What is the mass of 6. 02 x 10^22 molecules of fluorine gas at stop

Answers

Answer 1

Answer:

3.7996 g

Explanation:

From the number of molecules we can find the number of moles of Fluorine gas (F2) and multiply by Fluorine Gas' molecular weight. Fluorine gas is F2,

F = 18.998g/mol.

F2 (g) = 18.998*2 =37.996g F2(g)/mol

1 mol = 6.02 x 10^23 molecules

[tex]\frac{6.02*10^{22} molecules}{6.02*10^{23}molecules / mole }\\\\ = 0.1 mole[/tex]

0.1 mol x 37.996g F2 (g) / mol

3.7996 g F2


Related Questions

What set of coefficients will balance the chemical equation below:


___FeS (s) + ___O2 (g) ___Fe2O3 (s) + ___SO2 (g)

A. 4,7,2,4

B. 1,2,3,1

C. 2,7,2,2

D. 4,1,4,8

Answers

A. 4,7,2,4 set of coefficients will balance the chemical equation below:

4FeS (s) + 7O2 (g) 2Fe2O3 (s) +4SO2 (g)

What are the coefficients for balancing?

Stoichiometric coefficients are the numbers required to balance a chemical equation. These are essential because they connect the amounts of reactants used and the products produced. The coefficients are related to the equilibrium constants since they are used to calculate them.

The coefficients indicate how many of each ingredient are present throughout the reaction and can be changed to make the equation balanced.

It makes sense that H2O has a bond order of 2, whereas NH3 has a bond order of 3, given the number of bonds each possesses.

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you are separating anthracene from benzoic acid via an extraction between ethyl acetate and a basic aqueous solution in a separatory funnel. how would you recover the benzoic acid? group of answer choices collect the top layer, dry with na2so4, filter to remove the na2so4, and evaporate the solvent. collect the bottom layer, dry with na2so4, filter to remove the na2so4, and evaporate the solvent. collect the top layer and add hcl to precitipate the compound. collect the bottom layer and add hcl to precipitate the compound. collect the top layer and add naoh to precipitate the compound. collect the bottom layer and add naoh to precipitate the compound.

Answers

To recover the benzoic acid, collect the bottom layer, dry it with [tex]Na_{2} SO_{4}[/tex], filter to remove [tex]Na_{2} SO_{4}[/tex], and evaporate the solvent. The option 4  is correct.

This is because benzoic acid is a carboxylic acid and will react with the basic aqueous solution to form a water-soluble carboxylate salt. As a result, benzoic acid will be in the aqueous layer, which is the bottom layer. Ethyl acetate is the organic solvent and will form the top layer. By collecting the bottom aqueous layer, we can isolate the benzoic acid. Drying the solution with [tex]Na_{2} SO_{4}[/tex] removes any remaining water, and evaporating the solvent leaves behind the solid benzoic acid. Option 4 is correct answer.

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--The complete Question is, you are separating anthracene from benzoic acid via an extraction between ethyl acetate and a basic aqueous solution in a separatory funnel. how would you recover the benzoic acid? group of answer choices

1.  collect the top layer, dry with na2so4,

2. filter to remove the na2so4, and evaporate the solvent.

3. collect the bottom layer, dry with na2so4,

4.  collect the bottom layer and add hcl to precipitate the compound.

5. collect the top layer and add hcl to precitipate the compound.  --

6. How many moles are in 2. 65x10 22 atoms of carbon?


7. How many moles are in 1. 79x10 25 molecules of ammonia?

Answers

In problem 6, the number of atoms of carbon is 2.65 x 10²², which corresponds to 0.044 moles of carbon after dividing by Avogadro's number whereas In problem 7, the number of molecules of ammonia is 1.79 x 10²⁵, which is equivalent to 29.7 moles of ammonia after dividing by Avogadro's number.

In 6, the number of atoms of carbon given is 2.65 x 10²². To convert this to moles, we need to divide by Avogadro's number (6.02 x 10²³ atoms/mol).

Therefore, the number of moles of carbon is:

2.65 x 10²² atoms / 6.02 x 10²³ atoms/mol = 0.044 moles of carbon

In 7, the number of molecules of ammonia given is 1.79 x 10²⁵. To convert this to moles, we need to divide by Avogadro's number (6.02 x 10²³ molecules/mol).

Therefore, the number of moles of ammonia is:

1.79 x 10²⁵ molecules / 6.02 x 10²³ molecules/mol = 29.7 moles of ammonia.

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1. Calculate the molarity of


6. 3x10-3 mol C2 N14 in 400 mL H₂O

Answers

The solution has a Molarity of approx 0.01575 M.

To calculate the molarity of a solution, we use the formula:

Molarity (M) = moles of solute ÷ volume of solution in liters

First, we need to convert the volume of the solution from milliliters to liters:

Volume of solution = 400 mL = 400/1000 L = 0.4 L

Next, we need to calculate the moles of solute:

moles of solute = 6.3 x [tex]10^{-3[/tex] mol

Substituting these values into the formula, we get:

Molarity (M) = 6.3 x[tex]10^{-3[/tex] mol ÷ 0.4 L = 0.01575 M

Therefore, the molarity of the solution is 0.01575 M.

