In the absence of sodium methoxide, the same alkyl bromide gives a different product. Draw an arrowpushing mechanism to account for its formation. 6. (a) In the reaction in part 5(a), two additional products, which contain only carbon and hydrogen, are also formed. Draw their structures and propose mechanisms for their formation. Predict which of these two products would be formed in greater quantities. (b) In the reaction in part 5(b), two additional products, which contain only carbon

Answer:

Explanation:

Compounds derived from Phosphatidyl choline are referred to as Lysolecithins.  These compounds are  amphiphatic in nature and have both hydrophilic and hydrophobic regions.

Choline, glycerol, and phosphate represent the hydrophyilic portion of lysolecithins,while the fatty acid on C1 is hydrophobic in nature.

Glycerol, choline and phosphate act as a polar tail whereas the fatty acid acts as a long polar head which represents an amphipathic molecule like detergents.

Answer:

-42556.5 J

Explanation:

From gas law,

The work done by gas is given as,

W = PΔV......................... Equation 1

Where W = Work done on the gas mixture, P = Pressure of the gas mixture, ΔV = Change in volume of the gas mixture.

Given: P = 15 atm = (15×101325) N/m² = 1519875 N/m², ΔV = 68-96 = -28 L = -28/1000 = -0.028 m³

Substitute into equation 2

W = 1519875(-0.028)

W = -42556.5 J

Hence the work done by the gas mixture = -42556.5 J

The work performed on the gas mixture of krypton and neon when compressed at a constant pressure of 15.0 atm from a volume of 96.0L to 68.0L is -4.26 x 10⁴ joules.

The subject question asks to compute the work done on a gas mixture comprising krypton and neon as it's compressed from a volume of 96.0L to 68.0L, with a constant pressure of 15.0 atm. The calculation of work done on gas under constant pressure relies on the formula W = -P ΔV, where W is work, P represents pressure, and ΔV is the change in volume. In this problem, P = 15.0 atm, which we will convert to pascals (1 atm = 1.01 × 10⁵ Pa). The change in volume ΔV = Vf - Vi = 68.0L - 96.0L = -28.0L, which we will convert to cubic meters (1L = 1.0 × 10-³ m³). Applying these values, W = -P ΔV = -(15.0atm) * (-28.0L) = 420 L*atm. To convert this to joules, we can use the conversion factor 101.3 J = 1 L*atm, which results in a final answer of -4.26 x 10⁴ J. The result is negative as it indicates the work is done on the gases.

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Answer:

Mine drainage Sample 1:   [tex][Fe(II)] sample 1 = \frac{121 \mu gFe(II)}{1ml} = 121 \frac{\mu g}{ml}[/tex]

Mine drainage Sample 2:   [tex][Fe(II)] sample 2 = \frac{127 \mu gFe(II)}{1ml} = 127 \frac{\mu g}{ml}[/tex]

Explanation:

Answer:

I would expect to extract the acetic acid.

Explanation:

In the first step, since we are adding a concentrated acid, it will react with the bases present in the mixture (diethylamine and ammonia) forming salts, which are soluble in water. Therefore, after draining the aqueous layer, we will have phenol and acetic acid left in the organic layer.

In the second step, we are adding a diluted base, so it will react with a strong acid. This compound is acetic acid, and its salt will be present in the aqueous layer. Phenol will be left on the organic layer.

Using sulfuric acid in the nitration of benzene generates a more reactive nitronium ion, which then reacts with benzene. The detailed mechanisms of nitration and sulfonation involve sigma complexes with resonance stabilization. An energy diagram for nitration shows intermediates and activation energy.

The importance of using sulfuric acid in the nitration of benzene by nitric acid is to activate the HNO₃, creating a more reactive electrophile, the nitronium ion (NO₂+). This ion then reacts with benzene to form nitrobenzene. In the mechanism of the sulfonation of benzene, sulfur trioxide (SO₃) acts as the electrophile, which is generated from sulfuric acid. The detailed mechanisms for both reactions involve the formation of a sigma complex with resonance forms and the restoration of aromaticity through deprotonation.

For the nitration of benzene, an energy diagram shows the activation energy and intermediates formed. The sigma complex for 1,3-dinitrobenzene undergoing further nitration to form 1,3,5-trinitrobenzene illustrates how the meta position stabilizes the complex by avoiding the creation of high-energy intermediates with adjacent positive charges, as seen in ortho and para substitution.

