place the following in order of decreasing entropy at 298 k. ar, xe, h2 , c2h4

Answers

Answer 1

Entropy is a measure of the disorder or randomness in a system. The greater the disorder, the higher the entropy. At 298 K, the order of decreasing entropy for the given elements and compounds is as follows: Xe > Ar > C2H4 > H2.

Xenon (Xe) has the highest atomic number among the given elements and is a noble gas, which means it has a filled outer electron shell. It exists as a monatomic gas at standard conditions, making it highly disordered and thus having the highest entropy. Argon (Ar) also belongs to the noble gas family and is a monatomic gas at standard conditions, hence having a slightly lower entropy than Xe. Ethylene (C2H4) is a hydrocarbon and has more degrees of freedom to move and rotate than H2, making it more disordered and having a higher entropy. Hydrogen gas (H2) has the least number of atoms among the given elements and compounds and is the most ordered, having the lowest entropy.
Therefore, the correct order of decreasing entropy at 298 K is Xe > Ar > C2H4 > H2.

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complete question:

place the following in order of decreasing entropy at 298 k. ar, xe, h2 , c2h4

A)Xe > Ar >C2H4 > H2 D)C2H4 > H2 > Xe>Ar B) Ar>Xe > H2 > C2H4 E)H2 > C2H4 > Xe > A


Related Questions

select the solvent that will most effectively dissolve nacl .

Answers

In order to select the solvent that will most effectively dissolve NaCl, we must consider the properties of the compound. NaCl is a salt, which means that it is ionic and has a high melting and boiling point. Therefore, we need a solvent that is capable of breaking the ionic bonds in NaCl and dissolving it.

Water is a common solvent that is highly effective at dissolving NaCl. This is because water molecules are polar, which means that they have a partial positive and negative charge. These charges are able to attract and surround the Na+ and Cl- ions, breaking the ionic bonds and dissolving the compound. Additionally, water is a highly abundant and accessible solvent, making it a practical choice for dissolving NaCl. Overall, water is the best solvent for dissolving NaCl due to its polar nature and accessibility.

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how many moles of na2co3 are needed to react with 550. ml of 0.250 m h2so4 solution?

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To answer this question, we need to use the balanced chemical equation for the reaction between Na2CO3 and H2SO4: Na2CO3 + H2SO4 → Na2SO4 + H2O + CO2. Since the mole ratio of Na2CO3 to H2SO4 is 1:1, the moles of Na2CO3 needed for the reaction are also 0.1375 moles.

From the equation, we can see that 1 mole of Na2CO3 reacts with 1 mole of H2SO4. Therefore, we need to calculate the number of moles of H2SO4 present in 550 ml of 0.250 M solution:
0.250 mol/L x 0.550 L = 0.1375 mol H2SO4
Since we need an equal number of moles of Na2CO3 to react with the H2SO4, we can conclude that we need 0.1375 moles of Na2CO3.
In conclusion, we need 0.1375 moles of Na2CO3 to react with 550 ml of 0.250 M H2SO4 solution.
To determine the moles of Na2CO3 needed to react with a 550 mL of 0.250 M H2SO4 solution, we can use stoichiometry and the balanced chemical equation. The balanced chemical equation for this reaction is:
Na2CO3 + H2SO4 → Na2SO4 + H2O + CO2
From the equation, we can see that 1 mole of Na2CO3 reacts with 1 mole of H2SO4.
To calculate the moles of H2SO4 in the solution, we use the formula:
moles = molarity × volume (in liters)
moles of H2SO4 = 0.250 M × (550 mL / 1000 mL/L) = 0.1375 moles
Since the mole ratio of Na2CO3 to H2SO4 is 1:1, the moles of Na2CO3 needed for the reaction are also 0.1375 moles.

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The following compounds are only slightly soluble in water but one of them is very soluble in a dilute aqueous NaOH solution. The other is still only slightly soluble. OH OH a) Explain the difference in solubility of these compounds in dilute sodium hydroxide. b) Show how this difference might be exploited to separate a mixture of these two compounds using a separatory funnel. (

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a) The difference in solubility of these compounds in dilute sodium hydroxide (NaOH) can be attributed to their respective acid-base properties.

b) The difference in solubility of these compounds in dilute NaOH can be exploited to separate them using a separatory funnel, based on their differential solubility in water and the NaOH solution.

What is a separatory funnel?

A separatory funnel, also known as a separation funnel or separating funnel, is a laboratory apparatus used for the separation of immiscible liquids or liquids with different densities. It consists of a conical-shaped glass or plastic vessel with a stopcock at the bottom and a narrow neck at the top. The stopcock allows for controlled draining of the liquid layers.

a) The difference in solubility of these compounds in dilute sodium hydroxide (NaOH) can be attributed to their respective acid-base properties. One of the compounds is likely an acidic compound that can undergo neutralization with the basic NaOH, forming a soluble salt. This reaction increases its solubility in the NaOH solution. The other compound may not have acidic properties and therefore does not undergo neutralization with NaOH to a significant extent, resulting in its limited solubility.

b) The difference in solubility of these compounds in dilute NaOH can be exploited to separate them using a separatory funnel, based on their differential solubility in water and the NaOH solution.

