A 35.161 mg sample of a chemical known to contain only carbon, hydrogen, sulfur, and oxygen is put into a combustion analysis apparatus, yielding 62.637 mg of carbon dioxide and 25.641 mg of water. In another experiment, 31.321 mg of the compound is reacted with excess oxygen to produce 13.54 mg of sulfur dioxide. Add subscripts to the formula provided to correctly identify the empirical formula of this compound. Do not change the order of the elements.

Answer:

increases

Explanation:

Now look at the matter closely. Given the values of electrode potential stated in the question, one can see that lead will function as the anode and copper as the cathode since lead has a more negative electrode potential.

This implies that at the anode, the half reaction going on is this;

Pb(s) -------> Pb^2+(aq) + 2e.

There will be a build up of Pb^2+ in the anode compartment. The addition of H2SO4 and formation of PbSO4 favours the removal of the Pb^2+ ions;

Pb^2+(aq) + SO4^2-(aq) -------> PbSO4(s)

As this continues, Pb^2+ concentration begins to decrease, in order to maintain equilibrium, more Pb^2+ is formed thereby increasing the current and voltage flowing in the cell as more electrons are transferred from anode to cathode(more current flows).

In the case when the sulfuric acid is added to the Pb(NO3)2  solution increases so the cell potential is increased.

Here the anode and copper treated as the cathode because it contains more negative electrode potential. Due to this, it should be half reaction

Pb(s) -------> Pb^2+(aq) + 2e.

Also, there should be the addition of H2SO4 and creation of the PbSO4 that eliminates the Pb^2+ ions.

So,

Pb^2+(aq) + SO4^2-(aq) -------> PbSO4(s)

Here the concentration of Pb^2+ should reduced for maintaining the equilibrium.

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Answer: The final temperature in °C is 167

Explanation:

To calculate the final temperature of the system, we use the equation given by Gay lussac's Law. This law states that pressure of the gas is directly proportional to the temperature of the gas at constant volume.

Mathematically,

[tex]\frac{P_1}{T_1}=\frac{P_2}{T_2}[/tex]

where,

[tex]P_1\text{ and }T_1[/tex] are the initial pressure and temperature of the gas.

[tex]P_2\text{ and }T_2[/tex] are the final pressure and temperature of the gas.

We are given:

[tex]P_1=4.40atm\\T_1=25^oC=(25+273)K=298K\\P_2=6.50atm\\T_2=?[/tex]

Putting values in above equation, we get:

[tex]\frac{4.40}{298}=\frac{6.50}{T_2}\\\\T_2=440K=(440-273)^0C=167^0C[/tex]

Thus the final temperature in °C is 167

To determine at what temperature a gas cylinder will reach 6.50 atm pressure from 4.40 atm at 25°C, we use Gay-Lussac's Law and find that the temperature is 167°C.

We can solve this problem using Gay-Lussac's Law, which states that for a given mass and constant volume of an ideal gas, the pressure is directly proportional to its temperature.

The formula for Gay-Lussac's Law is:

P1/T1 = P2/T2

Where:

First, we need to convert the initial temperature into Kelvin:

T1 (in Kelvin) = 25°C + 273 = 298 K

Now, we rearrange the equation to solve for T2:

T2 = (P2 × T1) / P1

Substitute the known values into the formula:

T2 = (6.50 atm × 298 K) / 4.40 atm

T2 ≈ 440 K

Finally, convert the temperature back to Celsius:

T2 (in °C) = 440 K - 273 = 167°C

Therefore, the temperature at which the gas will reach a pressure of 6.50 atm is 167°C.

Answer:

There would be seven mols of water per every mol of MgSO4.

Explanation:

To find out how many molecules of water are attached to each atom of Magnesium in the hydrated Magnesium Sulfate, we can calculate the number of moles of water lost during heating. From there, we can use the mole ratio in the formula of the hydrated salt to determine the number of water molecules attached to each atom of Magnesium.

To determine how many molecules of water are attached to each atom of Magnesium, we need to calculate the ratio of the mass of water to the mass of the anhydrous Magnesium Sulfate.

From the given information, the mass of the hydrated Magnesium Sulfate is 1.000 grams and the mass of the anhydrous Magnesium Sulfate is 0.488 grams. Therefore, the mass of water lost during heating is 1.000 grams - 0.488 grams = 0.512 grams.

