316 u

Total rest mass of the protons and neutrons = 2.0145529332 u + 2.0173298316 u = 4.0318827648 u

However, the actual rest mass of the He nucleus is 4.002602 u. Therefore, the mass defect is:

Mass defect = (Total rest mass of protons and neutrons) - (Actual rest mass of He nucleus)
Mass defect = 4.0318827648 u - 4.002602 u = 0.0292807648 u

Rounded to four decimal places, the mass defect of the nucleus is 0.0293 u or 0.029281 amu.

Therefore, the correct answer is option 1: 0.029281 u.

To calculate the mass defect of the He nucleus in amu, you need to first find the total mass of its protons and neutrons, and then subtract the mass of the He nucleus.

Here's the step-by-step explanation:

1. Determine the number of protons and neutrons in the He nucleus. Helium (He) has 2 protons and 2 neutrons.
2. Calculate the total mass of protons: 2 protons × 1.0072764666 u/proton = 2.0145529332 u.
3. Calculate the total mass of neutrons: 2 neutrons × 1.0086649158 u/neutron = 2.0173298316 u.
4. Add the total masses of protons and neutrons: 2.0145529332 u + 2.0173298316 u = 4.0318827648 u.
5. Subtract the mass of the He nucleus from the total mass: 4.0318827648 u - 4.002602 u = 0.0292807648 u.

The mass defect of the nucleus in amu is approximately 0.029281 u, which corresponds to option 1.

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Determine the mass of ki needed to create a 250. Ml solution with a concentration of 2. 25 m. ​

Answers

To create a 250 mL solution with a concentration of 2.25 M, approximately 93.375 grams of KI would be required.

To determine the mass of KI needed, we need to use the formula: mass = concentration x volume. In this case, the concentration is 2.25 M and the volume is 250 mL. However, we need to convert the volume from millilitres to litres to match the unit of concentration (Molarity). Since 1 litre is equal to 1000 millilitres, the volume becomes 0.25 L.

Using the formula, we can calculate the mass as follows: mass = 2.25 M x 0.25 L = 0.5625 moles.

To convert moles to grams, we need to know the molar mass of KI. The molar mass of KI is 166 g/mol (39 g/mol for potassium and 127 g/mol for iodine).

Multiplying the number of moles (0.5625 moles) by the molar mass (166 g/mol), we can find the mass of KI needed: mass = 0.5625 moles x 166 g/mol = 93.375 grams.

Therefore, to create a 250 mL solution with a concentration of 2.25 M, approximately 93.375 grams of KI would be required.

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The half-life of lead in the human body is estimated to be 40 days. What is the steady-state accumulation of lead in a person who eats 250 g of rice containing 17.2 milligrams per kilogram lead daily?

Answers

The steady-state accumulation of lead in a person who eats 250 g of rice containing 17.2 milligrams per kilogram lead daily is estimated to be 1.19 micrograms.

The steady-state accumulation of lead in the body can be calculated using the formula:

Steady-state accumulation = daily intake / (elimination rate x body weight)

In this case, the daily intake of lead is 17.2 mg/kg x 0.25 kg = 4.3 mg. The elimination rate of lead from the body is estimated to be 1.72% per day, which gives a half-life of 40 days. Therefore, the elimination rate can be calculated as:

Elimination rate = ln(2) / (half-life x 24 hours) = 0.00181 per hour

Assuming an average body weight of 70 kg, the steady-state accumulation of lead can be calculated as:

Steady-state accumulation = 4.3 mg / (0.00181 per hour x 70 kg) = 1.19 micrograms

The steady-state accumulation of lead in a person who eats 250 g of rice containing 17.2 milligrams per kilogram lead daily is estimated to be 1.19 micrograms, based on the estimated half-life of lead in the human body.

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Aluminum and hydrogen chloride react to produce aluminum chloride and hydrogen gas. If 22.2 grams of aluminum and 35.2 grams of hydrogen chloride are used, what mass of aluminum chloride can be produced? How many liters of hydrogen gas would each produce? What is the limiting reactant? How much is left over?

