How many mL of a 2.63 M solution do you need to dilute to 100 mL with a final concentration of 0.48
Answer is= 18.25/ How?

Answers

Answer 1

18.25 mL of a 2.63 M solution you need to dilute to 100 mL with a final solution concentration of 0.48.

The amount of a substance is often measured by how much it weighs – i.e. in g or mg or kg etc. The concentration is the amount divided by the volume it is dissolved in. concentration = amount divided by volume

Another way of representing the amount of a substance is to use the concept of mole. A mole is simply 6.0223 x 1023 molecules (this is “Avogadro’s number”)

Eggs come in dozens (12), molecules come in moles (6 x 1023) The mass of a mole of molecules is the formula weight in grams. This is sometimes called “molar mass” with symbol M. Sometimes it is referred to as molecular weight. Sometimes it is called “relative molecular mass” since the mass of a carbon element is designated to be 12 and other molecules or elements are given masses relative to that.

The molar mass of a small molecule such as an amino acid (eg glycine is NH2CH2COOH and has molecular mass = 75.07 g.mol-1) is much less than the molar mass of a protein (eg haemoglobin has molecular mass ~ 64500 g.mol-1).

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Related Questions

calculate the ph of a solution that is 0.61 m hf and 1.00 m kf. ka = 7.2×10-4

Answers

pH = 3.15 to calculate the pH of the solution, we need to first calculate the concentration of H+ ions. We can do this by using the Ka expression for HF:

[tex]Ka = [H+][F-]/[HF][/tex]

We can assume that [F-] is equal to the initial concentration of KF, which is 1.00 M. Let's represent the concentration of H+ ions as x:

[tex]Ka = (x)(1.00)/(0.61 - x)[/tex]

Simplifying and solving for x:

[tex]x = 1.4 x 10^-3 M[/tex]

Now that we have the concentration of H+ ions, we can use the pH equation:

[tex]pH = -log[H+] pH = -log(1.4 x 10^-3) pH = 3.15[/tex]

Therefore, the pH of the solution is 3.15.

The problem involves calculating the pH of a solution containing a weak acid (HF) and its conjugate base (F-) as well as a salt (KF). To calculate the pH, we first use the Ka expression for the weak acid to determine the concentration of H+ ions in the solution. We then use the pH equation to calculate the pH from the H+ ion concentration. In this problem, we assume that the concentration of F- ions is equal to the initial concentration of KF since KF dissociates completely in water.

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The standard heat of vaporization of acetone is 31.3 kj/mol and its normal boiling point is 56°c. calculate the change in entropy when 2.50 mol of acetone are vaporized.

Answers

Total ΔS = (2.50 mol) * (95.1 J/mol·K) ≈ 237.75 J/K

The change in entropy when 2.50 mol of acetone are vaporized, we need to use the equation:
ΔS = qrev/T
qrev = ΔHvap * n
where qrev is the reversible heat transfer, ΔHvap is the heat of vaporization, and n is the number of moles of acetone.
Plugging in the values given in the problem, we get:
qrev = 31.3 kJ/mol * 2.50 mol
qrev = 78.25 kJ
Now we can use this value to calculate the change in entropy:
ΔS = qrev/T
To find the temperature, we need to convert the boiling point of acetone from Celsius to Kelvin:
T = (56 + 273.15) K
T = 329.15 K
Now we can plug in the values and solve for ΔS:
ΔS = 78.25 kJ / 329.15 K
ΔS = 0.238 kJ/K
The change in entropy when 2.50 mol of acetone are vaporized is 0.238 kJ/K.
The change in entropy (ΔS) when 2.50 mol of acetone are vaporized, we can use the equation:
ΔS = (ΔH_vap) / T
The ΔH_vap is the heat of vaporization (31.3 kJ/mol) and T is the boiling point in Kelvin (56°C + 273.15 = 329.15 K).
Convert the heat of vaporization to J/mol:
31.3 kJ/mol * 1000 J/kJ = 31300 J/mol
ΔS = (31300 J/mol) / (329.15 K) ≈ 95.1 J/mol·K

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The enthalpy of solution of calcium chloride is negative_ That means that:a. when calcium chloride is dissolved in water; the temperature of the surroundings increases_b. It requires lots of energy to pull the calcium ions apart from the chloride ionsc. Calcium chloride is insoluble in waterd. when calcium chloride is dissolved in water;_ the temperature of the surroundings decreasese. Calcium chloride is very unreactive

Answers

The enthalpy of solution of calcium chloride is negative, which means that when calcium chloride is dissolved in water, the temperature of the surroundings decreases. This is because the process of dissolving calcium chloride in water releases energy in the form of heat.

