According to a first-order rate law with a rate constant of 0.0058 min1, the reaction requires a concentration of iodide of about 4.83 mM before the color changes after 12 minutes.
How does the rate of the reaction change as the concentration of iodide ions rises?The demonstration in the movie shows that larger iodide ion concentrations accelerate the first reaction, hastening the depletion of thiosulfate. Because of this, the reaction's end-signaling color shift happens faster.
rate = k[I-]
[I-] = rate / k
Plugging in the given rate (0.028 mM/12 min), we get:
[I-] = (0.028 mM/12 min) / k
[I-] = (0.028 mM/12 min) / (0.0058 min⁻¹)
[I-] ≈ 4.83 mM
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How many mol of NO can be produced from 3.3 g. of O2?
Therefore, 0.2062 mol of NO can be produced from 3.3 g of O2. In order to determine the number of moles of NO that can be produced from 3.3 g of O2.
What is balanced reaction?2NO + O2 → 2NO2 From the balanced equation, we can see that the stoichiometric ratio between O2 and NO is 1:2. This means that for every one mole of O2 that reacts, two moles of NO are produced.
To calculate the number of moles of O2 present in 3.3 g, we need to use the molar mass of O2, which is 32.00 g/mol:
moles of O2 = mass of O2 / molar mass of O2
moles of O2 = 3.3 g / 32.00 g/mol
moles of O2 = 0.1031 mol
Now, we can use the stoichiometric ratio to determine the number of moles of NO produced:
moles of NO = 2 x moles of O2
moles of NO = 2 x 0.1031 mol
moles of NO = 0.2062 mol
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Can someone please help me with the last column!! ASAP
The ratio of the volume and temperature of the gas in the given table is as follows:
0.72/276 = 0.002620.78/294 = 0.002650.84/313 = 0.002680.87/330 = 0.002630.93/355 = 0.002620.98/371 = 0.00264What is the relationship between the volume and temperature of a gas?Charles's law, also known as the law of volumes, describes the relationship between the volume and temperature of a gas at a constant pressure. According to this law, the volume of a gas is directly proportional to its absolute temperature (measured in Kelvin) when the pressure is constant.
In other words, as the temperature of a gas increases, its volume will also increase proportionally, and vice versa. Mathematically, Charles's law can be expressed as:
V/T = k
where V is the volume of the gas, T is its temperature in Kelvin, and k is a constant of proportionality.
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How many hydrogen atoms are in NH3?
Answer: 3 hydrogen Atoms
Answer:3 atoms
Explanation:
0. 45 moles dissolved to make 605. 0 mL of solution
What is the molarity?
The molarity (M) of a solution is defined as the number of moles of solute dissolved in one liter of solution. the molarity of the solution is 0.744 M.
We can use the formula:
M = moles of solute / volume of solution (in liters)
to calculate the molarity of the solution.
Given that 0.45 moles of solute are dissolved to make 605.0 mL of solution, we first need to convert the volume to liters by dividing by 1000:
605.0 mL / 1000 mL/L = 0.605 L
Now we can use the formula to calculate the molarity:
M = 0.45 moles / 0.605 L = 0.744 M
Molarity is a commonly used unit of concentration in chemistry, and it represents the number of moles of solute present in one liter of solution. Molarity is a useful way to express the concentration of a solution because it is independent of temperature and pressure, and it is directly proportional to the amount of solute present in the solution.
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total molar mass of hydrogen in 8 moles of water?
The total molar mass of hydrogen in 8 moles of water is 16 g/mole.
1 molecule of water contains 2 atoms of H and 1 atom of O.
What is molar mass?
The ratio between the mass and the substance content (measured in moles) of any sample of a chemical compound is known as the molar mass (M). The molar mass of a substance is a bulk attribute rather than a molecular one. The compound's molar mass is an average over numerous samples, which frequently have different masses because of isotopes.
The molar mass is a crucial characteristic of the material that is independent of sample size. The coherent unit of molar mass in the International System of Units (SI) is kg/mol.
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An atom with 2 protons and 4 neutrons is an
A. Positive atom
B. Neutral atom
C. Negative atom
Answer:
The answer is B!
Explanation:
Its a Neutral Atom.
7) For each of the following substances, decide whether it is a solution. If it is, list first solvent and then the primary solute. A. Sterling silver b. Chocolate milk c. Root beer d. Egg whites e. Rubbing alcohol f. Diver's air
Options A, B, D and E are solutions. Among all the solutions, sterling silver, egg white and rubbing alcohol are solvents and chocolate milk is a primary solute.