To convert grams of water to molecules, we can use Avogadro's number. The molar mass of water is 18.015 g/mol. So, the number of moles of water lost is 0.512 grams / 18.015 g/mol = 0.0284 moles.

Next, we can calculate the number of molecules of water using the mole ratio between water and Magnesium Sulfate in the formula of the hydrated salt. The formula is MgSO4 * XH20, where X represents the number of water molecules. Assuming the formula is MgSO4 * 7H20, the mole ratio is 1:7. Therefore, the number of water molecules attached to each atom of Magnesium is 0.0284 moles * 7 = 0.199 moles. Now, we multiply this by Avogadro's number to get the number of molecules, which is 0.199 moles * 6.022 x 10^23 molecules/mol = 1.20 x 10^23 molecules of water.

Explanation:

Hydrogen does not obey the octet rule. Boron does not always

obey the octet rule and in fact forms Lewis acids such as BF3 which

only has 6 electrons.

Answer:

The sign of \Delta GΔG is negative.

The sign of \Delta HΔH is negative.

The sign of \Delta SΔS is negative.

Explanation:

The water vapor is adsorbed on silica gel due to strong hydrophilicity of silica get towards the water.

The thermodynamic properties of adsorbate and adsorbent changes after adsorption. Silica gel is very porous and hydrophilic, thus, it absorbs the water from the shoe box.

The adsorption process occurs spontaneously, therefore Delta G < 0.

When adsorption occurs, bonds are formed between water molecules and SiO2, and the bond formation process is exothermic (heat is released).

Thus, Delta H < 0.

The water molecules become immobilized on the surface when adsorption occurs, thus, entropy/disorder decreases.

So, Delta S < 0.

Answer:

You could have many hypothesis...

Explanation:

A hypothesis is a guess as to what is going to happen in a situation. Without knowing the exact question you are developing a hypothesis for I can't give you an exact answer and the hypothesis takes place before the experiment. So you wouldn't know why the birds didn't come.

But if I had to give a bs answer I would say that the conditions weren't ideal for the birds (ie not right location or type of food)

The hypothesis could be that the type of food, the feeder's visibility, or its location is not attracting the birds. You could test this hypothesis by trying to change these variables.

If you filled a bird feeder with food and hung it but noticed no birds coming to it, the hypothesis might be that either the birds are not attracted to the type of food in the feeder, they are not aware of the feeder's presence, or the location of the feeder is not suitable or safe for them.

To test this hypothesis, one could try changing the food type, moving the feeder to a different location, or drawing attention to the feeder somehow, then observing if there are changes in bird visitation.

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The direction of heat flow in each scenario will be:

It should be noted that heat transfer means the transfer of heat from a location to another.

It is the process in which the molecules are moved from a region of higher temperature to that of a lower temperature.

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Answer:

It Is Scenario D.

Explanation:

Answer:

produces carbon dioxide when reacting with carbonates

Answer:

The pH is   [tex]pH = 9.4[/tex]

Explanation:

From the question we are told that

         The volume of  [tex]NH_3[/tex] is  [tex]V_N = 75mL = 75 *10^{-3} L[/tex]

         The concentration of [tex]NH_3[/tex] is  [tex]C_N = 0.200M[/tex]

          The concentration of [tex]HNO_3[/tex] is [tex]C_H = 0.500 M[/tex]

          The volume of  [tex]HNO_3[/tex]  added  is [tex]V_H = 13mL = 13 *10^{-3 } L[/tex]

           The base dissociation constant is [tex]K_b = 1.8*10^{-5}[/tex]

The number of moles of [tex]HNO_3[/tex]  that was titrated can be mathematically represented as

                [tex]n__{H}} = C_H * V_H[/tex]

substituting values

                [tex]n__{H}} = 0.500* 13*10^{-3}[/tex]

                [tex]n__{H}} = 0.0065 \ moles[/tex]

The number of moles of [tex]NH_3[/tex] that was titrated can be mathematically represented as

                     [tex]n__{N}} = C_N * V_N[/tex]

substituting values

                          [tex]n__{N}} = 0.200 * 75*10^{-3}[/tex]

                          [tex]n__{N}} = 0.015 \ mole[/tex]