In other words, the enthalpy change is exothermic, which means that energy is being released.
Contrary to option b, it does not require a lot of energy to pull the calcium ions apart from the chloride ions. In fact, calcium chloride is highly soluble in water due to the strong attraction between the ions and the polar water molecules.
Option c is also incorrect as calcium chloride is highly soluble in water. It can dissolve in water to form a clear, colorless solution.
Finally, option e is not related to the enthalpy of solution of calcium chloride. The negative enthalpy change simply indicates that energy is released when calcium chloride is dissolved in water.
In conclusion, the correct answer is option d - when calcium chloride is dissolved in water, the temperature of the surroundings decreases due to the release of energy in the form of heat.
The enthalpy of solution of calcium chloride is negative, which means that when calcium chloride is dissolved in water, the process is exothermic. Consequently, option a is correct: the temperature of the surroundings increases as heat is released when calcium chloride dissolves in water. This occurs because the energy released from the interactions between calcium ions, chloride ions, and water molecules outweighs the energy required to separate the ions.

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Identify the electron configuration for each of the following ions: (a) A carbon atom with a negative charge (b) A carbon atom with a positive charge (c) A nitrogen atom with a positive charge (d) An oxygen atom with a negative charge

Answers

Here are the electron configurations for each of the ions that are mentioned:

(a) A carbon atom with a negative charge:
To determine the electron configuration for a negative ion, we add electrons to the neutral atom's electron configuration. For carbon, the neutral atom has 6 electrons. Adding one electron gives us:
1s² 2s² 2p³
(b) A carbon atom with a positive charge:
To determine the electron configuration for a positive ion, we remove electrons from the neutral atom's electron configuration. For carbon, the neutral atom has 6 electrons. Removing one electron gives us:
1s² 2s² 2p²
(c) A nitrogen atom with a positive charge:
To determine the electron configuration for a positive ion, we remove electrons from the neutral atom's electron configuration. For nitrogen, the neutral atom has 7 electrons. Removing one electron gives us:
1s² 2s² 2p³
(d) An oxygen atom with a negative charge:
To determine the electron configuration for a negative ion, we add electrons to the neutral atom's electron configuration. For oxygen, the neutral atom has 8 electrons. Adding one electron gives us:
1s² 2s² 2p⁴.

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18th and 19th century research in gases led to the acceptance of what principle theory of science

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The 18th and 19th century research in gases led to the acceptance of the kinetic-molecular theory of gases.

The kinetic-molecular theory of gases is a scientific principle that describes the behavior of gases at the molecular level. It was developed during the 18th and 19th centuries based on experimental observations and mathematical models. The theory states that:

Gases consist of tiny particles, such as atoms or molecules, that are in constant motion.

The particles are in constant collision with each other and with the walls of the container in which they are contained.

The average speed of the particles is directly proportional to the Kelvin temperature of the gas.

The pressure of a gas is directly proportional to the number of particles in the gas and to the average kinetic energy of the particles.

The kinetic-molecular theory of gases provided a more accurate and detailed explanation of the behavior of gases than the previous empirical models. It laid the foundation for the development of modern chemistry and physics and continues to be an important concept in these fields today.  

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What is the standard enthalpy of the reaction CO+H2O --> CO2+H2?

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The standard enthalpy of the reaction CO + H2O → CO2 + H2 is -679.3 kJ/mol. The standard enthalpy of the reaction CO + H2O → CO2 + H2 can be determined by calculating the difference in the standard enthalpies of formation between the products and the reactants.

The enthalpy change for this reaction is -41.2 kJ/mol.

The standard enthalpy of a reaction is the difference in the standard enthalpies of formation between the products and the reactants. The standard enthalpy of formation is the enthalpy change when one mole of a compound is formed from its constituent elements in their standard states.

To determine the standard enthalpy of the reaction CO + H2O → CO2 + H2, we need to subtract the sum of the standard enthalpies of the formation of the reactants from the sum of the standard enthalpies of the formation of the products.

The standard enthalpy of the formation of CO2 is -393.5 kJ/mol, and the standard enthalpy of the formation of H2O is -285.8 kJ/mol. The standard enthalpies of the formation of CO and H2 are zero since they are elements in their standard states.

Using these values, we can calculate the standard enthalpy of the reaction:

Standard enthalpy of reaction = Σ(standard enthalpies of formation of products) - Σ(standard enthalpies of formation of reactants)

Standard enthalpy of reaction = [(-393.5 kJ/mol) + (-285.8 kJ/mol)] - [0 + 0]

Standard enthalpy of reaction = -679.3 kJ/mol

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you need to make a solution containing 150 g of potassium chloride in 300 g of water what temperature is required

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Since 267.86 g is less than the 300 g of water we have, we can dissolve 150 g of potassium chloride in 300 g of water at a temperature of 70°C.

The solubility of potassium chloride in water varies with temperature. To determine the temperature required to dissolve 150 g of potassium chloride in 300 g of water, we need to consult a solubility chart or table.