Here's a general procedure to separate the compounds using a separatory funnel:

1.Prepare a mixture of the two compounds in an organic solvent, such as dichloromethane or ether, which is immiscible with water.

2.Add the mixture to the separatory funnel and add a dilute aqueous NaOH solution to the funnel.

3.Carefully shake the separatory funnel to allow for thorough mixing of the contents.

4.After shaking, let the layers separate. The aqueous layer, containing the NaOH solution, will be at the bottom, while the organic layer, containing the compounds, will be on top.

5.Slowly open the stopcock of the separatory funnel and drain the aqueous layer into a separate container. This aqueous layer will contain the compound that is soluble in dilute NaOH.

6.Repeat the extraction process by adding fresh dilute NaOH solution to the separatory funnel and shaking again. This helps ensure maximum separation of the compounds.

7.After draining the aqueous layer, the remaining organic layer will contain the compound that is only slightly soluble in dilute NaOH.

8.Finally, the organic layer can be evaporated to obtain the compound that is slightly soluble in dilute NaOH.

By exploiting the difference in solubility in dilute NaOH, the compounds can be separated based on their interaction with the NaOH solution, allowing for the isolation of the soluble compound from the mixture.

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what is the energy of a photon that has the same wavelength as a 100-ev electron?

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To determine the energy of a photon with the same wavelength as a 100 eV (electron volt) electron, we need to convert the electron volt energy to joules.

First, we convert the electronvolt energy to joules using the conversion factor: 1 eV = 1.602 × 10^-19 J (joules).

So, 100 eV = 100 × 1.602 × 10^-19 J = 1.602 × 10^-17 J.

Next, we use the equation for the energy of a photon:

Energy (J) = Planck's constant (h) × Speed of light (c) / Wavelength (λ).

Rearranging the equation to solve for wavelength:

Wavelength (λ) = Planck's constant (h) × Speed of light (c) / Energy (J).

The Planck's constant (h) is approximately 6.626 × 10^-34 J·s, and the speed of light (c) is approximately 2.998 × 10^8 m/s.

Plugging in the values:

Wavelength (λ) = (6.626 × 10^-34 J·s × 2.998 × 10^8 m/s) / (1.602 × 10^-17 J) ≈ 1.24 × 10^-9 m or 1.24 nm.

Therefore, a photon with the same wavelength as a 100 eV electron has an energy of approximately 1.602 × 10^-17 J and a wavelength of approximately 1.24 nm.

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Use bond energies provided in the supplemental information to calculate the enthalpy change for the following reaction.
CH4 (g) + 3 Cl2 (g) --> CHCl3 (g) + 3 HCl (g)

Answers

Using bond energies, the enthalpy change for the reaction CH4 (g) + 3 Cl2 (g) → CHCl3 (g) + 3 HCl (g) is calculated to be -529 kJ/mol.

To calculate the enthalpy change (ΔH) for the given reaction, we need to use bond energies and apply

Bonds broken:

4 C-H bonds (4 * 413 kJ/mol) = 1652 kJ/mol

3 Cl-Cl bonds (3 * 243 kJ/mol) = 729 kJ/mol

Bonds formed:

1 C-Cl bond (1 * 328 kJ/mol) = 328 kJ/mol

3 H-Cl bonds (3 * 436 kJ/mol) = 1308 kJ/mol

ΔH = (sum of bond energies of bonds broken) - (sum of bond energies of bonds formed)

= (1652 kJ/mol + 729 kJ/mol) - (328 kJ/mol + 1308 kJ/mol)

= 2381 kJ/mol - 1636 kJ/mol

= 745 kJ/mol

Therefore, the enthalpy change for the reaction CH4 (g) + 3 Cl2 (g) → CHCl3 (g) + 3 HCl (g) is 745 kJ/mol.

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What atomic or hybrid orbitals make up the bond between C1 and C2 in dichloroethylene, CH2CCl2 ?
orbital on C1 + orbital on C2
How many s bonds does C1 have in CH2CCl2 ?
How many bonds does C1 have ?

Answers

The bond between C1 and C2 in dichloroethylene, [tex]CH_2CCl_2[/tex], is formed by the overlap of the sp2 hybrid orbital on C1 and the sp2 hybrid orbital on C2.

This results in the formation of a sigma bond between the two carbon atoms. Additionally, each carbon atom is bonded to two chlorine atoms through sigma bonds formed by the overlap of the remaining sp2 hybrid orbital and the 3p orbital on each chlorine atom. C1 has one sigma bond with each of the two chlorine atoms, resulting in a total of two s bonds. C1 also has one sigma bond with C2, resulting in a total of two bonds. C1 has two s bonds (one with each of the two chlorine atoms) and two bonds (one with each of the two atoms it is directly bonded to).

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How does what you learned in this investigation help you explain why chefs measure the amount of ingredients they need before preparing foods?

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Chefs measure the number of ingredients they need before preparing foods for accuracy, consistency, and balancing flavors.

Measurements ensure accuracy and consistency in recipes. Cooking is a precise process, and precise measurements of ingredients are crucial for achieving the desired taste, texture, and overall outcome of a dish. By measuring ingredients, chefs can replicate their recipes consistently, ensuring that each dish turns out as intended.