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A gas is confined in a cylinder fitted with a movable piston. At 27°C, the gas occupies a volume of 2. 0 L under a pressure of 3. 0 atm. The gas is heated to 47 °C and compressed to 5. 0 atm. What volume does the gas occupy in its final state?


a. 0. 48 L


b. 2. 1 L


c. 1. 3 L


d. 0. 78

Answers

The gas occupies a volume of 1.28 L in its final state, which is option (c).

We can solve this problem using the combined gas law:

(P1V1/T1) = (P2V2/T2)

where P1, V1, and T1 are the initial pressure, volume, and temperature, respectively, and P2, V2, and T2 are the final pressure, volume, and temperature, respectively.

Plugging in the given values, we have:

(3.0 atm)(2.0 L)/(300 K) = (5.0 atm)(V2)/(320 K)

Solving for V2, we get:

V2 = (3.0 atm)(2.0 L)(320 K)/(5.0 atm)(300 K) = 1.28 L

Therefore, the gas occupies a volume of 1.28 L in its final state, which is option (c).

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Use Boyle's, Charle's, or Gay-Lussac's law to calculate the missing value in each of the following. A. V1=2. 0 L, P1=0. 82 Atm, V2=1. 0 L, p2=?

Answers

After using Gay-Lussac's Law the missing value in this problem is P2, which is equal to 1.64 Atm

In this problem, we can use Gay-Lussac's law to calculate the missing value. Gay-Lussac's law states that at constant volume, the pressure of a gas is directly proportional to its temperature. In other words, if we increase the temperature of a gas, its pressure will increase as well, as long as the volume remains constant.

To use Gay-Lussac's law, we need to know the initial pressure and volume of the gas, as well as the final volume. We can then calculate the final pressure using the formula:

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

In this case, we know that V1 = 2.0 L, P1 = 0.82 Atm, V2 = 1.0 L, and we need to find P2. We don't know the temperature of the gas, but since the volume is decreasing and the pressure is likely to increase, we can assume that the temperature is staying the same.

Plugging in the values we have, we get:

P2 = (0.82 Atm * 2.0 L * T2) / (1.0 L * T1)

Simplifying this expression, we get:

P2 = 1.64 Atm

Therefore, the missing value in this problem is P2, which is equal to 1.64 Atm. We used Gay-Lussac's law to calculate this value based on the initial pressure, volume, and the final volume of the gas.

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What volume of oxygen gas at STP would be needed


to react completely with 1. 55 g of aluminum?

Answers

The volume of oxygen gas at STP that would be needed to react completely with 1.55 g of aluminum is 2.24 L.

The balanced chemical equation for the reaction of aluminum with oxygen gas is:

4Al + 3O₂ → 2Al₂O₃

From the equation, we can see that 4 moles of aluminum react with 3 moles of oxygen gas to produce 2 moles of aluminum oxide. We need to first calculate the number of moles of aluminum present in 1.55 g of aluminum:

moles of Al = mass/molar mass = 1.55 g/ 26.98 g/mol = 0.0574 mol

According to the balanced equation, 3 moles of oxygen gas react with 4 moles of aluminum. Therefore, the number of moles of oxygen gas required can be calculated as:

moles of O₂ = (3/4) * moles of Al = (3/4) * 0.0574 mol = 0.0431 mol

Finally, we can use the ideal gas law to calculate the volume of oxygen gas at STP (standard temperature and pressure, 0°C and 1 atm) that is required:

PV = nRT

where P = 1 atm, V = volume of gas, n = 0.0431 mol, R = 0.0821 L·atm/mol·K, and T = 273 K.

Solving for V, we get:

V = nRT/P = (0.0431 mol) * (0.0821 L·atm/mol·K) * (273 K) / (1 atm) = 2.24 L


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A solution contains 1.14×10^-2 M calcium acetate and 1.03×10^-2 M barium nitrate. Solid ammonium sulfate is added slowly to this mixture. A. What is the formula of the substance that precipitates first? formula =? B. What is the concentration of sulfate ion when this precipitation first begins? [SO42-] = M

Answers

the concentration of sulfate ion when the precipitation of barium sulfate begins is 1.07×10^-8 M.

To determine the formula of the substance that precipitates first, we need to determine which combination of ions will form an insoluble compound first. We can do this by considering the solubility rules for common ionic compounds.

Calcium acetate dissociates into Ca2+ and CH3COO- ions in solution, while barium nitrate dissociates into Ba2+ and NO3- ions. Ammonium sulfate, when added to the solution, will dissociate into NH4+ and SO42- ions.

The possible combinations of ions that can form insoluble compounds are:

- Ca2+ and SO42- form CaSO4, which is insoluble
- Ba2+ and SO42- form BaSO4, which is insoluble

According to the solubility rules, calcium sulfate (CaSO4) is slightly soluble in water, while barium sulfate (BaSO4) is insoluble. Therefore, the substance that precipitates first is barium sulfate (BaSO4).

To determine the concentration of sulfate ion when the precipitation first begins, we need to calculate the product of the concentrations of barium ion and sulfate ion, and compare it to the solubility product constant (Ksp) for barium sulfate.

The balanced chemical equation for the precipitation reaction is:

Ba(NO3)2 + (NH4)2SO4 → BaSO4↓ + 2NH4NO3

The Ksp expression for barium sulfate is:

Ksp = [Ba2+][SO42-]

At the point when precipitation begins, the barium and sulfate ion concentrations will be equal to each other, so we can use the concentration of barium ion to calculate the concentration of sulfate ion:

[Ba2+] = 1.03×10^-2 M

Ksp for barium sulfate is 1.1×10^-10 at 25°C.