At 20°C, the solubility of potassium chloride in water is approximately 34 g/100 g of water. This means that 100 g of water at 20°C can dissolve 34 g of potassium chloride. To dissolve 150 g of potassium chloride, we would need:

150 g / 34 g/100 g = 441.18 g of water

Since we only have 300 g of water, we need to increase the temperature to dissolve all of the potassium chloride. At 70°C, the solubility of potassium chloride in water is approximately 56 g/100 g of water. This means that 100 g of water at 70°C can dissolve 56 g of potassium chloride. To dissolve 150 g of potassium chloride, we would need:

150 g / 56 g/100 g = 267.86 g of water

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calculate the mass percent of a sucrose solution that is made by mixing 4.84 grams of sucrose into 14.7 grams of water. report your answer to one place past the decimal.

Answers

The correct answer is  24.8%.

To calculate the mass percent of sucrose, we need to follow the given steps.

First, we need to calculate the total mass of the solution:

Total mass = mass of sucrose + mass of water

Total mass = 4.84 g + 14.7 g

Total mass = 19.54 g

Next, we need to calculate the mass of the sucrose in the solution:

Mass of sucrose in solution = 4.84 g

Now we can calculate the mass percent of sucrose in the solution:

Mass percent = (mass of sucrose in solution / total mass of solution) x 100%

Mass percent = (4.84 g / 19.54 g) x 100%

Mass percent = 24.8%

Therefore, the mass percent of the sucrose solution is 24.8%.

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if 3.41 g of nitrogen react with 2.79 g of hydrogen to produce ammonia, what is the limiting reactant and what mass of ammonia is produced?if 3.41 g of nitrogen react with 2.79 g of hydrogen to produce ammonia?

Answers

Explanation:

N2 + 3H2 —————-> 2NH3

Mass of nitrogen = 3.41 g

Mass of hydrogen = 2.79 g

Change it into moles

No of moles (N2) = (mass in grams)/molar mass

No of moles (N2) = 3.14/14 = 0.22 mol

No of moles (H2) = 2.79/2 = 1.4 mol

Than we find which moles produce less moles of NH3

According to equation

1 mole nitrogen produce NH3 = 2 mol

0.22 mole nitrogen produce NH3 = 2 x 0.22 = 0.44

3 mole hydrogen produce NH3 = 2 mol

1 mole hydrogen produce NH3 = 2/3 = 0.67 mol

1.4 mole hydrogen produce NH3 = 0.67x 1.4= 0.93 mol

So

nitrogen produce NH3 = 0.44 mol

Hydrogen produce NH3 = 0.93 mol

So nitrogen produce less moles of NH3 so it is limiting reactant.

In that reaction 0.44 mol ammonia is produced

Nitrogen is a commonly used gas. Which of the following are properties of nitrogen?
choices:
low bptability to support combustionability to change color with temperaturehigh solubility in waterlack of chemical reactivity

Answers

Among the given options , 1. Low boiling point, 2. Ability to support combustion, 3. Ability to change colour with temperature,4. High solubility in water, 5. Lack of chemical reactivity, the properties of nitrogen which is a commonly used gas are: 1. Low boiling point: Nitrogen has a low boiling point of -195.8°C (-320.4°F) , 5. Lack of chemical reactivity: Nitrogen is a relatively inert gas and does not easily react with other substances.

The properties of nitrogen include a low boiling point, the inability to support combustion, a lack of chemical reactivity, and a colourless and odourless gas. It has low solubility in water and does not change colour with temperature.

Therefore, the correct answer is low boiling point and lack of chemical reactivity.

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Calculate the energy required to heat 1.40kg of iron from −5.5°C to 15.7°C. Assume the specific heat capacity of iron under these conditions is 0.449J·g−1K−1. Be sure your answer has the correct number of significant digits

Answers

The energy required to heat 1.40 kg of iron from -5.5°C to 15.7°C is approximately 1.34 x 10^4 J.

The formula to calculate the energy (Q) required to heat a substance is given by:

Q = mcΔT

where Q is the energy, m is the mass of the substance, c is the specific heat capacity, and ΔT is the change in temperature.

Given:

Mass of iron (m) = 1.40 kg

Specific heat capacity of iron (c) = 0.449 J·g^−1·K^−1

Change in temperature (ΔT) = 15.7°C - (-5.5°C) = 21.2°C

To use the specific heat capacity in joules per kilogram per degree Celsius, we need to convert the mass from kilograms to grams.

1 kg = 1000 g

Therefore, the mass of iron (m) in grams is 1.40 kg * 1000 g/kg = 1400 g.

Substituting the values into the formula:

Q = (1400 g) * (0.449 J·g^−1·K^−1) * (21.2°C)

Calculating the result:

Q = 13369.536 J

Rounded to the correct number of significant digits:

Q = 1.34 x 10^4 J

Therefore, the energy required to heat 1.40 kg of iron from -5.5°C to 15.7°C is approximately 1.34 x 10^4 J.

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Determine the number of atoms across the diameter of a human hair given that the diameter of an atom is 0.1 nm and the diameter of a human hair is 0.1 mm

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There are approximately 1,000,000 atoms across the diameter of a human hair.

How to determine the number of atoms across the diameter of a human hair?

To determine the number of atoms across the diameter of a human hair, we need to compare the sizes of the atom and the human hair.