Certain ingredients, such as spices, seasonings, and acids, can greatly impact the taste of a dish. By carefully measuring these ingredients, chefs can maintain a precise balance of flavors.

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ΔG° is −21. 8 kJ/mol at 298 K. Calculate ΔG°′ for this process, and calculate ΔG using either the chemical or the biological convention when [NADH] = 1. 5 × 10−2 M, [H+] = 3. 0 × 10−5 M, [NAD] = 4. 6 × 10−3 M, and PH2 = 0. 010 atm.  

Answers

ΔG = ΔG°′ + (0.008314 kJ/(mol·K) * 298 K * ln(Q)) + (0.008314 kJ/(mol·K) * 298 K * ln(10) * -log10([H+]))

To calculate ΔG°′, we can use the equation:

ΔG°′ = ΔG° + RT ln(Q)

Where ΔG° is the standard Gibbs free energy change, R is the gas constant (8.314 J/(mol·K)), T is the temperature in Kelvin (298 K), and Q is the reaction quotient.

First, let's calculate Q using the given concentrations:

Q = ([NAD][H+] / [NADH][PH2])

Q = (4.6 × 10^-3 M * 3.0 × 10^-5 M) / (1.5 × 10^-2 M * 0.010 atm)

Now, let's convert the gas constant from J/(mol·K) to kJ/(mol·K) and calculate ΔG°′:

R = 8.314 J/(mol·K) = 0.008314 kJ/(mol·K)

ΔG°′ = -21.8 kJ/mol + (0.008314 kJ/(mol·K) * 298 K * ln(Q))

Now, to calculate ΔG, we can use either the chemical or biological convention.

Using the chemical convention:

ΔG = ΔG°′ + RT ln(Q)

ΔG = ΔG°′ + (0.008314 kJ/(mol·K) * 298 K * ln(Q))

Using the biological convention:

ΔG = ΔG°′ + RT ln(Q) + RT ln(10) * pH

Where pH is the negative logarithm of [H+].

Note: The above equations assume that the temperature is 298 K and all concentrations and pressures are in their standard states.Please plug in the values for Q, [H+], and calculate ΔG using either the chemical or biological convention based on your requirement.

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the n=1 to n=2 transition for hydrogen is at 121.6 nm. what is the wavelength of the same transition for he (helium with one electron)?

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The wavelength of the n=1 to n=2 transition for helium is approximately 30.4 nm.

The wavelength of the n=1 to n=2 transition for hydrogen is at 121.6 nm. To determine the wavelength of the same transition for helium with one electron, we can use the Rydberg formula:

[tex]\(\frac{1}{\lambda} = R \left(\frac{1}{n_1^2} - \frac{1}{n_2^2}\right)\)[/tex]

where:

- [tex]\(\lambda\)[/tex]is the wavelength of the transition

- R is the Rydberg constant

- [tex]\(n_1\) and \(n_2\)[/tex]are the principal quantum numbers of the initial and final energy levels, respectively.

For the hydrogen transition (n=1 to n=2), we can substitute [tex]\(n_1 = 1\) and \(n_2 = 2\)[/tex] into the formula and solve for [tex]\(\lambda\)[/tex]:

[tex]\(\frac{1}{\lambda_H} = R \left(\frac{1}{1^2} - \frac{1}{2^2}\right)\)[/tex]

Solving this equation gives us [tex]\(\lambda_H = 121.6\)[/tex]nm.

Now, for helium, we know that it has two electrons. Therefore, we need to consider the effective nuclear charge experienced by the electron in the n=2 energy level. This results in a slightly different value for the Rydberg constant, denoted as[tex]\(R^*\).[/tex] The value of[tex]\(R^*\)[/tex] is approximately 4 times larger than[tex]\(R\)[/tex]. Thus, we can use the equation:

[tex]\(\frac{1}{\lambda_{He}} = R^* \left(\frac{1}{1^2} - \frac{1}{2^2}\right)\)[/tex]

Substituting the values, we find:

[tex]\(\frac{1}{\lambda_{He}} = 4R \left(\frac{1}{1^2} - \frac{1}{2^2}\right)\)[/tex]

Simplifying this equation gives us[tex]\(\lambda_{He} = \frac{\lambda_H}{4} = 30.4\) nm.[/tex]

Therefore, the wavelength of the n=1 to n=2 transition for helium is approximately 30.4 nm.

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a typical gamma ray emitted from a nucleus during radioactive decay may have an energy of 320 kev. what is its wavelength?

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To answer this question, we need to use the equation E = hc/λ, where E is the energy of the gamma ray, h is Planck's constant, c is the speed of light, and λ is the wavelength. We know that the energy of the gamma ray is 320 keV, which is equivalent to 320,000 eV. Therefore, the wavelength of a gamma ray with an energy of 320 keV.

First, we need to convert this energy to joules by multiplying by 1.6 x 10^-19 (the conversion factor between electron volts and joules). This gives us an energy of 5.12 x 10^-14 J.
Next, we can rearrange the equation to solve for λ: λ = hc/E. Plugging in the values for h, c, and E, we get:
λ = (6.63 x 10^-34 J s) x (3 x 10^8 m/s) / (5.12 x 10^-14 J)
λ = 1.23 x 10^-10 m
Therefore, the wavelength of a gamma ray with an energy of 320 keV is approximately 1.23 x 10^-10 meters. But it's important to note that gamma rays have very short wavelengths (and high frequencies) due to their high energy. They are used in various applications, including medical imaging and radiation therapy.