Therefore, we can calculate the concentration of sulfate ion:

Ksp = [Ba2+][SO42-]

1.1×10^-10 = (1.03×10^-2 M)([SO42-])

[SO42-] = 1.07×10^-8 M

Therefore, the concentration of sulfate ion when the precipitation of barium sulfate begins is 1.07×10^-8 M.
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Acetylene (c2h2) is a flammable gas used in welder's torches. Styrene (C8H8) is used to make packing peanuts. What is the empirical formula for each? Describe why the empirical formula might be useful in the lab setting but not useful for predicting the properties and/or functions of materials

Answers

The empirical formula for acetylene (C₂H₂) is also C₂H₂, while the empirical formula for styrene (C₈H₈) is CH. The empirical formula is useful in the lab for quickly identifying the simplest ratio of atoms in a compound.

To determine the empirical formula of a compound, we need to find the simplest whole-number ratio of the atoms present in the compound. For acetylene (C₂H₂), the ratio is 1:1 for carbon and hydrogen, so the empirical formula is also C₂H₂.

For styrene (C₈H₈), the ratio of carbon to hydrogen is 1:1, so the empirical formula is CH.

The empirical formula can be useful in the lab setting as a quick way to identify the simplest ratio of atoms in a compound, which can help in determining reaction stoichiometry and other practical applications.

However, it may not be useful for predicting the properties or functions of a material, as it does not provide information about the molecular structure or bonding present in the compound.

For example, while acetylene and styrene have the same empirical formula (CH), they have very different chemical and physical properties due to their different molecular structures and bonding.

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How many grams of CaCl2 would be required to produce a. 750 M solution with a 855 ml volume?

Answers

To make a 750 M solution with a volume of 855 ml, we need 56.79 grams of CaCl₂. The calculation involves using the formula mass = Molarity x Volume x Molar mass.

To calculate the mass of CaCl₂ required to make a 750 M solution with a volume of 855 ml, we can use the following formula:

mass = Molarity x Volume x Molar mass

where:

Molarity is the concentration of the solution in moles per liter (M)

Volume is the volume of the solution in liters (L)

Molar mass is the mass of one mole of the solute in grams (g/mol)

The molar mass of CaCl₂ is:

Ca = 40.08 g/mol

Cl₂ = 2 x 35.45 g/mol = 70.90 g/mol

Molar mass of CaCl₂ = 40.08 + 70.90 = 110.98 g/mol

Substituting the given values into the formula, we get:

mass = 750 mol/L x 855 mL x (1 L / 1000 mL) x 110.98 g/mol

Note that we need to convert the volume from milliliters to liters by dividing by 1000.

mass = 56.79 g

Therefore, we need 56.79 grams of CaCl₂ to make a 750 M solution with a volume of 855 ml.

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1. a balloon
is filled with hydrogen at a temperature of 22.0°c and a pressure of
$12 mm hg. if the balloon's original volume was 1.25 liters, what will its new
volume be at a higher altitude, where the pressure is only 625 mm hg? assume
the temperature stays the same.

Answers

The new volume of the hydrogen-filled balloon at a higher altitude with a pressure of 625 mm Hg will be 6.25 L.

To solve this problem, we can use the gas law equation, which is P1V1 = P2V2, where P1 and V1 are the initial pressure and volume, and P2 and V2 are the final pressure and volume.

Given the initial pressure P1 = 112 mm Hg, the initial volume V1 = 1.25 L, and the final pressure P2 = 625 mm Hg, we can calculate the final volume V2 by rearranging the equation:

V2 = (P1V1) / P2

V2 = (112 mm Hg × 1.25 L) / 625 mm Hg

V2 = 6.25 L

So, the new volume of the balloon at a higher altitude will be 6.25 liters, assuming the temperature remains constant at 22.0°C.

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At 15. 17 atm and 243. 41 K a certain gas has a volume of 641. 68 L. What will the volume of gas be at 561. 06 K and 70. 3 atm?

Answers

The volume of the gas at 561.06 K and 70.3 atm will be 168.08 L.

The initial conditions of the gas are given as P₁ = 15.17 atm, V₁ = 641.68 L, and T₁ = 243.41 K. To find the volume of the gas at the new conditions, we can use the combined gas law:

(P₁V₁)/T₁ = (P₂V₂)/T₂

where P₂, V₂, and T₂ are the new pressure, volume, and temperature, respectively.

We can rearrange the equation to solve for V₂:

V₂ = (P₂/P₁) x (T₁/T₂) x V₁

Substituting the given values:

V₂ = (70.3/15.17) x (243.41/561.06) x 641.68

V₂ = 168.08 L

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How a substance appears due to the wavelength of the light reflected off of its surface

Answers

The appearance of a substance is greatly influenced by the wavelength of light that is reflected off its surface.

This is because different substances absorb and reflect different wavelengths of light, resulting in the unique appearance of each material.

When light hits an object, it can either be absorbed, transmitted or reflected. The color of the object is determined by the wavelengths of light that are reflected back into our eyes. For example, a red apple appears red because it absorbs all colors of light except for red, which is reflected back to our eyes.

Similarly, a blue object appears blue because it reflects blue light while absorbing other colors.

The wavelength of light is also responsible for the phenomenon of iridescence, where objects appear to change color depending on the angle of light. This happens because the surface of the object reflects different wavelengths of light at different angles, creating a shimmering effect.