Given:

Diameter of an atom = 0.1 nm

Diameter of a human hair = 0.1 mm

First, we need to convert the diameter of the human hair to the same unit as the diameter of the atom. Since 1 mm = 1,000,000 nm, we have:

Diameter of a human hair = 0.1 mm = 0.1 × 1,000,000 nm = 100,000 nm

Now, we can calculate the number of atoms across the diameter of the human hair by dividing the diameter of the hair by the diameter of the atom:

Number of atoms across the diameter of the human hair = Diameter of the hair / Diameter of the atom

                                                    = 100,000 nm / 0.1 nm

                                                    = 1,000,000 atoms

Therefore, there are approximately 1,000,000 atoms across the diameter of a human hair.

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Calculate the specific heat of a ceramic given that the input of 250.0 J to a 75.0 g sample causes the temperature to increase by 4.66 °C. a) 0.840 J/gc e) 10.7 Jg b) 1.39 J/g d) 0.715 J/gc e) 3.00 J/gc

Answers

The specific heat of a substance is the amount of energy required to raise the temperature of 1 gram of that substance by 1 degree Celsius. In this case, we have a ceramic sample with a mass of 75.0 grams and an input of 250.0 J of energy that causes a temperature increase of 4.66 °C.

To calculate the specific heat, we can use the formula:
q = m * c * ΔT
where q is the amount of heat energy, m is the mass of the substance, c is the specific heat, and ΔT is the change in temperature.
We know that q = 250.0 J, m = 75.0 g, and ΔT = 4.66 °C. So we can rearrange the formula to solve for c:
c = q / (m * ΔT)
Plugging in the values, we get:
c = 250.0 J / (75.0 g * 4.66 °C)
c = 0.840 J/g°C
Therefore, the specific heat of the ceramic sample is 0.840 J/g°C. Option (a) is the correct answer.

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What is the boiling point, in °C, of
a 1.3 m solution of C6H14 in
benzene?

Answers

The boiling point of the 1.3 m solution of C₆H₁₄ in benzene is  83.5 °C.

What is the boiling point, of a 1.3 m solution of C6H14 in benzene?

The boiling point of the 1.3 m (molality) solution of C₆H₁₄ in benzene is determined using the equation:

ΔT = Kb * m

where

ΔT is the boiling point elevation,Kb is the molal boiling point elevation constant of the solvent (benzene), andm is the molality of the solution.

Given data:

Kb (benzene) = 2.65 °C/m

m = 1.3 m

Substituting the values into the equation:

ΔT = 2.65 °C/m * 1.3 m

ΔT = 3.445 °C

Boiling point of the solution = Boiling point of benzene + ΔT

Boiling point of the solution = 80.10 °C + 3.445 °C

Boiling point of the solution  = 83.545 °C

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The enthalpy of fusion, or heat of fusion (AHfusion), of water is positive and corresponds to which physical change? H2O(l)-H2O(s) 1.10 H20(g)--H2O(s) H20(s) H2O(g) H2O(s)-H200)

Answers

The value of AHfusion for water is approximately 6.01 kJ/mol, which is relatively high compared to other substances due to the strong hydrogen bonding between water molecules.

The enthalpy of fusion, or AHfusion, refers to the energy required to melt or freeze a substance at its melting point. In the case of water, the AHfusion value is positive, indicating that it requires energy input to melt ice and convert it to liquid water.

Therefore, the physical change that corresponds to the AHfusion of water is H2O(s) - H2O(l). This means that when solid ice (H2O(s)) is heated to its melting point, energy is required to break the hydrogen bonds between water molecules and convert them into liquid water (H2O(l)). The value of AHfusion for water is approximately 6.01 kJ/mol, which is relatively high compared to other substances due to the strong hydrogen bonding between water molecules. This property of water plays an important role in its unique behavior and properties, such as its high specific heat capacity and thermal stability.

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he nitrogen atoms in n2 participate in multiple bonding, whereas those in hydrazine, n2h4, do not. part a complete lewis structures for both molecules. you may draw them in any order.a.) Draw Lewis structures for both molecules. b.) What is the hybridization of the nitrogen atoms in each molecule? c.) Which molecule has a stronger N-N bond?

Answers

N2: N≡N

N2H4: H2N-NH2b)

N2: sp hybridization for both nitrogen atoms

N2H4: sp3 hybridization for both nitrogen atomsc) N2 has a stronger N-N bond due to the triple bond between the nitrogen atoms, which involves a strong sigma and two pi bonds. In N2H4, the N-N bond is a single bond, which is weaker than the triple bond in N2.

In N2, both nitrogen atoms have a lone pair of electrons and three sigma bonds with the other nitrogen atom, forming an sp hybridization. In addition, there are two pi bonds that result from the overlap of p orbitals of the nitrogen atoms. This triple bond is very strong and requires a lot of energy to break.In contrast, in N2H4, each nitrogen atom has two sigma bonds and two lone pairs of electrons, leading to an sp3 hybridization. There are no pi bonds present, as there are no unpaired electrons in the p orbitals. The N-N bond in N2H4 is a single bond, which is weaker than the triple bond in N2.Overall, the bonding in both molecules is due to the sharing of electrons between the nitrogen atoms, but the number and type of bonds differ due to the different hybridization and electron arrangement of the nitrogen atoms.