Answers

Explanation:

Answer and Explanation: 1

The first step to solve problems in stoichiometry is to establish the balanced chemical equation for the reaction as shown.

2

A

l

+

6

H

C

l

2

A

l

C

l

3

+

3

H

2

We are asked to determine the mass of HCl that completely reacts with the given amount of aluminum. To solve this, we need the following information on the molar mass of the reactants:

Al MW = 26.98 g/mol

HCl MW = 36.46 g/mol

Thus, converting the given amount of Al to grams of HCl, we get.

87.7

g

A

l

×

1

m

o

l

A

l

25.98

g

×

6

m

o

l

H

C

l

2

m

o

l

A

l

×

36.46

g

1

m

o

l

H

C

l

=

369

g

H

C

l

PLEASE HELP


Which is less dense and which is more dense?

A tennis ball
A baseball
A basketball
A soccer ball

Answers

Answer: Neither or none

Explanation: Less dense means closely compacted in substance and all of these objects are hollow.

How many grams of solid potassium chlorate (KCIO3, 122.55 g/mol) are needed to make 150 mL of 0.50 M solution? d. 0.41 g e. 2.7x 10g b. 37 g c. 9.2 g 4.

Answers

Thus, you need approximately 9.2 grams of solid potassium chlorate to make 150 mL of 0.50 M solution. The correct answer is (c) 9.2 g.

To determine how many grams of solid potassium chlorate (KClO3) are needed to make a 150 mL of 0.50 M solution, you can follow these steps:

1. Calculate the moles of KClO3 required for the desired solution concentration:
Molarity (M) = moles of solute / volume of solution (L)
0.50 M = moles of KClO3 / (150 mL * (1 L / 1000 mL))
Moles of KClO3 = 0.50 M * (0.15 L) = 0.075 moles

2. Convert moles of KClO3 to grams using the molar mass (122.55 g/mol):
grams of KClO3 = moles of KClO3 * molar mass
grams of KClO3 = 0.075 moles * 122.55 g/mol ≈ 9.2 g

Thus, you need approximately 9.2 grams of solid potassium chlorate to make 150 mL of 0.50 M solution. Therefore The correct answer is (c) 9.2 g.

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2SO2(g)+O2(g) ⇌ 2SO3(g)2SO2(g)+O2(g) ⇌ 2SO3(g)
What is the free-energy change for these reactions at 298 KK?
Express the free energy in kilojoules to one decimal place.

Answers

Therefore, the free-energy change for the reaction 2SO2(g) + O2(g) ⇌ 2SO3(g) at 298 K is -142.1 kJ/mol.
To calculate the free-energy change (ΔG) for the reaction 2SO2(g) + O2(g) ⇌ 2SO3(g) at 298 K, you would need the standard Gibbs free energy of formation (ΔGf°) values for each of the species involved.

The free-energy change (ΔG) for a reaction can be calculated using the equation: ΔG = ΔH - TΔS, where ΔH is the enthalpy change, T is the temperature in Kelvin, and ΔS is the entropy change.

First, we need to know the standard enthalpy change (ΔH°) and standard entropy change (ΔS°) for the reaction. These values can be found in a table of thermodynamic data:
ΔH° = -198.2 kJ/mol
ΔS° = -188.2 J/mol*K
Next, we need to calculate the temperature in Kelvin:
298 K
Now we can plug these values into the equation for ΔG:
ΔG = ΔH - TΔS
ΔG = (-198.2 kJ/mol) - (298 K)(-188.2 J/mol*K/1000 J/kJ)
ΔG = (-198.2 kJ/mol) + (56.1 kJ/mol)
ΔG = -142.1 kJ/mol

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determine the equilibrium constant for the following reaction at 655 k. hcn(g) 2 h2(g) → ch3nh2(g) δh° = -158 kj; δs°= -219.9 j/k

Answers

Therefore, the equilibrium constant for the reaction HCN(g) + 2 H2(g) → CH3NH2(g) at 655 K is 1.48 x 10^7.