The equations representing the nitration and sulfonation of benzene are as follows:

Answer:

4.5

Hope this helps!

In the given chemical equation according to stoichiometry, 4.5 moles  of oxygen are produced when 3.0 mole of KClO₃ decomposes completely.

Stoichiometry is the determination of proportions of elements or compounds in a chemical reaction. The related relations are based on law of conservation of mass and law of combining weights and volumes.

Stoichiometry is used in quantitative analysis for measuring concentrations of substances present in the sample. It is important while making solutions and balancing chemical equations.In the given balanced chemical equation, 2 moles of  KClO₃  gives 3 moles of oxygen , thus 3 mole of  KClO₃ will give 3×3/2=4.5  moles.

Thus, 4.5 moles  of oxygen are produced when 3.0 mole of KClO₃ decomposes completely.

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For the second-order reaction 2 NOCl → 2 NO + Cl2, it will take 3.32 seconds for the concentration of NOCl to decrease from 0.076 M to 0.042 M.

The reaction 2 NOCl → 2 NO + Cl2 is second order with respect to [NOCl], meaning the rate law can be written as rate = k[NOCl]2. Given that k = 3.2 M−1s−1, we can use the integrated rate law for second-order reactions to find the time it takes for the concentration of NOCl to change from 0.076 M to 0.042 M. The integrated rate law for second-order reactions is ¼¾ ϑ¾ = k(t-t0), with t as the time elapsed, t0 as the initial time, and ϑ and ϑ0 as the final and initial concentrations, respectively. Solving for t gives us

t = ¼¾ [ϑ0^{-1} - ϑ^{-1}] / k

Substituting the given values we get:

t = ( ¼¾ [0.076−1 - 0.042−1] ) / 3.2

t = ( ¼¾ [13.16 - 23.81] ) / 3.2

t = ( ¼¾ [-10.65] ) / 3.2

t = 3.32 seconds

Complete Question:

t-Butyl alcohol (TBA) is an important octane enhancer that is used to replace lead additives in gasoline [Ind. Eng. Chem. Res., 27, 2224 (1988)]. TBA was produced by the liquid-phase hydration (W) of isobutene (I) over an Amberlyst-15 catalyst. The system is normally a multiphase mixture of hydrocarbon, water, and solid catalysts. However, the use of cosolvents or excess TBA can achieve reasonable miscibility. The reaction mechanism is believed to be

I + S ⇄ I*S

W + S ⇄ W*S

W*S + I*S ⇄ TBA * S * S

TBA * S ⇄ TBA + S

Derive a rate law assuming:

(a) The surface reaction is rate limiting

(b) The adsorption of isobutene is limiting

(c) The reaction follows Eley-rideal Kinetics

I*S+W ⇄ TBA * S

and surface reaction is limiting

(d) Isobutene (I) and water (W) are adsorbed on different sites

I + S₁ ⇄ I*S₁

W + S₂ ⇄ W*S₂

TBA is not on the surface, and the surface reaction is rate-limiting

[tex][Ans: r'_{TBA}=-r'_1=\frac{k[C_1C_w-C_{TBA/K_C}]}{(1+K_WC_W)(1+K_1C_1)} ][/tex]

(e) What generalizations can you make by comparing rate laws derived from part (a) through (d)?

Answer and explanation:

The mechanism for the production of t-butyl alcohol is as follows:

the reaction and rate law for the adsorption of isobutene over the amberlyst-15 is as follows:

I + S ⇄ I * S                                        [tex]-r_{ADI} = k_I(C_1C_v-\frac{C_{I.S}}{K_I} )[/tex]

where [tex]C_V[/tex] is the concentration of vacant site

[tex]K_I[/tex] is the equilibrium constant of the adsorption

[tex]k_I[/tex] is the rate constant for forward

[tex]C_I,C_{I.S}[/tex] are concentration of isobutene and site filled with isobutene

The reaction and rate law for the adsorption of water (W) over the amberlyst-15 catalyst catalyst is as follows

W + S ⇄ W.S                                      [tex]-r_{ADW} = k_W(C_WC_V-\frac{C_{W.S}}{K_W} )[/tex]

The reaction and rate law for the surface reaction on the catalyst is as follows

W.S + I.S ⇄ TBA . S + Sn                         [tex]-r_s = k_s(C_{W.S}C_{I.S}-\frac{C_{TBA.S}C_V}{K_s} )[/tex]

The reaction and rate law for the desorption of TBA from catalyst is as follows

TBA . S ⇄ TBA + S                             [tex]-r_{D TBA} = k_{DTBA}(C_{TBA.S}-\frac{C_{TBA}C_V}{K_{DTBA}} )[/tex]

the attached image below gives the remaining steps    

TBA, an octane enhancer, is produced by the hydration of isobutene over an Amberlyst-15 catalyst, resulting in a multiphase mixture that can be made miscible with the help of cosolvents or excess TBA.

