The entropy change of the universe is 0.0376 Joules per Kelvin (J/K).
To calculate the entropy change of the universe, we need to determine the entropy change for both the hot block of iron and the cool block of iron. Entropy change is given by the formula:
ΔS = Q/T
where ΔS is the entropy change, Q is the heat transferred, and T is the temperature in Kelvin.
First, convert the given temperatures from Celsius to Kelvin:
455.7°C = 728.85 K (by adding 273.15)
303.8°C = 576.95 K (by adding 273.15)
Next, let's calculate the entropy change for each block.
For the hot block, heat is flowing out of it, so Q is -104 J. Therefore, the entropy change is:
ΔS_hot = Q/T = -104 J / 728.85 K = -0.1427 J/K
For the cool block, heat is flowing into it, so Q is 104 J.
Therefore, the entropy change is:
ΔS_cool = Q/T = 104 J / 576.95 K = 0.1803 J/K
Now, to find the entropy change of the universe, we need to add the entropy changes of both blocks:
ΔS_universe = ΔS_hot + ΔS_cool = -0.1427 J/K + 0.1803 J/K = 0.0376 J/K
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How many moles are in 4392.3g ammonium sulfate?
Answer:
The molar mass of ammonium sulfate ((NH4)2SO4) is:
2 x (14.01 g/mol) (for the nitrogen atoms in the ammonium ions)
8 x (1.01 g/mol) (for the hydrogen atoms in the ammonium ions)
1 x (32.06 g/mol) (for the sulfur atom)
4 x (16.00 g/mol) (for the oxygen atoms in the sulfate ion)
= 132.14 g/mol
To convert the mass of 4392.3 g of ammonium sulfate to moles, we need to divide this mass by the molar mass:
moles = 4392.3 g / 132.14 g/mol
moles = 33.20 mol (rounded to two decimal places)
Therefore, there are 33.20 moles in 4392.3 g of ammonium sulfate.
33.20 mol are in 4392.3 g of ammonium sulfate. The mole designates 6.022×10²³ units, which is a very large number.
What is mole?In chemistry, a mole, usually spelt mol, is a common scientific measurement unit for significant amounts of very small objects like atoms, molecules, or even other predetermined particles. The mole designates 6.022×10²³ units, which is a very large number. Under the International Units of Measure (SI), the mole is defined as this number as of May 20, 2019, according the General Meeting on Weights as well as Measurements.
The amount of atoms discovered through experimentation to be present in 12 grammes of carbon-12 was originally used to define the mole. In honour of a Italian scientist Amedeo Avogadro, the amount of cells inside a mole is also known as Avogadro's number or Avogadro's constant (1776–1856).
The molar mass of ammonium sulfate=2 x (14.01 g/mol)+8 x (1.01 g/mol)+1 x (32.06 g/mol)+4 x (16.00 g/mol) = 132.14 g/mol
moles = 4392.3 g / 132.14 g/mol
moles = 33.20 mol
Therefore, 33.20 mol are in 4392.3 g of ammonium sulfate. The mole designates 6.022×10²³ units, which is a very large number.
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what is the solubility in moles/liter for calcium fluoride at 25 oc given a ksp value of 4.0 x 10-11. write using scientific notation and use 1 or 2 decimal places (even though this is strictly incorrect!)
Solubility of [tex]CaF$_2$[/tex] at 25°C with Ksp of 4.0 x [tex]10$^{-11}$[/tex] is approximately 6.34 x [tex]10$^{-4}$[/tex] mol/L.