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Glycogen phosphorylase a can be inhibited at an allosteric site by:
A) AMP.
B) calcium.
C) GDP.
D) glucagon.
E) glucose.

Answers

Glycogen phosphorylase a is an enzyme that plays a crucial role in the regulation of glycogenolysis, the breakdown of glycogen into glucose. This enzyme can be inhibited at an allosteric site by various factors, including AMP, calcium, GDP, glucagon, and glucose.

Allosteric inhibition occurs when a molecule binds to a site on the enzyme that is separate from the active site and changes the enzyme's shape, ultimately inhibiting its activity. In the case of glycogen phosphorylase a, binding of AMP or calcium to the allosteric site can activate the enzyme, whereas binding of GDP or glucose can inhibit the enzyme. Glucagon, a hormone released by the pancreas in response to low blood glucose levels, can also inhibit glycogen phosphorylase a, among other actions, by activating a signaling pathway that ultimately leads to the phosphorylation and inactivation of the enzyme. We can conclude that glycogen phosphorylase a is a key enzyme in the regulation of glycogenolysis, and its activity is tightly controlled by various factors, including allosteric inhibitors.

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You are a marathon runner and need extra energy for tomorrow’s race. How would
eating pasta (and pie) help your body produce the energy it needs? Be sure to describe
what will happen when you are running the race (and breathing hard)

Answers

Eating pasta and pie will help your body produce the energy it needs because when you eat pasta, your body breaks it down into glucose, a type of sugar that serves as the primary source of energy for your body's cells and then stored in your liver and muscles in the form of glycogen.

When you run the race and start breathing hard, your body will begin to use the glycogen in your muscles for energy. The glycogen is broken down into glucose and released into your bloodstream, where it can be transported to your cells and used as fuel to keep you going.

Eating pie will provide a quick source of energy in the form of simple carbohydrates. These are quickly broken down and absorbed by your body, providing a rapid source of energy. However, it is important to note that simple carbohydrates do not provide sustained energy and can cause your blood sugar levels to spike and then crash, which can leave you feeling tired and sluggish. It is therefore recommended to pair simple carbohydrates with complex carbohydrates (like pasta) to provide sustained energy throughout the race.

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write a balanced equation for the decomposition reaction described, using the smallest possible integer coefficients. pure water decomposes to its elements.

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To write a balanced equation, we need to ensure that the number of atoms of each element on the reactant side is equal to the number of atoms of each element on the product side.

A decomposition reaction is a type of chemical reaction in which a single compound breaks down into two or more simpler substances. In this case, pure water (H₂O) decomposes into its elements, hydrogen gas (H₂) and oxygen gas (O₂).

Here is the balanced equation for the decomposition of water using the smallest possible integer coefficients:

2H₂O → 2H₂ + O₂

This equation shows that two molecules of water decompose to form two molecules of hydrogen gas and one molecule of oxygen gas, conserving the number of atoms for each element involved in the reaction.

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13b. name two other parts of a vehicle that help keep passenger safe describe all the parts you named that helps keep passenger safe.

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Two other parts of a vehicle that help keep passengers safe are airbags and Tire pressure monitoring system.

How does this feature help to keep passengers safe?

Airbags have been designed incase of collision. An airbag will act as a cushion to protect passengers from too much impact that would result in serious injury. Airbags are most effective when they are used in conjunction with seat belts.

Tire pressure monitoring system  is a safety feature that helps the drive to monitor the air pressure inside the tires of a vehicle. It either  uses sensors in each tire or  vehicle's ABS system to calculate the air pressure.

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Which of the following solvents would be the best to separate a mixture containing 2-phenylethanol and acetophenone by TLC? a) Water b) Methanol c) Hexane d) Dichloromethane

Answers

To separate a mixture containing 2-phenylethanol and acetophenone using TLC (Thin Layer Chromatography), the best solvent among the given options would be d) Dichloromethane.

To separate a mixture containing 2-phenylethanol and acetophenone by TLC, the best solvent would be dichloromethane. This is because it provides a suitable polarity to effectively separate the two compounds, as 2-phenylethanol is more polar due to its hydroxyl group, while acetophenone is less polar. Methanol and water are too polar, which may cause poor separation, while hexane is too non-polar and may not dissolve the compounds well enough. Therefore, dichloromethane is the optimal choice for this separation. TLC, or thin layer chromatography, is a common method for separating and identifying compounds in a mixture. The choice of solvent is crucial in TLC, as it determines how well the mixture will separate. In this case, dichloromethane is the best choice because it has a low polarity and will help to separate the two compounds effectively. Methanol and water are too polar and will not work well, while hexane is too nonpolar. Therefore, dichloromethane is the ideal solvent for this particular mixture.

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part a what happens in redox reactions? what happens in redox reactions? both decomposition and electron exchange occur. the electron acceptor is oxidized. the organic substance that loses hydrogen is usually reduced.