The production of t-Butyl Alcohol (TBA) involves a liquid-phase hydration (W) of isobutene (I) over an Amberlyst-15 catalyst.  The question provides background information on the reaction mechanism and mentions the use of cosolvents or excess TBA to achieve reasonable miscibility in the multiphase mixture. This process results in a multiphase mixture of hydrocarbon, water, and solid catalysts. However, the use of cosolvents or excess TBA can aid in achieving miscibility. Essentially, the production of TBA serves as a safer alternative to lead additives in gasoline, enhancing octane levels.

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Answer:

a) ii

b)iii

c)iii

Explanation:

three atoms directly bonded then only it is possible to achieve trigonal planar

trigonal bipyramidal means five atoms should attach to central atom

for octahedral six atoms must directly connected to central atom

Answer:

The calculations are in the explanation below.

The steps are:

Explanation:

To make 100 mililiter of the 3.0M solution of sulfuric acid, first you must calculate the volume of the 12.0M stock solution that contains the same number of moles as the diluted solution.

For that, you use the dilution formula:

Then, the steps are:

1. Using a graduated pipette, accurately take 25mL of the 12.0M stock solution.

2. Pour the 25mL of stock solution into a 100 mL volumetric flask

3. Add distilled water up to the mark

4. Cap the flask with the stopper

5. Stirr by gently rotating the flask.

Answer:

16 moles

Explanation:

16 moles of NH₃ are required to produce 12 moles of NH₄Cl

Stoichiometry helps us use the balanced chemical equation to measures quantitative relationships and it is to calculate the amount of products and reactants that are given in a reaction.

The balanced chemical equation is the equation in which the number of atoms on the reactant side is equal to the number of atoms on the product side in an equation.

First we have to write the balanced chemical equation.

8NH₃ + 3Cl₂ → 6NH₄Cl + N₂

Here 8 moles of NH₃ produce 3 moles of Cl₂ to form 6 moles of NH₄Cl.

So,

12 mole NH₄Cl × [tex]\frac{8\ \text{mole}\ NH_3}{6\ \text{mole}\ NH_4Cl}[/tex]

= 16 moles NH₃

Thus, we can say that 16 moles of NH₃ are required to produce 12 moles of NH₄Cl.

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Answer:

D. If the pH of NaOH is 12, then that of Na₃PO₄ solution has to be lesser than 12.

Explanation:

In this problem, we are comparing the pH of a strong base to a weak base. A strong base is one that ionizes completely in aqueous solutions where as a weak base ionizes slightly.

The pH scale is good tool for measuring the acidity and alkalinity of various substances. It ranges from 1 - 14;

      1                                      7                                               14

                         ←                                       →

      increasing acidity                          increasing alkalinity

                                        neutrality

Strong bases have their pH value close to 14 and weak bases are close to 7.

Since Na₃PO₄ is a weak base, it will have lesser pH value compared to a strong base such as NaOH

The question lack options, that are as follows"

The following statements are true in the given question:

We know that:

Again,

PH +POH =14

From the above equation,

So,

Thus, If pH NaOH = 12.00, NaOH is a strong base and Na3PO4 is a weak base. For the solution, the weak base OH-ion concentration is less. Clearly, the pH of Na3PO4 is less than 12.00.

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Final answer:

To find the number of moles of nitrogen in a 16,500 mL sample at STP, convert the volume to liters and divide by the molar volume of 22.4 L/mol, resulting in approximately 0.7366 moles of nitrogen.

Explanation:

To calculate the number of moles of nitrogen in a 16,500 mL sample of nitrogen at STP (Standard Temperature and Pressure), we should use the molar volume of a gas at STP, which is 22.4 L/mol. This means that at STP, 1 mole of any gas occupies 22.4 liters.