The dissolvability of a substance is characterized as the most extreme measure of the substance that can break up in a given dissolvable at a specific temperature and strain. The dissolvability of calcium fluoride [tex](CaF$_2$)[/tex] at 25°C can be determined utilizing its Ksp esteem, which is 4.0 x [tex]10$^{-11}$[/tex].The Ksp articulation for [tex]CaF$_2$[/tex] is:
Ksp = [tex][Ca$^{2+}$][F$^{-}$]$^2$[/tex]
Let the dissolvability of [tex]CaF$_2$[/tex] be addressed by the variable x, so the convergences of [tex]Ca$^{2+}$[/tex] and [tex]F$^{-}$[/tex] in arrangement will be equivalent to x.Subbing these qualities into the Ksp articulation gives:
Ksp = [tex]x$\times$x$^2$ = x$^3$[/tex]
Reworking the condition gives:
x = [tex](Ksp)$^{1/3}$[/tex]
Subbing the worth of Ksp = 4.0 x [tex]10$^{-11}$[/tex] into the above condition gives:x = [tex](4.0 x 10$^{-11}$)$^{1/3}$ = 6.34 x 10$^{-4}$[/tex] mol/L
In this manner, the dissolvability of calcium fluoride at 25°C is around 6.34 x [tex]10$^{-4}$[/tex] mol/L, adjusted to two decimal spots for comfort. This really intends that at harmony, 6.34 x [tex]10$^{-4}$[/tex] moles of calcium fluoride can break up in one liter of water at 25°C.
On the off chance that how much [tex]CaF$_2$[/tex] in arrangement is higher than this worth, it will encourage out of the arrangement, and assuming it is lower, more [tex]CaF$_2$[/tex] will break down until the balance focus is reached.
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a rather confused student, ina fogg, hydrolyzed the intermediate ester with 6 m hcl rather than 3 m naoh, and then she boiled the reaction mixture with 50% naoh instead of 6 m hcl. filtration of the cooled solution yielded only a little dimedone. finally realizing her mistake, she acidified the filtrate and a white solid precipitated, but its melting point was different from that of dimedone. what was this solid, and how did it form?
The white solid formed was likely a different compound due to the use of incorrect reagents and conditions during the reaction.
When an ester is hydrolyzed with HCl, the reaction typically proceeds via an acid-catalyzed mechanism, in which the ester is protonated to form a tetrahedral intermediate that quickly breaks down into a carboxylic acid and an alcohol. On the other hand, when an ester is hydrolyzed with NaOH, the reaction proceeds via a base-catalyzed mechanism, in which the ester is deprotonated to form a negatively charged intermediate that quickly breaks down into a carboxylate ion and an alcohol.
In this case, the student hydrolyzed the intermediate ester with 6 M HCl instead of 3 M NaOH. This likely led to the protonation of the intermediate and the formation of a carboxylic acid and an alcohol. The student then boiled the reaction mixture with 50% NaOH instead of 6 M HCl. This would have led to the deprotonation of the carboxylic acid and the formation of a carboxylate ion and an alcohol. However, since the NaOH concentration was much higher than what was needed for the reaction, it's possible that the reaction was not selective and other side reactions occurred as well.
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for the compound ba(oh)2 what are the formulas of all the species you expect to be present in aqueous solution?
For the compound Ba(OH)2, the formulas of all the species that you can expect to be present in aqueous solution are:Ba2+ and 2OH-Ba2+ represents the cationic part of the compound, while 2OH- represents the anionic part of the compound.
In an aqueous solution of Ba(OH)2, the ions would dissolve and exist as free ions. The Ba2+ ion would carry a +2 charge, while the OH- ions would each carry a -1 charge. The balanced chemical equation for the compound dissociation in water is:Ba(OH)2 + 2H2O → Ba2+ + 2OH- + 2H2O
Thus, the formulas of all the species that you can expect to be present in an aqueous solution of Ba(OH)2 are Ba2+ and 2OH-.
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for the following reaction, kp = 0.262 at 1000°c: c(s) 2h2(g) ⇌ ch4(g) at equilibrium, the partial pressure of h2 is 1.26 atm. what is the equilibrium partial pressure of ch4(g)?
The equilibrium partial pressure of CH4(g) is 0.417 atm.
For the following reaction, Kp = 0.262 at 1000°C: C(s) + 2H2(g) ⇌ CH4(g) At equilibrium, the partial pressure of H2 is 1.26 atm.
The equilibrium constant (Kp) is defined as the ratio of the partial pressures of products to the partial pressures of reactants with each concentration term raised to a power equivalent to its coefficient in the balanced chemical equation.
At equilibrium, the partial pressure of H2 is 1.26 atm. CH4 partial pressure can be calculated by applying the equilibrium constant to this value. Here are the steps for calculating the equilibrium partial pressure of CH4(g): Write the equilibrium equation and the corresponding Kp expression.