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In redox reactions, both decomposition and electron exchange occur.

These reactions involve the transfer of electrons from one molecule to another, with one molecule acting as the oxidizing agent (electron acceptor) and the other as the reducing agent (electron donor). During these reactions, the electron acceptor is oxidized, which means it loses electrons, while the organic substance that loses hydrogen is usually reduced, which means it gains electrons. The amount of electron transfer that occurs in these reactions is measured in terms of the oxidation state of the molecules involved. Overall, redox reactions play an essential role in many biological and chemical processes, including respiration, metabolism, and combustion. In redox reactions, two processes occur simultaneously: oxidation and reduction. Oxidation involves the loss of electrons, while reduction involves the gain of electrons. Decomposition and electron exchange are essential parts of these reactions. The electron acceptor, which gains electrons, is reduced, whereas the organic substance that loses hydrogen (and thus electrons) is oxidized. In essence, redox reactions involve the transfer of electrons between different chemical species, allowing for various chemical transformations.

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how will you prepare 1l of 28 ppt instant ocean (stock = 1000 ppt)? show your calculations here.

Answers

To prepare 1 liter of a 28 ppt Instant Ocean solution, you would mix 0.028 liters (or 28 milliliters) of the stock solution with water to make a total volume of 1 liter.

To prepare 1 liter of a 28 parts per thousand (ppt) solution of Instant Ocean from a stock solution of 1000 ppt, we need to dilute the stock solution with water. The dilution formula is:

C1V1 = C2V2

where:

C1 = initial concentration (1000 ppt)

V1 = initial volume (unknown)

C2 = final concentration (28 ppt)

V2 = final volume (1 liter)

Rearranging the formula, we have:

V1 = (C2 * V2) / C1

Substituting the values into the formula:

V1 = (28 ppt * 1 L) / 1000 ppt = 0.028 L

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In Part B of this experiment, 0.20 g of Mg is added to 100 mL of 1.0 M HCl_(aq). Which is the limiting reactant? Show calculations. In Part C, 0.50 g of MgO is added to l(M) mL of 1.0 M HCl(aq). Which is the limiting reactant?

Answers

Mol of HCl = 0.1 0.1 = 0.01 , the ratio is 2:1 so this time, HCl is the limiting reactant, The calculation for limiting reagent is below

                        Mg + 2Hcl = MgCl₂ + H₂

mol of Mg = mass/MW

                = 0.2/24.305

               = 0.008228 mol of Mg

mol of HCl = MV = 0.1 × 0.1 = 0.01 mol of HCl

0.008228 mol of Mg need 0.008228 × 2 = 0.016456 mol of HCl which we do not have limiting reactant is HCl

b) using the reaction :

               2HCl + MgO = MgCl₂ + H₂O

then mol of MgO = mass/MW = 0.5/40.3044

                                   = 0.0124055 mol of MgO

mol of HCl = 0.1 0.1 = 0.01 , the ratio is 2:1 so this time, HCl is the limiting reactant

Limiting reagent :

The reactant that is consumed first in a chemical reaction, also known as the limiting reagent, limits the amount of product that can be produced. A reactant that is completely consumed at the conclusion of a chemical reaction is the limiting reagent. How much item framed is restricted by this reagent, since the response can't go on without it

Why is restricting reagent significant?

In a chemical reaction, the reagent (compound or element) that must be consumed completely is the limiting reactant. Reactant limitation is also what stops a reaction from continuing because there is no more reactant available. The restricting reactant may likewise be alluded to as restricting reagent or restricting specialist.

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consider the precipitation following reaction: bacl2(aq) na2so4(aq)→baso4(s) 2nacl(aq) how much 0.5mna2so4 solution will completely precipitate the ba2 in 0.7l of 0.13mbacl2 solution?

Answers

0.182 liters (or 182 mL) of the 0.5 M Na2SO4 solution will completely precipitate the Ba2

To determine the amount of 0.5 M Na2SO4 solution needed to completely precipitate the Ba2+ ions in 0.7 L of 0.13 M BaCl2 solution, we need to calculate the stoichiometry of the reaction and use the concept of molarity.

The balanced equation for the reaction is:

BaCl2(aq) + Na2SO4(aq) → BaSO4(s) + 2NaCl(aq)

From the balanced equation, we can see that 1 mole of BaCl2 reacts with 1 mole of Na2SO4 to form 1 mole of BaSO4.

First, we calculate the number of moles of BaCl2 in the 0.7 L of 0.13 M BaCl2 solution:

moles of BaCl2 = volume (L) × concentration (M) = 0.7 L × 0.13 mol/L = 0.091 mol

Since the stoichiometry of the reaction is 1:1 between BaCl2 and Na2SO4, we need an equal number of moles of Na2SO4 to react with BaCl2.

Therefore, we need 0.091 moles of Na2SO4.

Now we can calculate the volume of the 0.5 M Na2SO4 solution needed to contain 0.091 moles of Na2SO4:

volume (L) = moles / concentration (M) = 0.091 mol / 0.5 mol/L = 0.182 L

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the half-life of 131-iodine is 0.220 years. how much of a 500.0 mg sample remains after 24 hours?