To determine the equilibrium constant for this reaction, we need to use the following equation:
ΔG° = -RTln(K)
where ΔG° is the standard free energy change, R is the gas constant, T is the temperature in Kelvin, and K is the equilibrium constant.
First, we need to calculate the standard free energy change ΔG° using the following equation:
ΔG° = ΔH° - TΔS°
where ΔH° is the standard enthalpy change and ΔS° is the standard entropy change.
Given that ΔH° = -158 kJ and ΔS° = -219.9 J/K, we can convert ΔS° to kJ/K by dividing by 1000:
ΔS° = -0.2199 kJ/K
Substituting these values into the equation, we get:
ΔG° = -158 kJ - 655 K(-0.2199 kJ/K)
ΔG° = -3.79 kJ/mol
Next, we can use the equation ΔG° = -RTln(K) to solve for K:
K = e^(-ΔG°/RT)
Substituting the values we have:
K = e^(-(-3.79 kJ/mol)/(8.314 J/K/mol x 655 K))
K = 1.48 x 10^7
Therefore, the equilibrium constant for the reaction HCN(g) + 2 H2(g) → CH3NH2(g) at 655 K is 1.48 x 10^7.

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The standard emf for the cell using the overall cell reaction below is +0.48 V: Zn(s) + Ni2+(aq) → Zn2+(aq) + Ni(s) The emf generated by the cell when [Ni2+] = 2.50 M and [Zn2+] = 0.100 M isA) 0.52B) 0.50C) 0.44D) 0.40E) 0.56

Answers

The emf generated by the cell when [Ni₂⁺] = 0.100 M and [Zn₂⁺] = 2.25 M is 0.4400 V.

Electromotive force (EMF) is the name given to the electrical potential produced by an electrochemical cell (generator) or by altering the magnetic field (batteries).

Given, The standard emf for the cell using the overall cell reaction below is +0.48 V.

Zn (s) + Ni2+ (aq) → Zn2+ (aq) + Ni (s)

When the cell is NOT under standard conditions, i.e. 1M of each reactant at T = 25°C and P = 1 atm; then the Nernst Equation must be used. The equation relates E°cell, the number of electrons transferred, a charge of 1 mol of an electron to Faraday, and finally, the Quotient ratio between products/reactants

According to the Nernst Equation:

Ecell = E0cell - (RT/nF) x lnQ

In which: Ecell = non-standard value

E° or E0cell or E°cell or EMF = Standard EMF: standard cell potential

R is the gas constant (8.3145 J/mol-K)

T is the absolute temperature = 298 K

n is the number of moles of electrons transferred by the cell's reaction

F is Faraday's constant = 96485.337 C/mol or typically 96500 C/mol

Q is the reaction quotient, where

Q = [C]^c * [D]^d / [A]^a*[B]^b

Pure solids and pure liquids are not included. Also, note that if we use partial pressure (for gases)

Q = P-A^a / (P-B)^b

Substituting the given values in Nernst Equation:

Ecell = E° - (RT/nF) x lnQ

Ecell = 0.48 - (8.314*298)/(2*96500) * ln([Zn+2]/[Ni+2])

Ecell = 0.48 - (8.314*298)/(2*96500) * ln(2.25/0.1)

Ecell = 0.4400 V.

Thus, the emf of the cell is 0.4400 V.

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Determine the hydroxide ion concentration in a solution that is 0.00014 M HCl

Answers

To determine the hydroxide ion concentration in a solution of hydrochloric acid (HCl), one needs to consider that HCl is a strong acid that completely dissociates in water, forming hydronium ions (H3O+) and chloride ions (Cl-).. the hydroxide ion concentration in the solution of 0.00014 M HCl is approximately 7.14 x [tex]10^-^1^1[/tex] M.