Calculate the value of Kp.Substitute the known partial pressure of H2 into the equilibrium expression and solve for the unknown equilibrium partial pressure of CH4(g).At equilibrium, C(s) + 2H2(g) ⇌ CH4(g)The Kp expression is: Kp = PCH4/PH2²Kp = 0.262PCH4 = (Kp)(PH2²)PCH4 = (0.262)(1.26²)PCH4 = 0.417 atm
Therefore, the equilibrium partial pressure of CH4(g) is 0.417 atm.
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how many molecules of naclo4 are in 4.446 g of naclo4
There are 1.69 x 10²² molecules of NaClO4 in 4.446 g of NaClO4.
Avogadro's number (6.022 x 10²³) is the basis of calculations that convert grams to atoms or molecules.
The molar mass of NaClO4 is 22.99 + 35.45 + 4(16.00) = 146.99 g/mol, which is found by adding the atomic masses of each component. This is then converted to moles by dividing the mass of the sample by the molar mass.
The number of molecules can be found by multiplying the number of moles by Avogadro's number, which gives the number of molecules. The following is the calculation:
mass of NaClO4 = 4.446 g
molar mass of NaClO4 = 146.99 g/mol
moles of NaClO4 = mass / molar mass = 4.446 g / 146.99 g/mol = 0.03022 mol
Number of molecules = Avogadro's number × moles = (6.022 x 10²³) x 0.03022 = 1.69 x 10²² molecules
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What is recycling?
A
to use materials again and again to make something new.
b
produce new brand products and sell them.
c
living in the developed world but taking care of nature.
Answer:
A
Explanation:
I believe it's A sorry if any part of my answer is wrong i tried my best to help you improve
given the data, calculate the average rate of reaction for each successive time interval. what is the average rate of reaction for the time interval from 0 s to 205 s?
The average rate of reaction for the given time interval of 0 s to 205 s is calculated out to be -0.00088 M/s.
To calculate the average rate of reaction for each successive time interval, we need to use the formula:
Average rate of reaction = (Change in concentration) / (Change in time)
For the time interval from 0 s to 50 s, the change in concentration is (0.42 M - 0.50 M) = -0.08 M, and the change in time is (50 s - 0 s) = 50 s. Therefore, the average rate of reaction is:
Average rate of reaction = (-0.08 M) / (50 s) = -0.0016 M/s
Similarly, we can calculate the average rate of reaction for each successive time interval as follows:
----------------------------------------------------------------------------------------------------------
Time interval Change in concentration Change in time Average
rate of reaction
----------------------------------------------------------------------------------------------------------
0 s to 50 s -0.08 M 50 s -0.0016 M/s
50 s to 100 s -0.06 M 50 s -0.0012 M/s
100 s to 150 s -0.05 M 50 s -0.0010 M/s
150 s to 200 s -0.05 M 50 s -0.0010 M/s
200 s to 250 s -0.04 M 50 s -0.0008 M/s
----------------------------------------------------------------------------------------------------------
To find the average rate of reaction for the time interval from 0 s to 205 s, we need to add up the changes in concentration and divide by the total change in time:
Average rate of reaction = (-0.08 M - 0.06 M - 0.05 M - 0.05 M - 0.04 M) / (205 s - 0 s) = -0.00088 M/s
Therefore, the average rate of reaction for the time interval from 0 s to 205 s is -0.00088 M/s.
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The complete question is :
The following table shows the concentration of a reactant at various times during a chemical reaction. Calculate the average rate of reaction for each successive time interval. What is the average rate of reaction for the time interval from 0 s to 205 s?
Time (s) Concentration (M)
0 0.50
50 0.42
100 0.36
150 0.31
200 0.26
250 0.22
Define a daughter element
Answer:
A daughter element is the element formed when a radioactive element undergoes radioactive decay
Explanation:
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Help what's the answer??
Theoretical yield of iron (III) oxide is 4.92 g ; percent yield for this reaction is approximately 73.3%.