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Decide whether a chemical reaction happens in either of the following situations. If a reaction does happen, write the chemical equation for it. Be sure your chemical equation is balanced and has physical state symbols.
A strip of solid lead metal is put into a beaker of 0.065M Cu(NO3)2 solution.
A strip of solid copper metal is put into a beaker of 0.096M Pb(NO3)2solution.

Answers

The chemical equation is as :

Fe(s)  +  Pb(NO₃)₂(aq)  ---->  Fe(NO₃)₂(aq)  +   Pb(s)

The Single displacement reaction is the reaction in which the reaction in that the more reactive metal will be displaces aa the less reactive metal in its chemical reaction.

The general equation is :

AB  +  C --->  CB  +  A

The C is the more reactive element than the element A.

The reactivity of the metals is explained by the series that is known as the reactivity series.

1. When the solid lead metal will be put in the beaker of the 0.065 M  solution.

Pb(s)  +   Fe(NO₃)₂(aq)  --->  no reaction

2. When the solid iron metal will be put in the beaker of the 0.096 M  solution.

Fe(s)  +  Pb(NO₃)₂(aq)  ---->  Fe(NO₃)₂(aq)  +   Pb(s)

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TRUE/FALSE.Methane absorbs red light readily, so we would expect a planet with a mostly methane atmosphere to appear blue.

Answers

Methane absorbs red light readily, so we would expect a planet with a mostly methane atmosphere to appear blue. The statement is false.

Methane absorbs red light, but it does not readily absorb it. Methane primarily absorbs light in the infrared range, particularly wavelengths longer than red light. This absorption gives rise to the characteristic reddish color observed in some gas giants, such as Jupiter. In the case of a planet with a mostly methane atmosphere, the methane would scatter and absorb light differently depending on the wavelengths involved. While methane absorbs longer-wavelength light, it scatters shorter-wavelength light more effectively. As a result, the scattered light may have a bluish hue.

Therefore, a planet with a predominantly methane atmosphere would not appear blue as a direct consequence of methane’s absorption of red light. The actual appearance of such a planet would depend on various factors, including the specific composition of the atmosphere, the presence of other molecules or aerosols, and the scattering and absorption properties of those substances across the entire visible spectrum.

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identify those elements that can be isolated by electrolysis of their aqueous salts. (select all that apply.) barium chlorine lithium bromine

Answers

In the list of elements (barium, chlorine, lithium, and bromine), the ones that can be isolated through electrolysis are chlorine, lithium, and bromine.

Electrolysis is a process used to isolate elements from their aqueous salts by passing an electric current through a solution containing ions.

Chlorine and bromine are both halogens (Group 17 elements), which can be isolated during the electrolysis of their respective salts, such as sodium chloride (NaCl) and sodium bromide (NaBr). In these cases, the halogen ions are reduced at the anode, releasing chlorine or bromine gas.

Lithium, an alkali metal (Group 1 element), can also be isolated via electrolysis. During the process, lithium ions in a lithium salt solution (e.g., lithium chloride, LiCl) are reduced at the cathode, forming solid lithium.

Barium, an alkaline earth metal (Group 2 element), is not efficiently isolated using electrolysis of its aqueous salts due to its high reactivity with water and the solubility of its hydroxide. Instead, other methods, such as reduction of barium oxide with aluminum, are used to isolate barium.

In summary, chlorine, lithium, and bromine can be isolated through electrolysis of their aqueous salts, while barium cannot be efficiently isolated using this method.

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the solubility of la(io3)3 in a 0.10 m kio3 solution is 1.0 × 10–7 mol/l. calculate ksp for la(io3)3

Answers

The solubility product constant (Ksp) for La(IO₃)₃is 2.7 × 10⁻²⁹. To solve this problem, we need to use the solubility product constant (Ksp) equation, which is defined as the product of the concentrations of the ions in a saturated solution at equilibrium.

The equation for the dissolution of La(IO₃)₃ in water is: La(IO₃)₃ (s) ⇌ La³⁺ (aq) + 3 IO₃⁻ (aq)

The Ksp expression for this reaction is:

Ksp = [La³⁺][IO₃⁻]³

We are given that the solubility of La(IO₃)₃ in a 0.10 M KIO₃ solution is 1.0 × 10⁻⁷ mol/L. This means that at equilibrium, the concentration of La³⁺ ions in solution is equal to 1.0 × 10⁻⁷ mol/L, and the concentration of IO₃⁻ ions in solution is equal to 3 × 1.0 × 10⁻⁷ mol/L, since there are three IO₃⁻ ions for every La(IO₃)₃ molecule that dissolves.