Answers

To calculate the remaining amount of a sample of 131-iodine after 24 hours, we need to consider the half-life of the isotope and the time elapsed. Therefore, after 24 hours, approximately 493.5 mg of the 500.0 mg sample of 131-iodine remains.

Given: Half-life of 131-iodine = 0.220 years

Time elapsed = 24 hours = 24/24 = 1 day

We can convert the time elapsed to years:

1 day = 1/365 years ≈ 0.00274 years

The formula for calculating the remaining amount of a radioactive substance is:

Amount remaining = Initial amount * (1/2)^(time elapsed / half-life)

Substituting the values:

Amount remaining = 500.0 mg * (1/2)^(0.00274 / 0.220)

The amount remaining = 500.0 mg * (0.987)

Amount remaining = 493.5 mg

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hich statement below is incorrect about balancing a chemical equation for a complete reaction? A. The total moles of the reactants must equal the total moles of the products. B. The Law of Conservation of mass must be obeyed. C. Formulas of the reactans and products must be correct and cannot be changed. C. All of the above are correct statements. D. None of the above are correct statements.

Answers

Answer: Total moles etc.

Explanation:

The incorrect statement about balancing a chemical equation for a complete reaction is option C: "Formulas of the reactants and products must be correct and cannot be changed."

In order to balance a chemical equation, it is sometimes necessary to adjust the formulas of the reactants and products. This is done by adding coefficients in front of the chemical formulas to ensure that the number of atoms on both sides of the equation is equal. Balancing a chemical equation is based on the Law of Conservation of Mass, which states that matter cannot be created or destroyed in a chemical reaction. Therefore, option B is correct, as the Law of Conservation of Mass must be obeyed. Additionally, option A is correct, as the total moles of the reactants must equal the total moles of the products to maintain mass balance. Therefore, the correct answer is option C: "Formulas of the reactants and products must be correct and cannot be changed."

In summary, when balancing a chemical equation for a complete reaction, it is important to understand that the formulas of the reactants and products can be adjusted by adding coefficients to achieve mass balance. This is necessary to ensure that the total moles of the reactants are equal to the total moles of the products, as required by the Law of Conservation of Mass. Option C, which states that the formulas cannot be changed, is incorrect. Therefore, the correct answer is C: "Formulas of the reactants and products must be correct and cannot be changed."

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There are 4.0 moles of phosphorous acid,
H3PO3 formed during a reaction. What mass
of P2O3 is required? (P2O3: 110 g/mol)
P2O3 + 3H₂O → 2H3PO3
4.0 mol H3PO3
4.0 mol H3PO3 → [?] g P₂03
Round to the tens place.
Mass P₂O3 (g)
Enter
pls help

Answers

If there are 4.0 moles of phosphorous acid, H₃PO₃ formed during a reaction. The mass of P₂O₃ required is 220 grams.

To find the mass of P₂O₃, there is need  to use the balanced equation and the molar ratio between P₂O₃ and H₃PO₃.

The balanced chemical equation is:

P₂O₃ + 3H₂O → 2H₃PO₃

From the equation, it is observed that 1 mole of P₂O₃ reacts with 2 moles of H₃PO₃. Thus, the molar ratio is 1:2.

According to quetsion there are 4.0 moles of H₃PO₃, use this molar ratio to find the moles of P₂O₃ required.

Moles of P₂O₃ = (4.0 moles H₃PO₃) / (2 moles H₃PO₃/1 mole P₂O₃)

= 2.0 moles P₂O₃

Next, calculate the mass of P₂O₃ needs to use its molar mass.

Mass of P₂O₃ = (2.0 moles P₂O₃) × (110 g/mol P₂O₃) = 220 g

Thus, the mass of P₂O₃ required is 220 grams.

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Calculate the pH of a solution prepared by dissolving 1. 30g of sodium acetate, CH3COONa in 60. 5mL of. 20 M acetic acid, CH3COOH(aq). Assume the volume change upon dissolving the sodium acetate is negligible. Ka of CH3COOH is 1. 75*10^-5

Answers

The pH of a solution prepared by dissolving 1.30g of sodium acetate, CH₃COONa in 60.5mL of. 20 M acetic acid, CH₃COOH(aq) is 3.09.

The pH of acetic acid (CH₃COOH) and sodium acetate (CH₃COONa) can be determined by the volume of acetic acid (CH₃COOH) is 60.5 ml and the molarity is 0.20 M. Thus,

Number of moles of acetic acid = Molarity × Volume of acetic acid (CH₃COOH)

in liters= 0.20 M × 60.5 mL/1000 mL/L= 0.0121 moles of acetic acid

Number of moles of CH₃COONa can be determined from its weight: 1.30 g of CH₃COONa can be converted to moles by using the formula:

Number of moles = Mass of substance/molecular weight of substance

= 1.30 g/ 82 g/mol

= 0.0158 moles of CH₃COONa

The dissociation reaction of acetic acid can be represented as follows:

CH₃COOH ⇌ H⁺ + CH₃COO⁻

The equilibrium constant for the above reaction can be calculated using the following formula:

Ka = [H⁺][CH₃COO⁺]/[CH₃COOH]

Let x be the concentration of H⁺ ions that are released when acetic acid dissociates. Thus, the concentration of CH₃COO⁻ ions is also x. Therefore, the concentration of CH₃COOH ions will be (0.0121 - x).