What is meant by theoretical yield?Quantity of a product obtained from reaction is expressed in terms of yield of the reaction. Amount of product predicted by stoichiometry is called theoretical yield and whereas amount obtained actually is called actual yield.
Balanced chemical equation for the reaction is: 4Fe + 3O₂→ 2Fe₂O₃
Molar mass of Fe = 55.85 g/mol
So, Number of moles of Fe = mass/molar mass = 3.44 g/55.85 g/mol = 0.0615 mol
and Number of moles of Fe₂O₃ = 0.0615 mol Fe × (2 mol Fe₂O₃/4 mol Fe) = 0.0308 mol Fe₂O₃
Molar mass of Fe2O3 = 159.69 g/mol
Theoretical yield of Fe₂O₃ = number of moles × molar mass = 0.0308 mol × 159.69 g/mol = 4.92 g
Therefore, theoretical yield of iron (III) oxide is 4.92 g.
As percent yield = (actual yield / theoretical yield) x 100%
So, percent yield = (4.32 g / 5.89 g) x 100% ≈ 73.3%
Therefore, percent yield for this reaction is approximately 73.3%.
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consider a solution of two gases. what is the effect of withdrawing heat on the probability of a successful reaction, on a per-collision basis?
Withdrawing heat from a solution of two gases will lower the temperature, affecting the probability of a successful reaction on a per-collision basis.
When temperature decreases, the average kinetic energy of the gas molecules also decreases. Consequently, the molecules move slower, resulting in fewer collisions between them. This reduces the chances of successful reactions occurring during each collision.
Moreover, a lower temperature means that the energy barrier for a reaction, known as activation energy, becomes relatively higher compared to the average kinetic energy of the molecules. Activation energy is the minimum amount of energy required for a reaction to occur.
The reaction rate, which is the speed at which a reaction proceeds, is influenced by temperature. The Arrhenius equation, which quantifies the relationship between temperature and reaction rate, shows that a decrease in temperature results in a slower reaction rate.
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calculate the ph of a solution that is 0.258 m nh2nh2 and 0.387 m nh2nh3cl. kb of nh2nh2 is 1.7 x 10-6.
The pH of the solution is 11.13.
First, let's write the balanced chemical equation for the reaction:
NH₂NH₂ + H₂O ↔ NH₂NH₃⁺ + OH⁻
The Kb expression for this reaction is,
Kb = [NH₂NH₃⁺][OH⁻] / [NH₂NH₂]
Since we're given the concentration of NH₂NH₂ and NH₂NH₃⁺, we can use the Kb expression to find [OH⁻]:
Kb = [NH₂NH₃⁺][OH⁻] / [NH₂NH₂]
1.7 × 10^-6 = (0.387-x)x / (0.258+x)
where x is the concentration of ion in mol/L.
Solving for x, we get:
x = 7.43 × 10^-4 M
Therefore, the concentration of OH⁻ ion in the solution is 7.43 × 10^-4 M. To find the pH of the solution, we can use the equation:
pH = 14 - pOH = 14 - (-log[OH⁻]) = 11.13.
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what will the concentrations of each species be when equilibrium is reestablished, relative to what they were in the initial equilibrium? justify your answer.
In general, the concentrations of each species at equilibrium will depend on the stoichiometry of the reaction, the equilibrium constant (K), and the initial concentrations of the reactants and products.
At equilibrium, the forward and reverse reaction rates are equal, and the concentrations of the reactants and products no longer change with time. The concentrations of each species at equilibrium will depend on the initial concentrations and the equilibrium constant. If the equilibrium constant is large, then the reaction will favor the products at equilibrium. If the equilibrium constant is small, then the reaction will favor the reactants at equilibrium.
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dinitrogen monoxide gas is collected at in an evacuated flask with a measured volume of . when all the gas has been collected, the pressure in the flask is measured to be . calculate the mass and number of moles of dinitrogen monoxide gas that were collected. round your answer to significant digits.
Once you have the correct values for pressure, volume, and temperature, follow these following steps to calculate the mass and number of moles of dinitrogen monoxide gas collected.