Substituting these values into the Ksp expression, we get:

Ksp = (1.0 × 10⁻)(3 × 1.0 × 10⁻⁷)³
Ksp = 2.7 × 10⁻⁹

Therefore, the solubility product constant (Ksp) for La(IO₃)₃ is 2.7 × 10⁻²⁹.

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Consider the following reaction:
CO(g)+2H2(g)⇌CH3OH(g)
Kp=2.26×104 at 25 ∘C. Calculate ΔGrxn for the reaction at 25 ∘C under each of the following conditions.
Part A:
standard conditions
Part B:
at equilibrium
Part C:
PCH3OH= 1.1 atm ;
PCO=PH2= 1.3×10−2 atm
Express your answer using two significant figures.

Answers

ΔGrxn=-6.2 kJ/mol under standard conditions, 0 kJ/mol at equilibrium, and -7.7 kJ/mol at given pressures.


ΔGrxn is the change in Gibbs free energy for the reaction CO(g)+2H2(g)⇌CH3OH(g), and it can be calculated using the equation ΔGrxn=ΔHrxn-TΔSrxn, where ΔHrxn is the change in enthalpy and ΔSrxn is the change in entropy.

Under standard conditions, ΔGrxn is -6.2 kJ/mol.

At equilibrium, the reaction has reached a state of minimum Gibbs free energy, so ΔGrxn is 0 kJ/mol.

Under the given pressures of PCH3OH=1.1 atm and PCO=PH2=1.3×10−2 atm, ΔGrxn is -7.7 kJ/mol.

These calculations show the thermodynamic feasibility and spontaneity of the reaction under different conditions

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Equilibrium is a state where the forward and reverse reactions of a chemical equation are occurring at equal rates. In other words, the concentrations of reactants and products are constant over time. The value of Kp, the equilibrium constant, helps determine the position of the equilibrium and the relative amounts of reactants and products at equilibrium.

To calculate ΔGrxn for the given reaction at 25 ∘C under different conditions, we can use the equation ΔGrxn = -RTln(Kp), where R is the gas constant and T is the temperature in Kelvin.
Part A:
Under standard conditions, the pressure is 1 atm and the concentration of all species is 1 M. Therefore, we can use the standard value of Kp = 2.26×10⁴ to calculate ΔGrxn.
ΔGrxn = -RTln(Kp) = -(8.314 J/mol K)(298 K)ln(2.26×10⁴) = -43.1 kJ/mol
Part B:
At equilibrium, the reaction quotient Qp is equal to Kp. Therefore, we can use the equilibrium pressure values given to calculate Qp and then use that to calculate ΔGrxn.
Qp = PCH3OH / (PCO x PH2²) = (1.1 atm) / (1.3×10⁻² atm x (1.3×10^-2 atm))^2 = 23.1
ΔGrxn = -RTln(Qp) = -(8.314 J/mol K)(298 K)ln(23.1) = 13.8 kJ/mol
Part C:
The given pressures are not at equilibrium, so we need to calculate Qp using these values and then use that to calculate ΔGrxn.
Qp = PCH3OH / (PCO x PH2²) = (1.1 atm) / (1.3×10⁻²atm x (1.3×10⁻²atm))²= 23.1
ΔGrxn = -RTln(Qp/Kp) = -(8.314 J/mol K)(298 K)ln(23.1/2.26×10⁴) = 41.9 kJ/mol

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A sample of helium is initially at 605 torr in
a volume of 2.85 L.
At 24.7 °C you found the density of He to
be 0.130 g/L and the density of Ar to be
1.30 g/L even though both samples had
the same number of moles. Which one of
the following best explains why the
densities are different?

Answers

The reason why the densities of helium (He) and argon (Ar) are different despite having the same number of moles is due to their difference in molar mass (molecular weight).

The density of a gas is dependent on its molecular weight.  Even though both samples have the same number of moles, the molecular weight of helium (4 g/mol) is much smaller than that of argon (40 g/mol).

Therefore, the helium sample will have a lower density than the argon sample, even if they are at the same pressure and temperature.

Since density is mass divided by volume, the difference in molar mass results in different densities for the two gases, with helium being less dense than argon.

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Find the enthalpy of hydration for an iodide ion in the process Rbl - Rb+ +|-. Use AHsol = - Hat + Hhydr.


AHsoi = 31. 0 kJ/mol


A Hiat = -630. 0 kJ/mol


AHnydr of Rb* = -315. 0 kJ/


mol


0-661. 0 kJ/mol


0-661 kJ/mol


0-284. 0 kJ/mol


0-284 kJ/mol

Answers

To find the enthalpy of hydration (ΔHhydr) for an iodide ion (I-) using the given equation ΔHsol = -ΔHat + ΔHhydr, we need to substitute the given values.