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

16,500 mL × (1 L / 1,000 mL) = 16.5 L

Then, we divide the volume of nitrogen by the molar volume:

16.5 L / 22.4 L/mol = 0.7366 moles

Therefore, the sample contains approximately 0.7366 moles of nitrogen gas.

Answer:

0.35 atm

Explanation:

It seems the question is incomplete. But an internet search shows me these values for the question:

" At a certain temperature the vapor pressure of pure thiophene (C₄H₄S) is measured to be 0.60 atm. Suppose a solution is prepared by mixing 137. g of thiophene and 111. g of heptane (C₇H₁₆). Calculate the partial pressure of thiophene vapor above this solution. Be sure your answer has the correct number of significant digits. Note for advanced students: you may assume the solution is ideal."

Keep in mind that if the values in your question are different, your answer will be different too. However the methodology will remain the same.

First we calculate the moles of thiophene and heptane, using their molar mass:

Total number of moles = 1.63 + 1.11 = 2.74 moles

The mole fraction of thiophene is:

Finally, the partial pressure of thiophene vapor is:

Partial pressure = Mole Fraction * Vapor pressure of Pure Thiophene

Final answer:

The partial pressure of thiophene vapor above an ideal solution can be determined by calculating the mole fraction of thiophene and then applying Raoult's Law, which involves multiplying the mole fraction by the vapor pressure of pure thiophene.

Explanation:

To calculate the partial pressure of thiophene vapor above the solution, we can utilize Raoult's Law, which pertains to ideal solutions. According to Raoult's Law, the partial pressure of a component in a solution is equal to the vapor pressure of the pure component multiplied by its mole fraction in the solution (mole fraction). To find the mole fraction of thiophene, we will sum up the total moles of both thiophene and acetyl bromide and use their respective amounts to calculate the mole fractions for each.

First, we calculate the mole fraction of thiophene (Xthiophene) in the solution:

The partial pressure of thiophene vapor can therefore be obtained, ensuring we keep consistent units and consider significant digits as per the given values in the question.

Answer:

There correct answer is option 1 (-50100 J)

Explanation:

Step 1: Data given

Mass of water = 150.0 grams

ΔHfus = 334 J/g

Temperature = 0°C

ΔHfus = the amount of energy needed to change phase of 1 mol water to ice

Step 2: Calculate the amount of heat required

Q = m*ΔHfus

⇒Q = the amount of heat reuired = TO BE DETERMINED

⇒m =the mass of water = 150.0 grams

⇒ΔHfus = 334 J/g

Q = 150.0 grams * 334 J/g

Q = 50100 J  of heat required

Step 3: Calculate heat released

Qrequired = -Q released

Qreleased = -50100 J

There correct answer is option 1 (-50100 J)

Answer:

The answer is -50100 J

Explanation:

I just took the test as I'm in GCA as well (11th grade). My teacher walked us through each formula and gave us multiple practice questions in Jigsaw.

Honestly, all you need to be aware of is the fusion formula which is:

q = m*Hfusion

q = amount of energy

m = mass in grams

Hfusion = 334 J/g (it will not change)

Write down what we're given and what we're looking for:

q = ?

m = 150

Hfusion = 334 J/g

Set up the equation:

q = 150 * 334

Multiply 150 by 334 to get 50100.

You must keep in mind that we're finding how much heat is released which means the energy will be negative.

Add the negative sign to the number to get -50100 Joules

I don't know why that chart is there, it doesn't do anything for this equation. Disregard it for this problem.

Hope I helped! :D

A Sentence that I Used:

The position of Met seems incorrect. The amino acid sequences of all proteins begin with Met because it is the amino acid that is attached to the anticodon for the AUG start codon. It looks like the student might have worked in a backward direction for transcription.

Answer:

is there like a passage to answer this question?

Explanation:

Answer:

Increasing fishing for them is thought to be causing problems for some of their natural predators, especially the auks which take them in deeper water. They are also tied as flies to catch fish. An instance of this was the RSPB report linking a population crash of seabirds in the North Sea to fishing for sand eels.

Explanation:

Answer:

Yes, Convection can occur in both liquids and gases

Explanation:

  The Particle Theory suggests that Particles are always moving. Convection occurs in the breeze you feel, when the warm particles quickly move upwards resulting in cold air quickly sinking and creating a breeze. Convection also occurs when you boil water, the molecules of warm water quickly move to the top and cold water quickly moves to the bottom resulting in a circle the constantly keeps the water circulating, making it boil.