To calculate the mass and number of moles of dinitrogen monoxide gas collected, we will use the ideal gas law equation:
PV = nRT
where:
P = pressure in the flask
V = measured volume of the flask
n = number of moles of gas
R = ideal gas constant (0.0821 L atm / K mol)
T =temperature in Kelvin
However, the student question did not provide values for the pressure, volume, or temperature. Assuming that you have these values, you can proceed as follows:
1. Convert the given temperature to Kelvin if it's in Celsius (K = °C + 273.15).
2. Plug in the given values for P, V, and T into the ideal gas law equation
3. Solve for n (number of moles):
n = PV / RT
4. Calculate the mass of dinitrogen monoxide (N₂O) gas using the molar mass (44.013 g/mol):
mass = n × molar mass
5. Round your answers to the appropriate significant digits.
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What is the wavelength of a gamma ray that has a frequency of 8.56*10^19 hz?
the wavelength of this gamma ray is approximately 3.50 x [tex]10^-12[/tex] meters, which is in the range of typical gamma ray wavelengths.
The relationship between the frequency (f) and the wavelength (λ) of a wave is given by the formula:
c = fλ
where c is the speed of light in vacuum, which is approximately 3.00 x [tex]10^8[/tex] m/s.
To find the wavelength of a gamma ray with a frequency of [tex]8.56 x 10^19[/tex]Hz, we can use this formula and solve for λ:
c = fλ
λ = c / f
Substituting the given values:
λ = (3.00 x [tex]10^8[/tex] m/s) / (8.56 x Hz)
λ ≈ 3.50 x[tex]10^-12\\[/tex] m
Frequency is a measure of how many cycles or waves of a periodic signal occur per unit of time. It is usually measured in Hertz (Hz), which represents one cycle per second. For example, a sound wave with a frequency of 440 Hz corresponds to the musical note A above middle C.
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given that the grignard reaction used 1.4555 g phenyl bromide, 10. g carbon dioxide, 0.5734 g magnesium filings, and 30.2 ml of 6m hcl , what was the limiting reagent in the overall reaction, assuming each stepwise reaction ran to completion with only the desired product forming
Phenyl bromide is the limiting reagent in the Grignard reaction, as it produces the smallest number of moles of the Grignard reagent compared to magnesium and carbon dioxide.
The balanced equation for the Grignard reaction between phenyl bromide and carbon dioxide is:
C₆H₅Br + Mg + CO₂ → C₆H₅COOMgBr
To determine the limiting reagent in the reaction, we need to calculate the number of moles of each reactant and compare them to the stoichiometric coefficients in the balanced equation. The limiting reagent is the reactant that is completely consumed in the reaction and limits the amount of product that can be formed.
The molar mass of phenyl bromide is 157.01 g/mol, and the mass used is 1.4555 g, so the number of moles of phenyl bromide is:
1.4555 g / 157.01 g/mol = 0.009271 mol
The molar mass of magnesium is 24.31 g/mol, and the mass used is 0.5734 g, so the number of moles of magnesium is:
0.5734 g / 24.31 g/mol = 0.0236 mol
The molar mass of carbon dioxide is 44.01 g/mol, and the mass used is 10.0 g, so the number of moles of carbon dioxide is:
10.0 g / 44.01 g/mol = 0.227 mol
Finally, the molarity of the HCl solution is 6.0 mol/L, and the volume used is 30.2 mL, or 0.0302 L, so the number of moles of HCl is:
6.0 mol/L x 0.0302 L = 0.1812 mol
According to the balanced equation, one mole of phenyl bromide reacts with one mole of magnesium and one mole of carbon dioxide to produce one mole of the Grignard reagent. Therefore, the limiting reagent is the reactant that produces the smallest number of moles of the Grignard reagent.
Using the above calculations, we find that the number of moles of the Grignard reagent that can be formed from each reactant is:
Phenyl bromide: 0.009271 molMagnesium: 0.009271 mol (since one mole of magnesium reacts with one mole of phenyl bromide)Carbon dioxide: 0.009271 mol (since one mole of carbon dioxide reacts with one mole of phenyl bromide)Since the smallest number of moles is produced from phenyl bromide, it is the limiting reagent in the reaction.