In summary, the wavelength of light that is reflected off an object greatly influences its appearance. By understanding how different substances interact with light, we can better understand the colors and textures of the world around us.

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Calculate the molarity of the solutions described below. Round all answers to 2 decimal places. Hint: Use molar mass and dimensional analysis to convert grams into moles. A) 100.0 g of sodium chloride is dissolved in 3.0 L of solution. Answer: 0.57 M B) 72.5 g of sugar (C12H22O11) s dissolved in 1.5 L of solution. Answer: 0.13 M C) 125 g of aluminum sulfate is dissolved in 0.150 L of solution. Answer: M D) 1.75 g of caffeine (C8H10N4O2) is dissolved in 0.200 L of solution. Answer: M

Answers

Explanation:

A) To calculate the molarity of sodium chloride solution, we need to first convert the mass of sodium chloride into moles, using its molar mass of 58.44 g/mol:

100.0 g NaCl × (1 mol NaCl/58.44 g NaCl) = 1.71 mol NaCl

Then, we divide the number of moles by the volume of solution in liters to get the molarity:

Molarity = 1.71 mol NaCl ÷ 3.0 L = 0.57 M

Therefore, the molarity of the sodium chloride solution is 0.57 M.

B) To calculate the molarity of sugar (C12H22O11) solution, we need to first convert the mass of sugar into moles, using its molar mass of 342.3 g/mol:

72.5 g C12H22O11 × (1 mol C12H22O11/342.3 g C12H22O11) = 0.212 mol C12H22O11

Then, we divide the number of moles by the volume of solution in liters to get the molarity:

Molarity = 0.212 mol C12H22O11 ÷ 1.5 L = 0.13 M

Therefore, the molarity of the sugar solution is 0.13 M.

C) To calculate the molarity of aluminum sulfate solution, we need to first convert the mass of aluminum sulfate into moles, using its molar mass of 342.2 g/mol:

125 g Al2(SO4)3 × (1 mol Al2(SO4)3/342.2 g Al2(SO4)3) = 0.365 mol Al2(SO4)3

Then, we divide the number of moles by the volume of solution in liters to get the molarity:

Molarity = 0.365 mol Al2(SO4)3 ÷ 0.150 L = 2.43 M

Therefore, the molarity of the aluminum sulfate solution is 2.43 M.

D) To calculate the molarity of caffeine (C8H10N4O2) solution, we need to first convert the mass of caffeine into moles, using its molar mass of 194.2 g/mol:

1.75 g C8H10N4O2 × (1 mol C8H10N4O2/194.2 g C8H10N4O2) = 0.009 mol C8H10N4O2

Then, we divide the number of moles by the volume of solution in liters to get the molarity:

Molarity = 0.009 mol C8H10N4O2 ÷ 0.200 L = 0.045 M

Therefore, the molarity of the caffeine solution is 0.045 M

Answer:

Hi and sorry.

But what is the question in that?

There is already answers so i don't know how to help you.

Explanation:

Environmental scientists can use a similar lab kit to test collected water samples from


bodies of water. In lakes and streams, calcium carbonate (CaCO3) causes alkalinity,


which allows it to function as a buffer, neutralizing any acid rain that may enter the


water supply. A buffer is a substance that serves to resist small changes in acidity or


alkalinity in a solution.


Environmental scientists monitoring pollution levels are measuring buffer levels in


two specific lakes. They found that Lake B had a greater ppm of calcium carbonate


than Lake A.


Which of the two lakes would be able to neutralize a greater amount of acid rain?


Explain your answer.

Answers

Lake B with a greater ppm of calcium carbonate would be able to neutralize a greater amount of acid rain.

Calcium carbonate (CaCO₃) acts as a buffer in lakes and streams by neutralizing any acid rain that may enter the water supply. A buffer is a substance that serves to resist small changes in acidity or alkalinity in a solution. Environmental scientists monitoring pollution levels are measuring buffer levels in two specific lakes. They found that Lake B had a greater ppm of calcium carbonate than Lake A.

Since calcium carbonate causes alkalinity, which allows it to function as a buffer, neutralizing any acid rain that may enter the water supply, Lake B would be able to neutralize a greater amount of acid rain than Lake A because it has a greater ppm of calcium carbonate.

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Ethylene glycol has a density of 1. 1 kg/L. How many liters of ethylene glycol should be added to the water in the radiator to protect the system to -18°C?

Answers

Approximately 1.82 liters of ethylene glycol should be added to the water in the radiator to make a 50:50 mixture that will protect the system to -18°C.

A 50:50 mixture of ethylene glycol and water is recommended to provide protection down to approximately -37°C. This mixture will provide freeze point depression of approximately -34°C. We can use the following equation to calculate the volume of ethylene glycol required:

Veth = (Vtot × Ceth) / ρeth

where:

Veth = volume of ethylene glycol

Vtot = total volume of mixture

Ceth = concentration of ethylene glycol

ρeth = density of ethylene glycol

To calculate volume of ethylene glycol required to make a 50:50 mixture, we can substitute these values into the equation:

[tex]Veth = (Vtot * Ceth) / \rho eth \\Veth = (4 L * 0.5) / 1.1 kg/L \\Veth = 1.82 L[/tex]

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The electron in a hydrogen atom can undergo a transition from n = 6 to n = 1, emitting a photon with energy 2.11 × 10–18 J. (2 points)

i. What is the frequency of this transition? (1 point)


ii. How does this transition show that the energy of a photon is quantized? (1 point)



C. Why is it impossible for an electron to have the quantum numbers n = 3, l = 0, ml = 1, ms = +? (2 points)

Answers

i. The frequency of this transition is 3.18 × 10¹⁵ Hz.