Given:

ΔHsol = 31.0 kJ/mol

ΔHat = -630.0 kJ/mol

ΔHhydr of Rb+ = -315.0 kJ/mol

Using the equation ΔHsol = -ΔHat + ΔHhydr, we rearrange it to solve for ΔHhydr:

ΔHhydr = ΔHsol + ΔHat

Substituting the values:

ΔHhydr = 31.0 kJ/mol + (-630.0 kJ/mol)

ΔHhydr = -599.0 kJ/mol

Therefore, the enthalpy of hydration for the iodide ion (I-) in this process is approximately -599.0 kJ/mol. The negative sign indicates an exothermic process, where energy is released during the hydration of the iodide ion.

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What is the molar solubility of pbbr2pbbr2 in 0.500 m kbr0.500 m kbr solution?

Answers

The answer is 4.98 x 10^-6 mol/L.

The molar solubility of pbbr2pbbr2 in a 0.500 m kbr solution can be calculated using the common ion effect. KBr, which is a salt of a strong acid (HBr) and a strong base (KOH),

dissociates completely in water to form K+ and Br- ions. PbBr2, on the other hand, is a sparingly soluble salt that dissociates in water to form Pb2+ and 2Br- ions.

When PbBr2 is added to a solution containing KBr, the concentration of Br- ions increases due to the dissociation of both salts.

This increase in the concentration of Br- ions shifts the equilibrium of PbBr2 dissociation towards the formation of undissociated PbBr2. As a result, the molar solubility of PbBr2 decreases in the presence of KBr.



To calculate the molar solubility of PbBr2 in a 0.500 m KBr solution, we need to use the solubility product constant (Ksp) of PbBr2. The expression for Ksp is:

Ksp = [Pb2+][Br-]^2

Assuming that the molar solubility of PbBr2 in pure water is x, the equilibrium concentrations of Pb2+ and Br- ions in a 0.500 m KBr solution can be expressed as:

[Pb2+] = x


[Br-] = 2x + 0.500

Substituting these values into the Ksp expression gives:

Ksp = x(2x + 0.500)^2



We can solve for x by substituting the Ksp value of PbBr2 (6.60 x 10^-6) and solving for x using a quadratic equation. The molar solubility of PbBr2 in a 0.500 m KBr solution is found to be 4.98 x 10^-6 mol/L.



In summary, the molar solubility of PbBr2 in a 0.500 m KBr solution is lower than its solubility in pure water due to the common ion effect.

The calculation involves using the solubility product constant and assuming an equilibrium concentration of the ions in the solution. The answer is 4.98 x 10^-6 mol/L.

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A given volume of methane diffuses in 20 seconds how long will it take the same volume of sulphur(IV) oxide to diffuse under the same condition

Answers

The rate of diffusion of a gas is inversely proportional to the molecular weight of the gas.r ∝ 1/√Molecular weight. On comparing the molecular weight of methane (CH4) and sulfur (IV) oxide (SO2) we have The molecular weight of methane (CH4) = 12 + (4 × 1) = 16, Molecular weight of sulfur (IV) oxide (SO2) = 32 + (2 × 16) = 64.

Since the molecular weight of SO2 is greater than that of CH4, then its rate of diffusion will be slower than that of CH4.

To determine how long SO2 will take to diffuse under the same condition, we can make use of Graham’s Law of diffusion.r1/r2 = sqrt(M2/M1), Where: r1 is the rate of diffusion of the first gas (CH4)r2 is the rate of diffusion of the second gas (SO2), M1 is the molecular weight of the first gas (CH4)M2 is the molecular weight of the second gas (SO2).

Hence:r1/r2 = sqrt(M2/M1)r1 = rate of diffusion of methane = 1 (given), r2 = rate of diffusion of sulfur (IV) oxide, M1 = molecular weight of methane = 16, M2 = molecular weight of sulfur (IV) oxide = 64, r2 = r1 * sqrt(M1/M2)r2 = 1 * sqrt(16/64) = 0.5.

Therefore, it will take the same volume of sulfur (IV) oxide (SO2) twice the time it takes for methane (CH4) to diffuse under the same conditions.

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You are at the beach with a 2.00 liter balloon at sea level. the temperature outside is 28.0 °c. you take your balloon to the mountains where the pressure drops to 0.870 atm and the volume increases to 2.10 liters. what is the temperature outside in celsius?

Answers

The temperature outside at the mountains is approximately 25.3 °C. This can be calculated using the combined gas law, which relates the initial and final conditions of pressure, volume, and temperature.

The combined gas law is expressed as P1 * V1 / T1 = P2 * V2 / T2, where P1 and P2 are the initial and final pressures, V1 and V2 are the initial and final volumes, and T1 and T2 are the initial and final temperatures. We are given P1 = 1 atm, V1 = 2.00 L, P2 = 0.870 atm, V2 = 2.10 L, and T1 = 28.0 °C.

First, we convert the temperatures to Kelvin by adding 273.15 to each value. Therefore, T1 = 301.15 K. Rearranging the equation to solve for T2, we have T2 = (P2 * V2 * T1) / (P1 * V1). Substituting the given values, we find T2 = (0.870 atm * 2.10 L * 301.15 K) / (1 atm * 2.00 L), which simplifies to approximately 298.45 K.