Answer: (a) The solubility of CuCl in pure water is [tex]1.1 \times 10^{-3} M[/tex].

(b) The solubility of CuCl in 0.1 M NaCl is [tex]9.5 \times 10^{-3} M[/tex].

Explanation:

(a)  Chemical equation for the given reaction in pure water is as follows.

           [tex]CuCl(s) \rightarrow Cu^{+}(aq) + Cl^{-}(aq)[/tex]

Initial:                         0            0

Change:                    +x           +x

Equilibm:                   x             x

[tex]K_{sp} = 1.2 \times 10^{-6}[/tex]

And, equilibrium expression is as follows.

          [tex]K_{sp} = [Cu^{+}][Cl^{-}][/tex]

       [tex]1.2 \times 10^{-6} = x \times x[/tex]

             x = [tex]1.1 \times 10^{-3} M[/tex]

Hence, the solubility of CuCl in pure water is [tex]1.1 \times 10^{-3} M[/tex].

(b)  When NaCl is 0.1 M,

       [tex]CuCl(s) \rightarrow Cu^{+}(aq) + Cl^{-}(aq)[/tex],  [tex]K_{sp} = 1.2 \times 10^{-6}[/tex]

   [tex]Cu^{+}(aq) + 2Cl^{-}(aq) \rightleftharpoons CuCl_{2}(aq)[/tex],  [tex]K = 8.7 \times 10^{4}[/tex]

Net equation: [tex]CuCl(s) + Cl^{-}(aq) \rightarrow CuCl_{2}(aq)[/tex]

               [tex]K' = K_{sp} \times K[/tex]

                          = 0.1044

So for, [tex]CuCl(s) + Cl^{-}(aq) \rightarrow CuCl_{2}(aq)[/tex]

Initial:                     0.1                 0

Change:                -x                   +x

Equilibm:            0.1 - x                x

Now, the equilibrium expression is as follows.

              K' = [tex]\frac{CuCl_{2}}{Cl^{-}}[/tex]

         0.1044 = [tex]\frac{x}{0.1 - x}[/tex]

              x = [tex]9.5 \times 10^{-3} M[/tex]

Therefore, the solubility of CuCl in 0.1 M NaCl is [tex]9.5 \times 10^{-3} M[/tex].

Final answer:

The solubility of CuCl in pure water and in 0.100 M NaCl solution both turn out to be 1.1 x 10^-3 M when formation of CuCl2- is ignored, determined using the provided Ksp.

Explanation:

To calculate the solubility of CuCl in pure water, we can use the solubility product constant (Ksp). The dissociation of CuCl can be represented as:

CuCl(s) ⇌ Cu+(aq) + Cl-(aq)

Let the solubility of CuCl be 's' moles per liter. At equilibrium, the concentration of Cu+ and Cl- ions will both be 's' M. So, the Ksp expression for CuCl is:

Ksp = [Cu+][Cl-] = (s)(s) = s²

Giving us:

s = √(1.2 x 10^-6) = 1.1 x 10^-3 M

This is the solubility of CuCl in pure water.

For the solubility of CuCl in 0.100 M NaCl solution, we have to consider the common ion effect. In this case, Cl- is the common ion. With the presence of 0.100 M NaCl, the concentration of Cl- ions at equilibrium will be higher. However, since we ignore the formation of CuCl2-, the solubility will still be governed by the Ksp of CuCl. The calculation will remain the same as in pure water, due to the assumption of ignoring CuCl2- formation:

s = 1.1 x 10^-3 M

Therefore, the presence of NaCl does not affect the solubility under the given conditions for this specific case.

Answer:

Potassium fluoride

Explanation:

Because potassium is strongly electropositive combined ionically with Fluorine which is highly electronegative this has the greatest tendency of been ionic

Answer:

Electrospray ionization

Explanation:

Electrospray ionization Is a soft ionization technique used in producing ions from macromolecules, it is employed especially in spectrometry where high voltage is used to create an aerosol from a liquid.It can be employed in Knowing molecular weights of molecules and biological macromolecules such as Peptides and proteins. Therefore, electrospray ionization is the method typically requires analyte ions to be in solution prior to reaching the interface between the column in liquid chromatography and the mass spectrometer

The starting alkyne is 3-hexyne, and after the ozonolysis process and treatment with water, the resulted product is hexanoic acid.