Here the calculation is below<

[H3O+] = 0.00014 M [OH-] = [H3O+] (since the solution is neutral)

Using Kw = [H3O+][OH-], one can substitute the values:

(1.0 x [tex]10^-^1^4[/tex]) = (0.00014)([OH-])

Rearranging the equation to solve for [OH-]:

[OH-] = (1.0 x [tex]10^-^1^4[/tex]) / (0.00014)

Calculating the value:

[OH-] ≈ 7.14 x [tex]10^-^1^1[/tex] M

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Both (E)- and (Z)-hex-3-ene can be treated with D2 in the presence of a platinum catalyst. How are the products from these two reactions related to each other?

Answers

The products obtained from the hydrogen of both (E)- and (Z)-hex-3-ene with D2 in the presence of a platinum catalyst are related as they both result in the same compound: hex-3-ene-d2. In this reaction, two deuterium (D) atoms are added to the double bond, converting it into a single bond. The (E) and (Z) configurations don't affect the final product since hydrogenation removes the double bond, leading to the formation of an identical saturated compound.

When (E)-hex-3-ene is treated with D2 in the presence of a platinum catalyst, one of the hydrogen atoms from D2 will replace one of the original hydrogen atoms in the alkene, resulting in the formation of deuterated (E)-hex-3-ene. Similarly, when (Z)-hex-3-ene is treated with D2 in the presence of a platinum catalyst, one of the hydrogen atoms from D2 will replace one of the original hydrogen atoms in the alkene, resulting in the formation of deuterated (Z)-hex-3-ene.
The products from these two reactions are related to each other in that they are isomers of each other. Isomers are molecules that have the same molecular formula but different structures. In this case, (E)-hex-3-ene and (Z)-hex-3-ene are isomers of each other because they have the same molecular formula (C6H12) but different structures. Similarly, deuterated (E)-hex-3-ene and deuterated (Z)-hex-3-ene are isomers of each other because they have the same molecular formula (C6D12) but different structures.
The products from these two reactions are related to each other as isomers, meaning they have the same molecular formula but different structures.

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If 0. 25 L of H2(g) are collected at 25 C and 1. 1 atm. What will the pressure of the gas be if the temperature of the gas is increased to 30 C at a constant volume?

Answers

The pressure of the gas will increase from 1.12 atm to a higher value when the temperature is increased from 25°C to 30°C at a constant volume.

According to the ideal gas law (PV = nRT), the pressure (P) of a gas is directly proportional to its temperature (T) when the volume (V), amount of gas (n), and gas constant (R) are constant.

To calculate the new pressure, we can use the equation P₁/T₁ = P₂/T₂, where P₁ and T₁ are the initial pressure and temperature, and P₂ and T₂ are the final pressure and temperature. Given that P₁ = 1.1 atm and T₁ = 25°C (298 K), and T₂ = 30°C (303 K), we can solve for P₂.

Rearranging the equation, we get P₂ = (P₁ × T₂) / T₁ = (1.1 atm × 303 K) / 298 K ≈ 1.12 atm. Therefore, the pressure of the gas will increase to approximately 1.12 atm when the temperature is increased to 30°C at a constant volume.

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using standard electrode potentials, calculate δg∘ and use its value to estimate the equilibrium constant for each of the reactions at 25 ∘c. cu2 (aq) zn(s)→cu(s) zn2 (aq)

Answers

The equilibrium constant for the reaction at 25 °C is 2.75 × 10¹⁵.

How to calculate equilibrium constant values?

The standard electrode potentials for the half-reactions involved in the reaction are:

Cu₂+(aq) + 2e- → Cu(s) E° = +0.34 VZn₂+(aq) + 2e- → Zn(s) E° = -0.76 V

To calculate the ΔG° for the reaction, we can use the equation:

ΔG° = -nFE°

where n is the number of moles of electrons transferred in the reaction, F is the Faraday constant (96,485 C/mol), and E° is the standard electrode potential.