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Find density of the rock
Answer:
12.5 g/cm³
Explanation:
You want the density of a rock that has a mass of 125 g and displaces 10 mL of water in a graduated cylinder.
ReadingsThe balance shows a mass that is the sum of the readings on the different beams:
20 +100 + 5 = 125
We presume the balance is measuring grams.
The graduated cylinder shows an increase in volume from 20 mL to 30 mL when the rock is added to the water. This means the rock has a displacement of ...
30 mL -20 mL = 10 mL = 10 cm³
DensityThe density is found using the given formula:
density = mass/volume
density = (125 g)/(10 cm³) = 12.5 g/cm³
The density of the rock is 12.5 g/cm³.
from the following options, which would you expect to be the best nucleophile? ---------------------------------------------------------------------------------------------------------------------'
Answer:
CH3-0-
Explanation:
An anion is always a better nucleophile than a neutral molecule.
Nucleophilicity is parallel to basicity. Acidity: HI > HCN > H₂O > EtOH. So, among the options provided, the best nucleophile is A) [tex]EtO}^-[/tex].
A chemical species known as a nucleophile is one that tends to give an electron pair to an electrophile during a chemical reaction, often an atom or an ion. The word "nucleophile," which refers to someone who is drawn to positively charged regions in a chemical reaction, is derived from the Latin terms "nucleus," which means "nucleus or core," and "philein," which means to love.
Many chemical processes, including addition, elimination, and nucleophilic substitution reactions, depend heavily on nucleophiles. In these reactions, molecules that are electron-deficient and have a propensity to attract electrons—known as electrophiles—are attacked by nucleophiles.
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From the following options, which would you expect to be the best nucleophile?
A) [tex]EtO}^-[/tex]
B) [tex]{OH}^-[/tex]
C) [tex]{CN}^-[/tex]
D) [tex]{I}^-[/tex]
does the freezing point depression equal the freezing point of pure solution minus the freezing point of the solution
No, the freezing point depression does not equal the freezing point of the pure solvent minus the freezing point of the solution.
The freezing point depression is defined as the difference between the freezing point of the pure solvent and the freezing point of the solution. In other words, it is the amount by which the freezing point of the solvent is lowered when a solute is added to it.
The freezing point depression is related to the concentration of the solute in the solution, as well as the properties of the solvent and solute. The greater the concentration of the solute, the greater the freezing point depression.
The relationship between freezing point depression, solute concentration, and solvent properties is described by the equation ΔTf = Kf·m, where ΔTf is the freezing point depression, Kf is the freezing point depression constant of the solvent, and m is the molality of the solute in the solution.
In summary, the freezing point depression is not equal to the freezing point of the pure solvent minus the freezing point of the solution, but rather the difference between the freezing point of the pure solvent and the freezing point of the solution, and is related to the concentration of the solute in the solution.
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I need help w the moon phase for science
Answer:
where is the photo
Explanation:
where is it???
why do you think putting the stoppers on the tubes throughout the activity except for when you take out a sample to read the absorbance was important?
According to the Beer lamberts law the absorbance is directly proportional to the concentration of the sample.
Beer-lambert Law states that when the extinction coefficient and the path length are constant, the absorbance is proportional to the concentration of the sample. According to this law the absorbance is directly proportional to the length of the light path. It is equals to the inner width of the cuvette. It is evident that the path length affects absorbance. We know that with a longer optical path length, the light has to travel through more solution and can hit more molecules or atoms and be absorbed more of the solution. The absorbance is directly proportional to the concentration of the given sample.
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The complete question is,
Does stopper affect absorbance?
What are the following organic molecules.
Answer: [1 ] 3-ethyl- 1,1-dimethyl-cyclohexane
[2] 1-methyl-ethoxy-propanol
[3] 4-oxo-pentan-2-one
[4] 2-ethyl-4-hydroxy-3-methyl-pentanoic acid
Explanation:
magnesium ions form ioni bods with flouride ions in a 1:2 ratio.explain how eletrons are transferred between atoms and how the ionic bonds form in this compound
Total two electrons are transferred between atoms of magnesium and flourine. Ionic bond is formed between atoms by donating two electrons of magnesium atom to the two fluorine atoms.