So from the calculation above the limited reactant is   [tex]HNO_3[/tex]

The chemical equation for this reaction is

         [tex]NH_3 + HNO_3 ------> NH^{4+} + NO^{3+}[/tex]

From the chemical reaction

  1 mole of [tex]HNO_3[/tex]  is  titrated with 1 mole of[tex]NH_3[/tex] to produce 1 mole of  NH^{4+}

So

    0.0065  moles of [tex]HNO_3[/tex]  is  titrated with 0.0065 mole of [tex]NH_3[/tex] to produce 0.0065 mole of  [tex]NH^{4+}[/tex]

So

  The remaining  moles of [tex]NH_3[/tex]  after the titration is

             [tex]n = n__{N}} - n__{H}}[/tex]

=>         [tex]n = 0.015 - 0.0065[/tex]

            [tex]n = 0.0085 \ moles[/tex]

Now according to Henderson-Hasselbalch equation the pH of the reaction is mathematically represented as

             [tex]pH = pK_a + log [\frac{NH_3}{NH^{4+}} ][/tex]

Where [tex]pK_b[/tex] is mathematically represented as

                [tex]pK_a = -log K_a[/tex]

Now        [tex]K_a = \frac{K_w}{K_b}[/tex]

Where [tex]K_w[/tex] is the ionization constant  of  [tex]NH_3[/tex] with value [tex]K_w = 1.0*10^{-14}[/tex]

Hence     [tex]K_a = \frac{1.0*10^{-14}}{1.8 *10^{-5}}[/tex]

               [tex]K_a = 5.556 * 10^{-10}[/tex]

Substituting this into the equation

                 [tex]pH = -log K_a + log [\frac{NH_3}{NH^{4+}} ][/tex]    

                  [tex]pH = log [\frac{\frac{NH_3}{NH^{4+}} }{K_a} ][/tex]        

substituting values

                [tex]pH = log [\frac{\frac{0.0085}{0.0065} }{5.556*10^{-10}} ][/tex]

                 [tex]pH = 9.4[/tex]

Answer:

Option 3.

Explanation:

Isomerism is a phenomenon where by two or more compounds have the same molecular formula but different structural patterns.

Geometric Isomerism is a type of Isomerism that occurs within a double bond i.e Geometric isomers have different arrangement within the double bond.

Considering the options given above,

The 1st option is exactly the same as the compound only, it is inverted.

The 2nd option is still the same as the compound, only it is laterally inverted.

The 3rd option satisfy geometric Isomerism as the arrangement differ from the compound in the double bond.

The 4th option is entirely a saturated compound in which geometric Isomerism is not possible.

Explanation: The Gobi actually gets snow and frost! ... The Sahara is also seven times larger, taking up half a continent: Almost ten million square kilometres, compared to only 1.3 million for the Gobi. Both are expanding, though; the Gobi is gaining another 3.5 thousand square km a year, and the Sahara a commensurate amount

Answer:

I have the same question same

Explanation:

Answer:

The answer is C.

Explanation:

Oxidation and Reduction are determine by the transfer of electrons .

Answer:

the minimum [OH−] triggers precipitation = 2.3x10^-6 M

Explanation:

Mg2+ + 2OH- --> Mg(OH)2(s)

Ksp = [Mg2+][OH-]^2

(2.06x10^-13) = (0.039*x^2)

x = [OH-] = 2.3*10^-6 M

the minimum [OH−] triggers precipitation = 2.3x10^-6 M

Final answer:

The minimum [OH-] that triggers the precipitation of Mg2+ ion can be calculated using the Ksp value.

Explanation:

The minimum [OH-] that triggers the precipitation of Mg2+ ion can be calculated using the Ksp value. Given that the concentration of Mg2+ in the solution is 0.039 M, and the Ksp value is 2.06×10⁻¹³, the minimum [OH-] can be determined to initiate precipitation.

Answer:

The mass of the gold sample is 28.59 g

Explanation:

Calorimetry is the measurement and calculation of the amounts of heat exchanged by a body or a system. The amount of heat received or transferred by a body when it undergoes a temperature variation (Δt) without changing its physical state (solid, liquid or gaseous) is calculated by:

Q = c * m * ΔT

Where Q is the heat exchanged by a body of mass m, made up of a specific heat substance c and where ΔT is the temperature variation.