For the reaction Cu₂+(aq) + Zn(s) → Cu(s) + Zn₂+(aq), the number of electrons transferred is 2, so n = 2. Therefore, we can calculate ΔG° as:

ΔG° = -2 × 96,485 C/mol × (-0.76 V - 0.34 V) = 54,412 J/mol

To calculate the equilibrium constant, we can use the equation:

ΔG° = -RT ln(K)

where R is the gas constant (8.31 J/mol K), T is the temperature in Kelvin (25 + 273 = 298 K), and K is the equilibrium constant.

Solving for K, we get:

K = e(-ΔG°/RT) = e(-54,412 J/mol / (8.31 J/mol K × 298 K)) = 2.75 × 10¹⁵

Therefore, the equilibrium constant for the reaction at 25 °C is 2.75 × 10¹⁵.

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The Kb value of the oxalate ion, C2O42-, is 1.9 × 10-10. Is a solution of K2C2O4 acidic, basic, or neutral? Explain by selecting the single best answer. Select answer from the options below Neutral, because the K2C2O4 does not dissolve in water. Neutral, because K2C2O4 is a salt formed when oxalic acid is neutralized by KOH. Acidic, because the oxalate ion came from oxalic acid. None of these. Basic, because the oxalate ion hydrolyzes in water.

Answers

A solution of K₂C₂O₄, where the K_b value of the oxalate ion, C2O42-, is 1.9 × 10-10 is (e) "Basic because the oxalate ion hydrolyzes in water".

The K_b value of the oxalate ion, C₂O4₂⁻, is 1.9 × 10-10. This means that the oxalate ion is a weak base, which can undergo hydrolysis in water to produce hydroxide ions (OH⁻) and oxalic acid (H₂C₂O₄).

K₂C₂O₄ is a salt that is formed when oxalic acid is neutralized by KOH. It dissolves completely in water to give K+ and C₂O4₂⁻ ions. When these ions come in contact with water, the oxalate ions undergo hydrolysis to produce OH- ions.

The hydrolysis of C₂O4₂⁻ ion is given by the equation:

C₂O4₂⁻ + H₂O ⇌ HC₂O₄⁻ + OH⁻

Here, HC₂O₄⁻ is the conjugate acid of the oxalate ion. The K_b value of the oxalate ion tells us that it is a weak base, which means that the equilibrium lies to the left. Therefore, only a small fraction of C₂O4₂⁻ ions will undergo hydrolysis to produce OH⁻ ions.

However, even this small amount of OH⁻ ions is enough to make the solution basic.

Therefore, the correct answer to the question is (e) "Basic, because the oxalate ion hydrolyzes in water".

It is important to note that the presence of K⁺ ions does not affect the pH of the solution, as they are the conjugate acid of a strong base and do not undergo hydrolysis in water.

Therefore, the solution is not neutral, as suggested in the first two options. Additionally, the fact that the oxalate ion came from oxalic acid does not necessarily mean that the solution is acidic.

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in a saturated solution of na3 po4 , [na ] = 0.30 m. what is the molar solubility of na3 po4 ?

Answers

The molar solubility of Na3PO4 in a saturated solution where [Na+] = 0.30 M is 1.0 x 10^-26 M.

The molar solubility of Na3PO4 can be determined using the solubility product constant (Ksp) expression for the dissociation reaction of Na3PO4:
Na3PO4(s) ⇌ 3Na+(aq) + PO43-(aq)
Ksp = [Na+]^3[PO43-]
Since the solution is saturated, the concentration of Na+ is given as 0.30 M. Therefore, we can substitute this value into the Ksp expression and solve for the molar solubility (x) of Na3PO4:
Ksp = (0.30 M)^3 (x)
Simplifying the expression, we get:
Ksp = 0.027x
Rearranging the equation, we can solve for x:
x = Ksp / 0.027
The value of Ksp for Na3PO4 is 2.7 x 10^-28 (at 25°C), so substituting this value into the equation gives:
x = (2.7 x 10^-28) / 0.027
x = 1.0 x 10^-26 M
Therefore, the molar solubility of Na3PO4 in a saturated solution where [Na+] = 0.30 M is 1.0 x 10^-26 M.

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