How to determine frequency?

i. Use the relationship E = hf to find the frequency (f) of the photon:

E = hf

f = E/h

f = (2.11 × 10–18 J) / (6.626 × 10⁻³⁴ J s)

f ≈ 3.18 × 10¹⁵ Hz

ii. This transition shows that the energy of a photon is quantized because the electron in a hydrogen atom can only exist in certain energy levels (quantum states). When an electron moves from a higher energy level to a lower energy level, it must release energy in the form of a photon with a specific frequency and energy.

C. According to the Pauli exclusion principle, no two electrons in an atom can have the same set of four quantum numbers. The quantum numbers are:

n: the principal quantum number (positive integer values)

l: the azimuthal quantum number (integer values from 0 to n-1)

ml: the magnetic quantum number (integer values from -l to l)

ms: the spin quantum number (+1/2 or -1/2)

Since there can only be one electron in an atom with the specified quantum numbers, and since the Pauli exclusion principle forbids two electrons from having the same set of quantum numbers, it follows that an electron cannot have the quantum numbers n = 3, l = 0, ml = 1, or ms = +.

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1. In a reaction, an excess of iron III oxide are reacted with carbon monoxide


to produce elemental iron and carbon dioxide. A total of 15. 88 grams of iron


are recovered with a percentage yield of 83. 25%.


Calculate the mass of carbon monoxide that has been used in the reaction.


Show ALL work. There will be MULTIPLE steps necessary.

Answers

The mass of carbon monoxide that has been used in the reaction is 5.296 g.

To solve this problem, we need to use stoichiometry which deals with the quantitative relationships between reactants and products in chemical reactions.

The balanced chemical equation for the reaction is:

Fe₂O₃ + 3CO → 2Fe + 3CO₂

This equation tells us that for every 2 moles of Fe₂O₃ and 3 moles of CO that react, we get 2 moles of Fe and 3 moles of CO₂.

We are given the mass of iron that was recovered, and the percentage yield of the reaction. The percentage yield is a measure of how much product is actually obtained compared to the theoretical yield, which is the amount of product that would be obtained if the reaction proceeded to completion.

To calculate the theoretical yield of iron, we need to use stoichiometry and the given amount of carbon monoxide used in the reaction. We can use the following equation to calculate the amount of carbon monoxide used:

n = m/M

where n is the number of moles of carbon monoxide used, m is the mass of iron recovered, and M is the molar mass of iron.

Using the given values, we get:

n = 15.88 g / 55.845 g/mol = 0.2838 mol

This is the number of moles of iron that would be produced if the reaction proceeded to completion.

To calculate the theoretical yield of iron, we can use the stoichiometry of the balanced chemical equation. For every 3 moles of carbon monoxide used, 2 moles of iron are produced. So, the number of moles of carbon monoxide used is:

nCO = (2/3) × n = (2/3) × 0.2838 mol = 0.1892 mol

To calculate the mass of carbon monoxide used, we can use the following equation:

mCO = nCO × MCO

where mCO is the mass of carbon monoxide used, and MCO is the molar mass of carbon monoxide, which is 28.01 g/mol.

Using the given values, we get:

mCO = 0.1892 mol × 28.01 g/mol = 5.296 g

Therefore, the mass of carbon monoxide used in the reaction is 5.296 grams.

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A 0. 50 L can of gas is at a pressure of 20. 0 kPa. If the can is run over by a garbage truck and flattened to a volume of 0. 010 L, what is the pressure in kPa?

Answers

The pressure inside the flattened can is 1000 kPₐ .

To solve this problem using the Ideal Gas Law formula and the given information. The terms involved in this question are pressure, volume, and the Ideal Gas Law (PV = nRT).


Here's the step-by-step explanation:
1. The initial state of the gas is given as: P₁ = 20.0 kPₐ and V₁ = 0.50 L.
2. The final state of the gas after being flattened is given as: V₂ = 0.010 L.
3. We need to find the final pressure, P₂.
4. Since the problem doesn't involve any changes in temperature or the amount of gas, we can use Boyle's Law, which is a simplified version of the Ideal Gas Law for constant temperature and amount of gas. Boyle's Law states that P₁V₁ = P₂V₂.
5. Plug in the given values: (20.0 kPₐ)(0.50 L) = P2(0.010 L).
6. Solve for P₂: P₂ = (20.0 kPₐ )(0.50 L) / 0.010 L = 1000 kPₐ .

The pressure inside the flattened can is 1000 kPₐ .

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What is the concentration of KBr in a solution prepared by mixing 0. 200 L of 0. 053 M KBr with
0. 550 L of 0. 078 M KBr?

Answers

To find the concentration of KBr in the solution, we can use the formula:

C1V1 + C2V2 = C3V3

where C1 and V1 are the concentration and volume of the first solution, C2 and V2 are the concentration and volume of the second solution, and C3 and V3 are the concentration and volume of the resulting mixed solution.



Plugging in the given values, we get:

(0.053 M x 0.200 L) + (0.078 M x 0.550 L) / (0.200 L + 0.550 L)

= (0.0106 mol + 0.0429 mol) / 0.750 L

= 0.0587 M

Therefore, the concentration of KBr in the final solution is 0.0587 M.