In this case:

Replacing:

[tex]1564 J=0.129\frac{J}{g*C}*m*424 C[/tex]

Solving:

[tex]m=\frac{1564 J}{0.129\frac{J}{g*C}*424 C}[/tex]

m=28.59 g

The mass of the gold sample is 28.59 g

Answer:

T = 215.33 °C

Explanation:

The activation energy is given by the Arrhenius equation:

[tex] k = Ae^{\frac{-Ea}{RT}} [/tex]

Where:

k: is the rate constant

A: is the frequency factor    

Ea: is the activation energy

R: is the gas constant = 8.314 J/(K*mol)

T: is the temperature

We have for the uncatalyzed reaction:

Ea₁ = 70 kJ/mol

And for the catalyzed reaction:

Ea₂ = 42 kJ/mol

T₂ = 20 °C = 293 K

The frequency factor A is constant and the initial concentrations are the same.

Since the rate of the uncatalyzed reaction (k₁) is equal to the rate of the catalyzed reaction (k₂), we have:

[tex] k_{1} = k_{2} [/tex]

[tex] Ae^{\frac{-Ea_{1}}{RT_{1}}} = Ae^{\frac{-Ea_{2}}{RT_{2}}} [/tex]   (1)

By solving equation (1) for T₁ we have:

[tex]T_{1} = \frac{T_{2}*Ea_{1}}{Ea_{2}} = \frac{293 K*70 kJ/mol}{42 kJ/mol} = 488. 33 K = 215.33 ^\circ C[/tex]  

Therefore, we need to heat the solution at 215.33 °C so that the rate of the uncatalyzed reaction is equal to the rate of the catalyzed reaction.

I hope it helps you!      

Answer:  The carbon-14 left after 10 years is 25 g

Explanation:

Expression for rate law for first order kinetics is given by:

[tex]t=\frac{2.303}{k}\log\frac{a}{a-x}[/tex]

where,

k = rate constant

t = age of sample

a = let initial amount of the reactant

a - x = amount left after decay process  

a) for rate constant

[tex]t_{\frac{1}{2}}=\frac{0.693}{k}[/tex]

[tex]k=\frac{0.693}{5years}=0.139years^{-1}[/tex]

b) for amount left after 10 years

[tex]t=\frac{2.303}{k}\log\frac{a}{(a-x)}[/tex]

[tex]10=\frac{2.303}{0.139}\log\frac{100}{(a-x)}[/tex]

[tex](a-x)=25g[/tex]

Thus carbon-14 left after 10 years is 25 g

Answer:

ionizing

I hope I helped :)

Answer:

See explaination

Explanation:

Fatty acid synthesis is the creation of fatty acids from acetyl-CoA and NADPH through the action of enzymes called fatty acid synthases. This as a process usually takes place in the cytoplasm of the cell.

Check attachment for further solution of the given problem.

Answer:

= -356KJ

therefore, the reaction where heat is released is exothermic reaction since theΔH is negative

Explanation:

given that enthalpy of gaseous reactants decreases by 162KJ and workdone is -194KJ

then,

change in enthalpy (ΔH) = -162( released energy)

work(w) = -194KJ

change in enthalpy is said to be negative if the heat is evolved during the reaction while heat change(ΔH) is said to be positive if the heat required for the reaction occurs.

At constant pressure the change in enthalpy is given as

ΔH = ΔU + PΔV

ΔU = change in energy

ΔV = change in volume

P = pressure

w =  -pΔV

therefore,

ΔH = ΔU -W

to evaluate  energy change we have,

ΔU =ΔH + W

ΔU = -162+ (-194KJ)

= -356KJ

therefore, the reaction where heat is released is exothermic reaction since theΔH is negative

Final answer:

The change in energy of the gas mixture during the reaction is 32 kJ. The reaction is exothermic because it releases heat to the surroundings as indicated by the negative enthalpy change.