In the given question, an alkyne with the molecular formula C6H10 is treated with ozone followed by water, to produce one type of carboxylic acid via the process of ozonolysis. The starting alkyne for this reaction probably is 3-hexyne. During ozonolysis, the alkyne triple bond is cleaved, forming two equivalent aldehydes. But these aldehydes are further oxidized into carboxylic acids when water is used as second reagent. The produced product, hence, is hexanoic acid.

Remember, in the process of ozonolysis, alkynes are oxidized and cleaved into smaller molecules. These molecules usually have carbonyl groups such as aldehydes and ketones. But in this scenario, because of the hydration step, we end up with a carboxylic acid.

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Answer:

                    SEPARATION SCHEME FOR  CATIONS

GIVEN  CATIONS : [tex]Ag^{+} \ , Fe^{3+} , Cu^{2+}, Ni^{2+}[/tex]

    Step 1:   Add [tex]6mol/dm^3[/tex] of [tex]HCl[/tex] to the mixture solution

    Result : This would cause a precipitate of [tex]AgCl[/tex] to be formed

    Reaction :  [tex]Ag^{+} _{(aq)} + Cl^{-} _{(aq)} ---------> AgCl(ppt)[/tex]

    Step 2 : Next is to remove the precipitate and add [tex]H_2S[/tex] to the remaining          

                 solution in the presence of [tex]0.2 \ mol/dm^3[/tex] of HCl

     Result : This would cause a precipitate of [tex]CuS[/tex] to be formed

     Reaction :  [tex]Cu^{2+}_{(aq)} + S^{2-}_{(aq)} ------> Cu_2S(ppt)[/tex]

     Step 3: Next remove the precipitate then add [tex]6 \ mol/dm^3[/tex] of aqueous      

                 [tex]NH_3 (NH_3 \cdot H_2 O)[/tex] , process the solution in a centrifuge,when the  

                 process  is done then sort out the  precipitate from the  solution

                 Now this precipitate is   [tex]Fe(OH)_3[/tex] and the remaining solution

                contains  [tex](Ni (NH_3)_6)[/tex]

                 Next take out the precipitate to a different beaker and add HCl

                to it   this will dissolve it, then add a drop of [tex]NH_4SCN[/tex] this will

                form  a precipitate  [tex]Fe(SCN)_{6}^{3-}[/tex] which will have the color of

                 blood  indicating the presence of [tex]Fe^{3+}[/tex]

   Reaction :   [tex]F^{3+}_{(aq)} + 30H^-_{(aq)} --------->Fe(OH)_3_{(aq)}[/tex]

                        [tex]Fe (OH)_{(s)} _3 + 3H^{+}_{aq} -------> Fe^{3+}_{aq} + 3H_2O_{(l)}[/tex]

                         [tex]Fe^{3+} + 6SCN^{-} -----> Fe(SCN)_6 ^{3-}[/tex]

                      Now the remaining mixture contains [tex]Ni^{2+}[/tex]

Explanation:

Answer:

it hydroxide ion

Hope it will help you

The molecule OH- is termed as a hydroxide ion. It comprises one hydrogen ion and one oxygen ion and holds a negative charge. Hydroxide ions are observed in water-based solutions and play a crucial role in chemical reactions such as hydrolysis; they also impact the pH levels in solutions.

The molecule OH- is called a hydroxide ion. This comes from the fact that it consists of one hydrogen ion (H) and one oxygen ion (O). An ion is an atom or molecule that carries a charge, in this case, the charge of the hydroxide ion is -1 because it has gained one electron. Hydroxide ions are found in solutions resulting from the ionization of water.

The molecule OH- plays an important role in various chemical reactions. For example, in hydrolysis, a molecule of water disrupts a compound; the water splits into H and OH. One part of the divided compound bonds with the hydrogen atom, and the other part bonds with the hydroxide group. The presence of hydroxide ions also has a significant effect in determining the pH of a solution; the higher the concentration of hydroxide ions, the more basic or alkaline the solution is.

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Answer:

water is everywhere, its in the air and the clouds, in the earth too!

it isnt always liquid form. like when it snows or hails.

Explanation:

Answer:

0.016 grams of chloride ion were present in the 0.1000 grams of sample.

Explanation:

According to question, 9.00 mL of titrant was added to solution with 0.1000 grams of complex to reach the end point.