Thus,

Ka = [H⁺][CH₃COO⁻]/[CH₃COOH](1.75 × 10⁻⁵) = x2/0.0121 - x

Using the quadratic equation and solving for x, we get:

x = 8.07 × 10⁻⁴ M

The pH of the solution can be calculated as follows:

pH = -log[H⁺]

= -log(8.07 × 10⁻⁴)

= 3.09

Therefore, the pH of the solution is 3.09.

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which are more successful in dislodging electrons from a metal surface: photons of violet light or photons of red light? why?

Answers

The success of dislodging electrons from a metal surface depends on the energy of the photons that hit it. Photons of violet light have a higher energy than photons of red light.

The energy of photons is directly proportional to their frequency, and the frequency of violet light is higher than that of red light. Therefore, violet light photons are more successful in dislodging electrons from a metal surface. This is because when the photons hit the metal surface, they transfer their energy to the electrons, which get excited and are dislodged from the surface. The greater the energy of the photon, the greater the probability of it being absorbed by the metal surface and dislodging an electron.

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why oxalic acid prevents catalytic degradation of ascorbic acid by catalytic ferric acid

Answers

Oxalic acid prevents the catalytic degradation of ascorbic acid by catalytic ferric acid due to its ability to form a complex with ferric ions, thereby inhibiting their catalytic activity. This complex formation prevents the ferric ions from participating in the oxidation reaction of ascorbic acid.

Catalytic degradation of ascorbic acid refers to the process where ascorbic acid (vitamin C) undergoes oxidation in the presence of a catalyst, such as ferric ions (Fe³⁺), resulting in the degradation of ascorbic acid and the formation of degradation products. However, oxalic acid can prevent this catalytic degradation by forming a complex with ferric ions.

Oxalic acid contains carboxylic acid groups, which can readily bind to metal ions like ferric ions. When oxalic acid is present in the reaction mixture, it can complex with the ferric ions, forming a stable complex. This complex formation prevents the ferric ions from being available as catalysts for the oxidation reaction of ascorbic acid.

By sequestering the ferric ions, oxalic acid effectively inhibits their catalytic activity, thereby preventing the degradation of ascorbic acid. This protective effect of oxalic acid is attributed to its ability to chelate with the ferric ions, forming a stable complex that reduces their reactivity towards ascorbic acid.

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A piece of metal with a specific heat capacity of 0.475 J/gºC at a temperature of 100.0°C is dropped into an
insulated container of water. The volume of water is 199.0 mL and its temperature before adding the metal is
22°C The final temperature of the water is 25°C. The specific heat capacity of water is 4.184 J/gºC. What is
the mass of the metal? q=mcAT

Answers

Answer:

First, we need to calculate how much heat was lost by the metal as it cooled from 100°C to the final temperature (which we will assume is 25°C, since we are not given the exact temperature). The formula for calculating heat is:

q = mcΔT

where q is heat, m is mass, c is specific heat capacity, and ΔT is the change in temperature.

The metal lost heat in this process, so the value of q will be negative. We can rearrange the formula to solve for the mass of the metal:

m = q / (cΔT)

We are given the specific heat capacity of the metal (0.475 J/gºC), the initial temperature (100°C), and the final temperature (25°C). We also know that the heat lost by the metal (q) must be equal to the heat gained by the water. We can use the formula:

qmetal = -qwater

to relate the heat lost by the metal to the heat gained by the water. We know the specific heat capacity of water (4.184 J/gºC), the volume of water (199.0 mL, or 199.0 g), and the initial and final temperatures of the water (22°C and 25°C). We can use the formula:

qwater = mcΔT

to calculate the heat gained by the water. Plugging in the given values, we get:

qwater = (199.0 g)(4.184 J/gºC)(25°C - 22°C) = 2503.8 J

Therefore, the heat lost by the metal must be:

qmetal = -2503.8 J

Now we can use the formula for mass to calculate the mass of the metal:

m = q / (cΔT)

m = (-2503.8 J) / (0.475 J/gºC)(100°C - 25°C)

m = 35.6 g

Therefore, the mass of the metal is 35.6 g.

the ph of four different substances is shown below. substance ph shampoo 6 lemon juice 2 tomato juice 4 liquid drain cleaner 14 which substance is closest to being neutral on the ph scale? shampoo lemon juice tomato juice liquid drain cleaner

Answers

The substance closest to being neutral on the pH scale is shampoo, with a pH of 6.

A neutral pH is 7, so substances with a pH below 7 are considered acidic and those above 7 are considered basic. Lemon juice has a pH of 2, which is highly acidic, while tomato juice has a pH of 4, making it slightly acidic. Liquid drain cleaner, on the other hand, has a pH of 14, making it highly basic. Therefore, of the four substances listed, shampoo has the pH closest to neutral. The pH scale ranges from 0 to 14, with 7 being neutral. The four substances mentioned have the following pH levels: shampoo (6), lemon juice (2), tomato juice (4), and liquid drain cleaner (14). Among these substances, shampoo has a pH of 6, which is closest to the neutral pH level of 7. Therefore, shampoo is the substance that is closest to being neutral on the pH scale.