Every element has atomic orbitals that contain a specific number of electrons . Out of these electrons, only outermost shell electrons of the atom participating in bond formation with another atom. We have a ratio of magnesium to fluoride ions, mole ratio = 1 : 2 , that one magnesium and two flourine atoms are there. Electronic configuration of Mg (12)
= 1s²2s²2p⁶3s²
Similarly, Electronic configuration of F (17)
= 1s²2s²2p⁶3s²3p⁵
Thus, the valency of Magnesium is two and Fluorine is one. Ionic compound is formed by magnesium cation and fluoride anion. Thus, magnesium'valence electrons (2 electrons) will be transferred completely to form an ionic bond with two fluorine atoms having 7 valence electrons each and form a MgF₂ molecule. The Lewis structure of MgF₂ compound is present in above figure.
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Which atom is a different element than the others
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Mg + 2 HCl ➞ MgCl2 + H2
2.26 moles of HCl are reacted how many grams of Mg were used in the reaction??
Answer: 24.31g/mol
Explanation:
The correct answer is To determine the mass of Mg used in the reaction, we need to know the number of moles of Mg that reacted with the 2.26 moles of HCl. To do this, we can use the mole ratio from the balanced chemical equation:
Mg + 2 HCl → MgCl2 + H2 According to the stoichiometry of this equation, 1 mole of Mg reacts. With 2 moles of HCl to produce 1 mole of MgCl2 and 1 mole of H2. Therefore, to determine the amount of Mg used in the reaction, we need to first calculate the number of moles of HCl that reacted, and then use the mole ratio between Mg and HCl to find the number of moles of Mg. Given that 2.26 moles of HCl were used in the reaction, we can use the mole ratio of the balanced equation to calculate the number of moles of Mg moles of Mg = 1/2 x moles of HCl = 1/2 x 2.26 mol = 1.13 mol Now that we know the number of moles of Mg used, we can calculate the mass of Mg using its molar mass: mass of Mg = moles of Mg x molar mass of Mg = 1.13 mol x 24.31 g/mol = 27.5 g Therefore, the mass of Mg used in the reaction was 27.5 grams.
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The calibration is to the 2mL, so we do not estimate another digit. What is the volume of liquid in the cylinder?
If the calibration is to 2 ml, calibration lines are marked on the cylinder every 2 ml. Therefore, we can calculate the liquid volume in the cylinder to the nearest 2 ml.
What does "calibration" signify in chemistry?Calibration in chemistry is the process of ensuring that any scientific method or instrument produces accurate results. If the calibration is 2 ml, then there are calibration lines on the cylinder spaced 2 ml apart.
How does calibration work?Formally, calibration is the process of comparing a measurement device that needs to be calibrated to a device or reference standard that can be tracked. The term "calibrator" may also be used to describe the reference standard. According to logic, the calibration of the instrument should be more precise than the reference standard.
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if the bod of a municipal waterwaaste at the end of 7 days is 60.0 ml/l and the ultimate bod is 85.0 ml/l, what is the rate constant? assume the temperature is 20c
According to the BOD values given, the rate constant (k) is approximately 0.0291 per day at 20°C.
BOD or biochemical oxygen demand is the amount of dissolved oxygen absorbed by aerobic bacteria growing on the organic material present in a water sample at a certain temperature during a specific period measured analytically.
To calculate the rate constant (k), we can use the following formula:
k = ln(BOD1/BOD2)/t
Where,
BOD1 = Initial BOD concentration
BOD2 = BOD concentration after time t
t = time elapsed in days
Given that,
BOD concentration at the end of 7 days (BOD2) = 60.0 ml/l
Ultimate BOD concentration (BOD1) = 85.0 ml/l.
The time elapsed (t) = 7 days.
Therefore,
k = (ln(85.0/60.0))/7
k = 0.0291 per day
Thus, the rate constant (k) is approximately 0.0291 per day at 20°C.
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Neon gas was heated from 50oC to 150oC. Its new volume is 175 mL. What was the original volume?