Explanation:

To calculate the change in energy of the gas mixture during the reaction, we use the formula for change in internal energy (ΔU) at constant pressure:

ΔU = ΔH - PΔV

where ΔH is the change in enthalpy and PΔV is the work done on or by the system. Given that the enthalpy of the system decreases by 162 kJ and the work done on the system is -194 kJ, we can substitute these values into the equation:

ΔU = -162 kJ - (-194 kJ)

ΔU = -162 kJ + 194 kJ

ΔU = 32 kJ

Therefore, the change in energy of the gas mixture during the reaction is 32 kJ. The reaction can be classified as exothermic since the enthalpy decreases (ΔH is negative), which means heat is released by the system to the surroundings.

Answer:

0.067M NaOH is the answer

Answer:

2Na(s) + C(s) + 3/2 O2(g) -----> Na2CO3(s).

Explanation:

Balancing and writring chemical reactions in Chemistry is a very important aspect of chemistry and,

writting and balancing of chemical reaction is often regarded as the heart of chemistry. A balanced Chemical reaction shows the number of each species in a reaction.

Hence, the balanced chemical equation for the standard formation reaction of solid sodium carbonate is given below;

(1). The reaction(unbalanced Reaction):

Na(s) + C(s) + O2(g) -----> Na2CO3(s).

Where solid sodium carbonate = Na2CO3(s).

(2). Balanced Reaction;

2Na(s) + C(s) + 3/2 O2(g) -----> Na2CO3(s)

The balanced chemical equation for the standard formation reaction of

solid sodium carbonate is shown below:

2Na(s) + C(s) + 3/2 O2(g) -----> Na2CO3(s).

The reaction involves elements which include Sodium(Na) , Carbon(C) and

Oxygen(O2). They react under certain conditions to form solid sodium

carbonate.

The reaction involves specific number of atoms involved in the reaction

which is why the equation must be balanced. The number of atoms of an

element on the left hand side should always be equal to those on the right

hand side.

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Answer:

1. NADH + H⁺ + FMN + Q ⟶ NAD⁺ + FMN + QH₂

2. The reactant that is reduced is Q

3. The charge on iron on the right side is +2, Fe²⁺

Explanation:

NADH + H⁺ + FMN + Q ⟶ NAD⁺ + FMN + QH₂

The reaction above is catalysed by NADH:ubiquinone oxidoreductase (complex 1), which transfers a hydride ion from NADH to FMN, from which two electrons pass through a series of of Fe-S centers to the iron-sulfur protein N-2. Electron transfer from N-2 to Ubiquinone forms QH₂

The species in a reaction which gains hydrogen irons is reduced,   Therefore, the reactant that is reduced is Q, ubiquinone to form QH₂, ubiquinol.

To determine the oxidation number of iron on the right side of the reaction below,

QH2 + 2cyt c ( Fe3+) ⟶ Q + 2cyt c(Fex) + 2H^+

Sum of charges on the left side = Sum of charges on the right side

Sum of charges on the left side = 2 *+3 = +6

Therefore 2 * x + 2= 6

2x = 6 -2 = 4

x = 4/

x = 2

Therefore the charge on iron on the right side is +2, Fe²⁺

Answer:

% is 51.6% of Oxygen

Explanation:

According to the working in the photo

51.6% is the percent of oxygen in sodium oxide. It represents the amount of solute in a given amount of solution.

A concentration is expressed as a mass percent. Furthermore, it defines the component of a particular blend. The solution component can be expressed in terms of mass percentage. It represents the amount of solute in a given amount of solution.

The amount of solute is measured in mass or moles. We shall study the mass percent equation using numerous solved numerical examples in this post. Mass is often represented in grams, although any unit of measurement is acceptable as long as an equivalent unit is used both for the component or solute mass and thus the total or solution mass.

mass percentage= (mass of oxygen / mass of  sodium oxide)×100

                           =(32/62)×100

                           = 51.6%

Therefore, 51.6% is the percent of oxygen in sodium oxide.

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Answer:

Explanation:

check below for explanation in the attached files.

Final answer:

A call option is a financial contract that gives the buyer the right to purchase shares of a stock at a predetermined price. The net profit from this call option transaction can be calculated by determining the difference between the market price and the strike price, multiplied by the number of shares.

Explanation:

A call option is a type of financial contract that gives the buyer the right, but not the obligation, to purchase a specified number of shares of a stock at a predetermined price within a certain time frame. In this case, Nash Company purchased a call option to buy 1,050 shares of Merchant stock at a strike price of $51 per share. On March 31, 2020, the market price for Merchant stock is $54 per share, and the time value of the option is $210.