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You need to neutralize 100. 0ml of a 2. 5 M solution of H2SO4. How many grams of KOH are needed

Answers

To neutralize 100.0ml of a 2.5 M solution of H2SO4, you will need 28.055 grams of KOH.

To neutralize 100.0ml of a 2.5 M solution of H2SO4, you will need to add a certain amount of KOH, which will react with the H2SO4 to form water and a salt. The goal of this process is to achieve a neutral pH of 7, indicating that the acid and base have been completely reacted.

To calculate how many grams of KOH are needed, you first need to determine the number of moles of H2SO4 present in the solution. This can be done using the formula:

moles = concentration (M) x volume (L)

Plugging in the values, we get:

moles H2SO4 = 2.5 M x 0.100 L = 0.250 moles

Since H2SO4 is a diprotic acid, meaning it can donate two hydrogen ions, it will require twice the amount of KOH to neutralize. Therefore, we need to double the number of moles of H2SO4 to get the number of moles of KOH needed:

moles KOH = 2 x 0.250 moles = 0.500 moles

Now we can use the formula for finding the mass of a compound using its moles and molar mass:

mass = moles x molar mass

The molar mass of KOH is 56.11 g/mol, so we can plug in the values and solve for the mass of KOH needed:

mass KOH = 0.500 moles x 56.11 g/mol = 28.055 g

Therefore, to neutralize 100.0ml of a 2.5 M solution of H2SO4, you will need 28.055 grams of KOH.

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I need help with this question PLEASE

Answers

The oxidation number approach, commonly referred to as the oxidation states, keeps track of the electrons obtained during reduction and the electrons lost during oxidation.

Thus, Each atom in a charged or neutral molecule is given an oxidation number. Oxidation takes place whenever the oxidation number rises. Reduction happens when the oxidation number goes down. The total charge of a chemical is equal to the sum of all of its oxidation numbers.

 The roles of oxidation and reduction is the only foolproof method for balancing a redox equation. Then you achieve equilibrium by bringing the electron gain and loss into balance.

The oxidation numbers of all atoms are determined using the oxidation number method. The altered atoms are then multiplied by small whole numbers.

Thus, The oxidation number approach, commonly referred to as the oxidation states, keeps track of the electrons obtained during reduction and the electrons lost during oxidation.

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An ecosystem is a term used by scientists to describe a specific level of organization in an environment. Which of the


following lists make up an ecosystem? (AKS 6a)


A soil, air, sunlight, rocks, rain


O B. Different populations of wildebeest


O C. Leaopards, giraffes, antelope, hyenas


OD. Rain, grass, worms, jackals, lions, sunlight

Answers

An ecosystem is an interconnected set of living and non-living components that interact and influence each other to form a functional unit.

Here all options are correct

As such, it is a complex system of energy and material exchanges between its components. A list of components that make up an ecosystem can include soil, air, sunlight, rocks, rain, and different populations of living organisms. The living components of an ecosystem include plants, animals, and microorganisms, such as worms and jackals. These organisms interact and depend on each other for survival, such as the leopards, giraffes, antelope, and hyenas that rely on the grass and other plants that are watered by the rain.

The sunlight provides energy for photosynthesis, which is essential for the production of food and oxygen. The rocks, soil, and air in the environment provide the physical structure that allows different organisms to interact and thrive. All of these components contribute to the health of an ecosystem, and each component plays an important role in maintaining the balance of the ecosystem.

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Use the equation mava=mbvb to answer the question. 50 ml of 0.5 barium hydroxide (baoh) are required to fully titrate a 100 ml solution of sulfuric acid. what is the initial concentration of the acid?​

Answers

The initial concentration of the sulfuric acid solution is 0.25 M.

In this titration reaction, barium hydroxide ([tex]Ba(OH)2[/tex]) is reacting with sulfuric acid ([tex]H2SO4[/tex]) to form barium sulfate ([tex]BaSO4[/tex]) and water ([tex]H2O[/tex]).

The balanced equation for the reaction is:

[tex]Ba(OH)2(aq) + H2SO4(aq) → BaSO4(s) + 2H2O(l)[/tex]

From the equation, we can see that one mole of [tex]Ba(OH)2[/tex] reacts with one mole of[tex]H2SO4[/tex]. Therefore, the moles of [tex]Ba(OH)2[/tex] used in the titration can be calculated as follows:

moles of [tex]Ba(OH)2[/tex] = (50 mL × 0.5 M) / 1000

moles of[tex]Ba(OH)2[/tex] = 0.025 mol

Since the stoichiometry of the reaction is 1:1, the moles of [tex]H2SO4[/tex] in the original solution are also equal to 0.025 mol.

We can use the volume and moles of [tex]H2SO4[/tex] to calculate the initial concentration of the acid:

initial concentration of [tex]H2SO4[/tex] = moles of H2SO4 / volume of [tex]H2SO4[/tex]

initial concentration of [tex]H2SO4[/tex] = 0.025 mol / 0.1 L

initial concentration of [tex]H2SO4[/tex] = 0.25 M

Therefore, the initial concentration of the sulfuric acid solution is 0.25 M.

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A 5. 5 g piece of metal is heated, and the amount


of energy transferred is 9624 ). If the specific


heat of the metal is 0. 74 J/g°C, what is the change


in temperature?

Answers

The change in temperature of the 5.5 g piece of metal when heated with an energy transfer of 9624 J and a specific heat of 0.74 J/g°C is approximately 2364.84°C.