Charles's Law-
[tex]\:\:\:\:\:\: \:\:\:\:\:\:\star\longrightarrow\sf \underline{\dfrac{V_1}{T_1}=\dfrac{V_2}{T_2}}\\[/tex]
Where:-
V₁ = Initial volumeT₁ = Initial temperatureV₂ = Final volumeT₂ = Final temperatureAs per question, we are given that -
V₂ =175 mLT₁ = 50°CT₂ = 150°CWe are given the initial temperature and the final temperature in °C.So, we first have to convert those temperatures in Celsius to kelvin by adding 273-
[tex]\:\:\:\:\:\:\star\sf T_1[/tex] = 50+ 273 = 323K
[tex]\:\:\:\:\:\:\star\sf T_2[/tex] =150+273 = 423K
Now that we have obtained all the required values, so we can put them into the formula and solve for V₁:-
[tex]\:\:\:\:\:\: \:\:\:\:\:\:\star\longrightarrow\sf \underline{\dfrac{V_1}{T_1}=\dfrac{V_2}{T_2}}\\[/tex]
[tex] \:\:\:\:\:\:\:\:\:\:\:\:\longrightarrow \sf V_1 = \dfrac{V_2}{T_2}\times T_1\\[/tex]
[tex] \:\:\:\:\:\:\:\:\:\:\:\:\longrightarrow \sf V_1 = \dfrac{175}{423}\times 323\\[/tex]
[tex] \:\:\:\:\:\:\:\:\:\:\:\:\longrightarrow \sf V_1 = 0.41371......\times 323\\[/tex]
[tex]\:\:\:\:\:\: \:\:\:\:\:\:\longrightarrow \sf V_1 = 133.628........\\[/tex]
[tex] \:\:\:\:\:\:\:\:\:\:\:\:\longrightarrow \sf\underline{ V_1 = 133.63 mL}\\[/tex]
Therefore, the original volume ( Initial volume) of neon is 133.63mL.
the reaction rate constant is determined to be 0.012 m-1 s-1. if after 27 minutes the amount of a left is 0.048 m. what was the initial concentration of a?
The initial concentration of 'A' was approximately 1.371 M.
To determine the initial concentration of 'A' given the reaction rate constant, time, and the remaining amount of 'A', you can use the integrated rate law equation for a first-order reaction:
[A]t = [A]₀ * e^(-kt)
where:
[A]t = concentration of 'A' at time t (0.048 M)
[A]₀ = initial concentration of 'A'
k = reaction rate constant (0.012 M⁻¹ s⁻¹)
t = time in seconds (27 minutes = 27 * 60 = 1620 seconds)
Now, let's solve for [A]₀:
0.048 M = [A]₀ * e^(-0.012 M⁻¹ s⁻¹ * 1620 s)
To find [A]₀, divide both sides by e^(-0.012 * 1620):
[A]₀ = 0.048 M / e^(-0.012 * 1620)
Now, calculate the value:
[A]₀ ≈ 0.048 M / e^(-19.44)
[A]₀ ≈ 0.048 M / 0.000035
[A]₀ ≈ 1.371 M
So, the initial concentration of A was approximately 1.371 M.
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he partial pressure of carbon dioxide is 45 mm hg in the blood and 40 mm hg in the alveoli. what happens to the carbon dioxide?
b) It diffuses into the alveoli is the correct option. The gas goes from a higher partial pressure to a lower partial pressure along its own gradient.
The partial pressure of CO2 at the blood is thus 45 mm Hg and at the alveoli is 40 mm Hg. After then, CO2 travels from the blood to the alveoli. In this mechanism, CO2 cannot be broken down into carbon and oxygen. Compared to O2, CO2 is more soluble in blood. For CO2 diffusion, a very small partial pressure gradient is required. It just takes a 5-mmHg pressure gradient for CO2 gas to diffuse. Hence, CO2 will transfer from blood into alveoli.
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Complete Question:
The partial pressure of carbon dioxide is 45 mm Hg in the blood and 40 mm Hg in the alveoli. What happens to the carbon dioxide?
a) It diffuses into the blood.
b) It diffuses into the alveoli.
c) The gradient is too small for carbon dioxide to diffuse.
d) It decomposes into carbon and oxygen