Converting the result back to Celsius by subtracting 273.15, we find that the temperature outside at the mountains is approximately 25.3 °C.

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a barrier with yellow and purple markings indicates a _____. group of answer choices fire hazard fall hazard radiation hazard confined space hazard

Answers

In safety and hazard communication, specific colors and markings are used to convey different types of hazards.  A barrier with yellow and purple markings indicates a radiation hazard.

In safety and hazard communication, specific colors and markings are used to convey different types of hazards. One such color combination is yellow and purple, which is commonly associated with a radiation hazard.

Radiation hazards refer to situations where there is potential exposure to ionizing radiation, such as alpha particles, beta particles, gamma rays, or X-rays. These types of radiation can have harmful effects on living organisms and require proper precautions to minimize the risks.

The use of a barrier with yellow and purple markings serves as a visual warning to indicate the presence of a radiation hazard. It alerts individuals to exercise caution, restrict access to the area, and take necessary safety measures to prevent unnecessary exposure. This may include the use of personal protective equipment (PPE), adherence to safety protocols, and following established procedures for handling and controlling radiation source.

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How many coulombs of charge are required to cause reduction of 0.20 mole of Cr3+ to Cr? A) 0.60 C B) 3.0 C C) 2.9

Answers

The correct number of coulombs of charge required to cause a reduction of 0.20 mole of Cr3+ to Cr is 0.60 C. The correct option is (a).

To determine how many coulombs of charge are required to cause a reduction of 0.20 mole of Cr3+ to Cr, we need to use Faraday's constant, which is the amount of charge carried by one mole of electrons. Faraday's constant is equal to 96,485 coulombs per mole of electrons.

The balanced equation for the reduction of Cr3+ to Cr is:

Cr3+ + 3e- → Cr

From the equation, we can see that 3 moles of electrons are required to reduce 1 mole of Cr3+ to Cr. Therefore, to reduce 0.20 mole of Cr3+ to Cr, we need:

0.20 mol Cr3+ × (3 mol e- / 1 mol Cr3+) = 0.60 mol e-

Now, we can use Faraday's constant to convert the number of moles of electrons to coulombs of charge:

0.60 mol e- × (96,485 C / 1 mol e-) = 57,891 C

Therefore, the correct option is (a).

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The correct number of coulombs of charge required to cause a reduction of 0.20 mole of Cr3+ to Cr is 0.60 C. The correct option is (a).

To determine how many coulombs of charge are required to cause a reduction of 0.20 mole of Cr3+ to Cr, we need to use Faraday's constant, which is the amount of charge carried by one mole of electrons. Faraday's constant is equal to 96,485 coulombs per mole of electrons. 

The balanced equation for the reduction of Cr3+ to Cr is:Cr3+ + 3e- → CrFrom the equation, we can see that 3 moles of electrons are required to reduce 1 mole of Cr3+ to Cr. Therefore, to reduce 0.20 mole of Cr3+ to Cr, we need:0.20 mol Cr3+ × (3 mol e- / 1 mol Cr3+) = 0.60 mol e-Now, we can use Faraday's constant to convert the number of moles of electrons to coulombs of charge:0.60 mol e- × (96,485 C / 1 mol e-) = 57,891 C Therefore, the correct option is (a).

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what molality of a nonelectrolyte solute is needed to lower the melting point of camphor by 1 c (of=39.7 c/m)

Answers

The molality of the solute needed to lower the melting point of camphor by 1 °C is m = 1 °C / 39.7 °C/m, which is approximately 0.025 mol/kg.

To calculate the molality needed to lower the melting point of camphor by 1°C, we can use the formula:

ΔT = Kf * molality

Here, ΔT is the change in melting point (1°C), Kf is the cryoscopic constant for camphor (39.7 °C/m), and molality is the molality of the nonelectrolyte solute.

Rearranging the formula to find molality:

molality = ΔT / Kf

Substitute the known values:

molality = 1°C / 39.7 °C/m molality ≈ 0.0252 mol/kg

Therefore, a molality of approximately 0.0252 mol/kg of a nonelectrolyte solute is needed to lower the melting point of camphor by 1°C.

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what type of alcohol results when a grignard reagent reacts with a ketone (followed by h2o)? primary secondary tertiary

Answers

Tertiary type of alcohol results when a grignard reagent reacts with a ketone.

Option C is correct.

What are Grignard Reagents?

An organomagnesium compound known as a Grignard reagent has the chemical formula "R-Mg-X," where R denotes an alkyl or aryl group and X denotes a halogen. They are typically made by reacting magnesium with an aryl or alkyl halide.

How does Grignard reagent function?

A halogen compound's number of halogen atoms can be determined using Grignard reagents. Grignard degradation is utilized in numerous cross-coupling reactions and the chemical analysis of specific triacylglycerols for the formation of numerous carbon-carbon and carbon-heteroatom bonds.

Incomplete question:

what type of alcohol results when a grignard reagent reacts with a ketone (followed by h2o)?

A. primary

B.  secondary

C. tertiary

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