Given a 5.5 g piece of metal that is heated with an energy transfer of 9624 J. The specific heat of the metal is 0.74 J/g°C. To find the change in temperature, you can use the formula:
q = mcΔT

where q represents the amount of energy transferred (9624 J), m is the mass of the metal (5.5 g), c is the specific heat capacity (0.74 J/g°C), and ΔT is the change in temperature.

First, rearrange the formula to solve for ΔT:
ΔT = q / (mc)

Next, substitute the given values into the formula:
ΔT = 9624 J / (5.5 g × 0.74 J/g°C)

Now, calculate the change in temperature:
ΔT = 9624 J / (4.07 J/°C) = 2364.84°C

So, the change in temperature of the 5.5 g piece of metal when heated with an energy transfer of 9624 J and a specific heat of 0.74 J/g°C is approximately 2364.84°C.

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(copied answer from the sheet)
The iron haematite contains 70% iron by mass. We can calculate the amount of iron obtained in 1 tonne (1000kg) of haematite by:
Mass of iron )kg)= 70/100 x1000=700kg
Calculate the amount of calcium and magnesium obtained from 500kg of dolomite, which is 22% calcium and 13% magnesium by mass. Show your working

Answers

1. The mass of calcium obtained from 500 Kg of dolomite is 110 kilograms

2. The mass of magnesium obtained from 500 Kg of dolomite is  65 kilograms

How do i determine the mass obtained?

The mass of calcium and magnesium in the 500 Kg of dolomite can be obtained as shown below:

1. For calcium

Percentage of calcium = 22%Mass of dolomite = 500 kilogramsMass of calcium =?

Mass of calcium = Percentage of calcium × Mass of dolomite

Mass of calcium = 22% × 500

Mass of calcium = (22/100) × 500

Mass of calcium = 110 kilograms

2. For magnesium

Percentage of magnesium = 13%Mass of dolomite = 500 kilogramsMass of magnesium =?

Mass of magnesium = Percentage of magnesium × Mass of dolomite

Mass of magnesium = 13% × 500

Mass of magnesium = (13/100) × 500

Mass of magnesium = 65 kilograms

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Chlorine reacts with benzene to produce chlorobenzene and hydrogen chloride ch + c.h. → ch, ci + hci

a. determine the limited reactant if 45.0 g of benzene reacts with 450 g chlorine

b. what is the mass of the excess reactant?

c. what is the mass of chlorobenzene produced? -



7. nickel reacts with hydrochloric acid to produce nickel(ii) chloride and hydrogen ni + 2 hcl - nicl2 + h2

a. if 5.00 g of nickel is reacted with 2.50g of hci what is the limited reactant?

b. how much excess reactant will remain?

c. what mass of nickel(ii) chloride will be produced?​

Answers

6) The limiting reactant is benzene.

mass of excess chlorine is 409.1 g.mass of chlorobenzene produced is 64.85 g

7) Ni is the limiting reactant.

3.69 g of HCl remains unreacted.11.02 g of NiCl₂ will be produced

How to determine reactant amounts and products?

For the first reaction:

a) To determine the limiting reactant, compare the number of moles of each reactant with their stoichiometric coefficients, benzene:

Molar mass of benzene (C₆H₆) = 78.11 g/mol

Number of moles of benzene = 45.0 g / 78.11 g/mol = 0.5765 mol

Calculate the number of moles of chlorine:

Molar mass of chlorine (Cl₂) = 70.91 g/mol

Number of moles of chlorine = 450 g / 70.91 g/mol = 6.344 mol

The stoichiometric coefficient of benzene is 1 and the stoichiometric coefficient of chlorine is also 1. Therefore, the limiting reactant is benzene, as it produces fewer moles of product than the amount of chlorine available.

b) To calculate the mass of excess reactant, find out how much of the excess reactant is left after the reaction, determine the amount of chlorine that reacts:

From the balanced chemical equation, 1 mole of benzene reacts with 1 mole of chlorine to produce 1 mole of chlorobenzene and 1 mole of hydrogen chloride.

0.5765 mol of benzene reacts with 0.5765 mol of chlorine, according to the equation. Therefore, the amount of excess chlorine is:

6.344 mol - 0.5765 mol = 5.7675 mol

The mass of excess chlorine is:

5.7675 mol x 70.91 g/mol = 409.1 g

c) The molar mass of chlorobenzene (C₆H₅Cl) is 112.56 g/mol. Since 1 mole of benzene produces 1 mole of chlorobenzene, the number of moles of chlorobenzene produced is equal to the number of moles of benzene reacted:

0.5765 mol of chlorobenzene is produced.