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select the most stable conformer of cis-cyclohexane-1 3-diol

Answers

The most stable conformer of cis-cyclohexane-1 3-diol is when the hydroxyl groups are in the equatorial position.

In cis-cyclohexane-1 3-diol, there are two hydroxyl groups attached to the cyclohexane ring. The hydroxyl groups can either be on the same side of the ring (cis) or on opposite sides (trans). To determine the most stable conformer, we need to consider the interactions between the hydroxyl groups. This is because the axial position creates steric hindrance due to the larger groups being in close proximity. In the equatorial position, the hydroxyl groups are further apart from each other and experience less repulsion.

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using the table of bond energies above, estimate the enthalpy change (kj) for the following reaction: ch4 2o2⟶co2 2h2o

Answers

The estimated enthalpy change for the reaction CH4 + 2O2 → CO2 + 2H2O is -802 kJ/mol. The negative sign indicates an exothermic reaction, meaning that energy is released during the reaction.

To estimate the enthalpy change (ΔH) for the reaction CH4 + 2O2 → CO2 + 2H2O using bond energies, we need to calculate the energy required to break the bonds in the reactants and the energy released when the new bonds form in the products. Then, we can calculate the difference between the bond energy of the reactants and the bond energy of the products.

Using average bond energies (in kilojoules per mole) from the table, we have:

CH4:

C-H bonds (4 × 413 kJ/mol)

O2:

O=O bond (1 × 498 kJ/mol)

CO2:

C=O double bond (1 × 799 kJ/mol)

O=C=O bonds (2 × 532 kJ/mol)

H2O:

O-H bonds (2 × 463 kJ/mol)

Now, let's calculate the energy for the reactants and products:

Reactants:

4 × C-H bonds = 4 × 413 kJ/mol = 1652 kJ/mol

2 × O=O bonds = 2 × 498 kJ/mol = 996 kJ/mol

Products:

2 × C=O double bonds = 2 × 799 kJ/mol = 1598 kJ/mol

4 × O-H bonds = 4 × 463 kJ/mol = 1852 kJ/mol

ΔH = (energy of bonds broken) - (energy of bonds formed)

= (1652 kJ/mol + 996 kJ/mol) - (1598 kJ/mol + 1852 kJ/mol)

= -802 kJ/mol

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in questions 17 and 18, consider a solution is prepared by dissolving 16.0 g of ch3oh in 500.0 g of water. the density of the resulting solution is 0.97 g/ml. 18. what is the molarity of ch3oh in the solution? question 18 options: (a) 0.94 m (b) 3.63 m (c) 4.00 m (d) 15.4 m (e) 17.0m g

Answers

The molarity of CH3OH in the solution is approximately 0.94 M. The correct option from the provided choices is (a) 0.94 M.

To calculate the molarity of CH3OH in the solution, we need to determine the number of moles of CH3OH and then divide it by the volume of the solution in liters.

Mass of CH3OH = 16.0 g

Mass of water = 500.0 g

Density of the solution = 0.97 g/ml

First, we need to calculate the volume of the solution:

Volume of the solution = Mass of the solution / Density of the solution

Volume of the solution = (16.0 g + 500.0 g) / 0.97 g/ml

Volume of the solution = 516.0 g / 0.97 g/ml

Volume of the solution = 532.99 ml (or 0.53299 L)

Next, we calculate the number of moles of CH3OH:

Moles of CH3OH = Mass of CH3OH / Molar mass of CH3OH

Molar mass of CH3OH = 32.04 g/mol

Moles of CH3OH = 16.0 g / 32.04 g/mol

Moles of CH3OH = 0.499 mol

Finally, we calculate the molarity of CH3OH:

Molarity of CH3OH = Moles of CH3OH / Volume of the solution

Molarity of CH3OH = 0.499 mol / 0.53299 L

Molarity of CH3OH ≈ 0.94 M

Therefore, the molarity of CH3OH in the solution is approximately 0.94 M. The correct option from the provided choices is (a) 0.94 M.

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Answer: the molarity of CH3OH in the solution is approximately 0.968 M, which corresponds to option (a) 0.94 M.

Explanation: To find the molarity of CH3OH in the solution, we need to calculate the number of moles of CH3OH and then divide it by the volume of the solution in liters.

First, let's calculate the moles of CH3OH:

Given:

Mass of CH3OH = 16.0 g

Molar mass of CH3OH = 32.04 g/mol

Moles of CH3OH = Mass of CH3OH / Molar mass of CH3OH

= 16.0 g / 32.04 g/mol

= 0.499 mol (approximately)

Now, let's calculate the volume of the solution in liters:

Given:

Mass of the solution = 500.0 g

Density of the solution = 0.97 g/mL

Volume of the solution = Mass of the solution / Density of the solution

= 500.0 g / 0.97 g/mL

= 515.46 mL

= 0.51546 L

Finally, let's calculate the molarity of CH3OH:

Molarity = Moles of CH3OH / Volume of the solution

= 0.499 mol / 0.51546 L

≈ 0.968 M

Therefore, the molarity of CH3OH in the solution is approximately 0.968 M, which corresponds to option (a) 0.94 M.

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