Molarity of the silver nitrate solution = 0.0500 M

Volume of the silver nitrate solution = V = 9.00 mL = 0.009 L

1 mL = 1000 L

Moles of silver nitrate = n

[tex]Molarity=\frac{Moles}{Volume (L)}[/tex]

[tex]0.0500 M=\frac{n}{0.009 L}[/tex]

n = 0.00045 mol

[tex]Cl^-+AgNO_3\rightarrow AgCl+NO_3^{-}[/tex]

According to 1 mole of silver nitrate reacts with 1 mol of chloride ion, then 0.00045 moles of silver nitrate will :

[tex]\frac{1}{1}\times 0.00045 mol=0.00045 mol[/tex] of chloride ions

Mass of chloride ions :

0.00045 mol × 35.5 g/mol = 0.016 g

0.016 grams of chloride ion were present in the 0.1000 grams of sample.

10 litres = 0.01 cubic meter

Answer:

Mass of NaHCO₃ required for the neutralization = 0.143 g

Explanation:

The reaction between HCl and NaHCO₃ is given as

HCl + NaHCO₃ → NaCl + H₂O + CO₂

The fluid in the stomach of a man suffering from indigestion is considered to be 50 mL of a 0.034 M HCl solution. The mass of NaHCO₃ he would need to ingest to neutralize this much HCl.

We forst need to calculate the number of moles of HCl in 50.0 mL of 0.034 M HCl

(Number of moles) = (Conc in mol/L) × (Volume in L)

Conc in mol/L = 0.034 M

Volume in L = (50/1000) = 0.05 L

Number of moles of HCl = 0.034 × 0.05 = 0.0017 moles

From the stoichiometric balance of the reaction,

1 mole of HCl requires 1 mole of NaHCO₃

0.0017 moles of HCl will require 0.0017 moles of NaHCO₃.

So, we can then.calculate the mass of NaHCO₃ required for this neutralization.

Mass = (Number of moles) × (Molar mass)

Molar mass of NaHCO₃ = 84.007 g/mol

Mass of NaHCO₃ required for this neutralization = 0.0017 × 84.007 = 0.1428119 g = 0.143 g to 3 s.f because calculated values usually have 1 more significant figure than the given parameters for the calculations.

Hope this Helps!!!

Answer:

Explanation:

The rate of diffusion of nickle in is higher in liquid state than solid state which is affect the ease of equilibrium of microstructure.

When peritectic composition of 4.5% nickle is called from peritectic temperature due to high rate of diffusion of nickle into iron we get fine microstructure containing more nickle atoms in the iron.

Due to high rate of diffusion more no. Of microstructure created from where new grain is generated. So the microstructure will get equilibrium soon after cooling.

Answer:

Explanation:

The rate of diffusion of nickle in is higher in liquid state than solid state which is affect the ease of equilibrium of micro structure.

When peritectic composition of 4.5% nickle is called from peritectic temperature due to high rate of diffusion of nickle into iron we get fine micro structure containing more nickle atoms in the iron.

Due to high rate of diffusion more no. Of micro structure created from where new grain is generated. So the micro structure will get equilibrium soon after cooling.

Answer:

A chain of four carbon atoms connected by single bonds. Single bonds connect the first carbon atom to 3 hydrogen atoms. The second and third carbons are each connected to 2 hydrogen atoms by single bonds. The fourth carbon atom is double bonded to 1 oxygen atom and single bonded to 1 oxygen atom. The single bonded oxygen atom is connected to a hydrogen atom by a single bond. Both oxygen atoms have 2 lone pairs.

Explanation:

In the Brownstead-Lowry definition of a base; a base is any substance that accepts a proton. Hence, a base must have available lone pairs to accept a proton and possess a plus sign afterwards. Only the bonding situation described in the answer meets this description.

The description in the second option should be a Brownstead-Lowry acid because it will rather donate a proton.

The compounds that are bases in aqueous solution according to Bronsted-Lowry theory is ; ( A , B, C, D and E ).

Bronsted-Lowry theory states that a compound which is capable of accepting protons from another compound is a base while a compound that transfers protons to other compounds is categorised as an acid.  The compounds listed in the answer are capable of accepting protons because of the availability of lone pairs of protons.

Hence we can conclude that the compounds that re bases in aqueous solutions are as listed above.

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