The mass of chlorobenzene produced is:

0.5765 mol x 112.56 g/mol = 64.85 g

7. For the second reaction:

a. To determine the limiting reactant, we need to compare the number of moles of each reactant to the stoichiometric coefficients in the balanced chemical equation. The balanced equation is:

Ni + 2HCl → NiCl₂ + H₂

The molar masses of Ni and HCl are 58.69 g/mol and 36.46 g/mol, respectively. Using these values, calculate the number of moles of each reactant:

Number of moles of Ni = 5.00 g / 58.69 g/mol = 0.085 mol

Number of moles of HCl = 2.50 g / 36.46 g/mol = 0.069 mol

Since the stoichiometric coefficient of Ni is 1 and the stoichiometric coefficient of HCl is 2, Ni is the limiting reactant.

b. To calculate the amount of excess reactant, first determine the theoretical amount of HCl needed to react completely with the amount of Ni present. From the balanced equation, 1 mole of Ni reacts with 2 moles of HCl. Therefore, the theoretical amount of HCl needed is:

Theoretical amount of HCl = 0.085 mol Ni × (2 mol HCl/1 mol Ni) = 0.17 mol HCl

The actual amount of HCl present is 0.069 mol, so the amount of excess HCl is:

Excess HCl = 0.17 mol - 0.069 mol = 0.101 mol

Convert this amount to grams using the molar mass of HCl:

Excess HCl mass = 0.101 mol × 36.46 g/mol = 3.69 g HCl

Therefore, 3.69 g of HCl will remain unreacted.

c. From the balanced equation, we can see that 1 mole of Ni produces 1 mole of NiCl₂. Therefore, the amount of NiCl₂ produced is equal to the amount of Ni reacted, which is 0.085 mol. Convert this amount to grams using the molar mass of NiCl₂:

Mass of NiCl₂ produced = 0.085 mol × 129.60 g/mol = 11.02 g NiCl₂

Therefore, 11.02 g of NiCl₂ will be produced.

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1.85 l of a gas is collected over water at 98.0 kpa and 22.0 °c. what is the volume of the dry gas at stp?

Answers

In this problem, we are given the volume of a gas collected over water at a certain temperature and pressure. We need to determine the volume of the dry gas at STP (standard temperature and pressure).

First, we need to understand why the presence of water is important in this problem. When a gas is collected over water, some of the water vapor dissolves in the gas, which affects the volume of the gas we measure. In order to account for this, we need to use the concept of vapor pressure.

The vapor pressure of water at 22.0°C is 2.64 kPa. This means that at 22.0°C and 98.0 kPa, the total pressure is the sum of the pressure due to the gas and the pressure due to the water vapor. We can use Dalton's Law of Partial Pressures to calculate the pressure due to the gas alone:

P_gas = P_total - P_water vapor
P_gas = 98.0 kPa - 2.64 kPa
P_gas = 95.36 kPa

Now we can use the Ideal Gas Law to calculate the volume of the dry gas at STP:

PV = nRT

where P is the pressure, V is the volume, n is the number of moles, R is the gas constant, and T is the temperature. At STP, P = 101.3 kPa and T = 273.15 K.

We can rearrange the Ideal Gas Law to solve for the volume of the dry gas:

V_dry gas = (V_collected gas * P_gas * T_STP) / (P_STP * T_collected gas)

where V_collected gas is the volume of the gas collected over water, T_collected gas is the temperature of the gas collected over water, and T_STP is the temperature at STP.

Plugging in the numbers, we get:

V_dry gas = (1.85 L * 95.36 kPa * 273.15 K) / (101.3 kPa * 295.15 K)
V_dry gas = 1.60 L

Therefore, the volume of the dry gas at STP is 1.60 L. It's important to note that the volume of the dry gas is smaller than the volume of the gas collected over water, because some of the volume was occupied by water vapor.

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If re glazing do you cover what was forgotten(in the 2nd firing) or you fàreglaze everywhere

Answers

When reglazing, you cover the areas that were forgotten in the 2nd firing as well as reglaze everywhere for a uniform appearance.

Reglazing involves applying a new layer of glaze to a previously fired ceramic piece to improve its appearance, fix any issues from previous firings, or to achieve a specific effect.

In your case, if some areas were missed or improperly glazed during the 2nd firing, you would want to apply glaze to those forgotten areas to ensure a consistent finish.

However, it's important to reglaze the entire piece, not just the missed areas, to maintain a uniform appearance and avoid any inconsistencies in the final result. Before reglazing, make sure the ceramic piece is clean and free of dust or debris.

Apply the glaze evenly, using an appropriate technique such as brushing or dipping, and then fire the piece again according to the glaze's specific firing temperature and instructions. This should result in a well-glazed and visually appealing ceramic piece.

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7. Calculate: Turn off Show most probable velocity and Show mean velocity. Select Hydrogen and set the Temperature to 100 K. You can calculate the most probable velocity (vp), mean velocity ( ), and root mean square velocity (vrms) using the following formulas: In each formula, R stands for the universal gas constant, or 8. 3144 J / K mol, T stands for Kelvin temperature, and M stands for the molar mass, in kg / mol. Hydrogen gas (H2) has a molar mass of 0. 002016 kg / mol. A. Calculate the most probable velocity (vp): ____________________ B. Check by turning on Show most probable velocity. Were you correct

Answers

The most probable velocity of hydrogen gas at 100 K is approximately 1809.46 m/s.

To calculate the most probable velocity (vp) of hydrogen gas [tex](H_2)[/tex] at 100 K, we can use the following formula:

[tex]vp = (2RT/\pi M)^{(1/2)}[/tex]

where R is the universal gas constant (8.3144 J/K*mol),

T is the temperature in Kelvin (100 K),

π is pi (3.14159),

and M is the molar mass of hydrogen gas (0.002016 kg/mol).

Putting in the values, we get:

[tex]vp = (2 * 8.3144 J/K*mol * 100 K / \pi * 0.002016 kg/mol)^{(1/2)}\\vp = 1809.46 m/s[/tex]

Therefore, the most probable velocity of hydrogen gas at 100 K is approximately 1809.46 m/s.

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