The net profit from this stock transaction can be calculated by determining the difference between the market price of the stock and the strike price, multiplied by the number of shares:

Net Profit = (Market Price - Strike Price) x Number of Shares

Using the given information, the net profit from this call option transaction would be:

Net Profit = ($54 - $51) x 1,050 = $3 x 1,050 = $3,150

Answer:

Solvent

Explanation:

Many people use the solute to describe the solid being dissolved and the solvent to describe the thing doing the dissolving, but really solvent means the part of the solution with a greater amount/concentration.

For example, if you have 1 gram of salt in 10 liters of water, the water is the solvent.

Final answer:

A solution is a homogeneous mixture where the component with the largest quantity is known as the solvent, and the substance in the smaller quantity is the solute.

Explanation:

A solution is a homogeneous mixture of two or more pure substances. When we talk about a solution, we refer to its components as the solvent and the solute. The solvent is the part of the solution that is present in the greater amount and acts as the medium in which the other substance, or substances, are dispersed.

The solute, on the other hand, is any component of a solution that is not the solvent. In other words, it is the material present in the smaller amounts within the solution. When a solute is dissolved in a solvent, the resulting mixture is uniform on a microscopic level, ensuring that the composition is consistent throughout.

Solutions can come in various forms and are not limited to liquids; for instance, air is a solution that is in a gaseous state. It is important to note that the largest component by mole fraction is always considered the solvent, and this remains the same whether the components are in solid, liquid, or gaseous form.

Answer:

See explaination

Explanation:

Going by the clues that it is between Silver Flouride (AgF) and Sodium Fluoride (NaF) and since it is an aqueous solution , the 1 liter bottle is likely to be Sodium Chloride( NaCl). Going by the reaction,

AgF + NaCl= AgCl + NaF

Here, the color of AgCl is white, hence the solution cannot be AgCl.

Determination of NaCl

Determination of NaCl can be done by Mohr's Method or Volhard's method. But results in Volhard's method are more accurate . Its uses the method of back titration with Potassium Thiocynate which forms a AgCl precipitate . Prior to titration,excess AgNO3 ( The problem also has a clue that excess reagents are present in the lab ) is added to the NaCl solution so that all the Cl- ions react with Ag+. Fe3+ is then added as an indicator and the solution is titrated with KSCN to form a silver thiocyannite precipitate (AgSCN). Once all the silver has reacted, a slight excess of SCN- reacts with Fe3+ to form Fe(SCN)3 dark red complex. The concentration of Cl- is determined by subtracting the titer findings of Ag+ ions that reacted to form AgSCN from the Ag NO3 moles added to the solution. This is used because pH of the solution is acidic. If the pH of solution is basic, Mohr's method is used.

Reactions

Ag+ (aq)+ Cl-(aq) = AgCl(aq)

Ag+(aq) + SCN-(aq) = AgSCN(aq)

Fe3+(aq) + SCN-(aq) = [FeSCN]2- (aq)

Answer:

0.981atm

Explanation:

According ot Dalton's law total pressure of a mixture of non-reactive gas is equal to sum of partial pressures of individual gases.

total pressure= 1.01at

Number of gases=2

Gases: water vapor and hydrogen

partial pressure of water vapor= 0.029atm

1.01= partial pressure of water vapor+ partial pressure of hydrogen

1.01= 0.029 + partial pressure of hydrogen

partial pressure of hydrogen = 0.981atm

Answer: 0.28 M

Explanation:

Molarity of a solution is defined as the number of moles of solute dissolved per Liter of the solution.

According to the neutralization law,

[tex]M_1V_1=M_2V_2[/tex]

where,

[tex]M_1[/tex] = molarity of stock [tex]LiOH[/tex] solution = 4.5 ml

[tex]V_1[/tex] = volume of stock [tex]LiOH[/tex] solution = 27 ml

[tex]M_2[/tex] = molarity of dilute c solution = ?

[tex]V_2[/tex] = volume of dilute [tex]LiOH[/tex] solution = 435 ml

[tex]4.5\times 27=M_2\times 435[/tex]

[tex]M_2=0.28M[/tex]

Thus the concentration of LiOH be if 27 ml of a 4.5 M LiOH solution is diluted to 435 ml is 0.28 M