A solvent is defined as a substance that dissolves a solute resulting in a solution. A solvent is generally of a liquid but can also be a solid, a gas, or a supercritical fluid. A solute is defined as a substance that will dissolve into a liquid. Sterling silver is a solution and it is solvent. Chocolate milk is a solution and considered as solute. Egg white is called as an alkaline solution and contains around 149 proteins. This can be used as a favorable solvent for extracting the active ingredient. Rubbing alcohol is a solution and considered as a solvent.
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We will do a little experiment. We will have four aquatic plants and we will put them into water with bromothymol blue. Read the right column in the table information below to see how this will be set up.
Let’s make some predictions about what we think will happen with the color change. Remember that the more carbon dioxide in the water, the more green the water will appear. The less carbon dioxide in the water, the more blue the water will appear.
Discussion Question
For each of the four plants, answer the question, “Will there be a color change?” If you think there will be a color change, explain what color you think the water will change to. If you don't think there will be a color change, explain why you think the color will stay the same.
WORTH 20 PTS!!!
Plants that have evolved to surviving in aquatic settings are known as aquatic plants (saltwater or freshwater).
What is the main function of aquatic plants?Aquatic plants offer a source of sustenance, a habitat, a way to get rid of carbon dioxide, and a way to make air through photosynthesis. Since they create sustenance for both themselves and the consumers or creatures in an environment, plants serve as its producers.
Aquatic plants do not require a solid stalk because of their buoyancy in the water. Instead, they are held erect by flotation devices like gas-filled stomata and intercellular spaces, which also allow them to develop toward the water's top and receive enough sunshine for photosynthesis.
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consider the possible reagent combinations and determine whether they will give the product formed. if so, select the most probable route, based on the likelihood of forming the cyclopentyl reagent from the starting amide.
The most likely route to forming a cyclopentyl reagent from an amide would involve deprotonation of the amide with a strong base, such as lithium diisopropylamide (LDA), followed by treatment with an alkyl halide. The amide would be deprotonated, resulting in a carbanion that could be reacted with the alkyl halide, forming a new alkyl carbocation. A subsequent nucleophilic attack from a Lewis base, such as the conjugate base of the amide, would lead to formation of the cyclopentyl reagent.
This reaction can also be accomplished by a single-step procedure involving a Grignard reagent, such as ethylmagnesium bromide, and the amide. The Grignard reagent is deprotonated by the amide, and the resulting carbanion is reacted with the alkyl halide, resulting in a new alkyl carbocation. A subsequent nucleophilic attack from a Lewis base, such as the conjugate base of the amide, would lead to formation of the cyclopentyl reagent.
Therefore, the most likely route to forming the cyclopentyl reagent from the starting amide would involve deprotonation of the amide with a strong base followed by treatment with an alkyl halide. Alternatively, a single-step procedure using a Grignard reagent and the amide could also be used.
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What is the partial pressure of oxygen when this mixture is delivered at a total pressure of 9. 2 atm
Answer:
When this mixture is supplied at a total pressure of 7.8 atm, the partial pressure of oxygen will be 0.0198 atm.
The amount of pressure that each gas in a mixture exerts is referred to as "partial pressure." This is found by using the formula, Partial pressure = Mole fraction × Total pressure.
Explanation:
Use the periodic table to determine the electron configuration for Cl and Y in noble-gas notation.
Cl:
A. ) [He]2s22p63s23p5
B. ) [Ne]3s23p4
C. )[Ar]3s23p5
D. )[Ne]3s23p5
The correct electron configuration for Cl in noble-gas notation is option D, [Ne]₃s²³p⁵.
This notation indicates that the electron configuration of Cl is the same as that of the noble gas neon ([He]₂s²²p⁶), except for the three additional electrons in the 3rd shell, occupying the 3s and 3p orbitals.
The electron configuration for Y in noble-gas notation can be determined by finding the noble gas that precedes Y in the periodic table, which is Kr. The electron configuration for Kr is [Ar]₃d¹⁰⁴s²⁴p⁶
Yttrium (Y) has an atomic number of 39, which means it has 39 electrons. The electron configuration for Y in noble-gas notation is therefore:
[Kr]₅s²⁴d¹
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How many moles of oxygen O2 are consumed per every 50 moles of CO2 that are produced during the combustion of ethane C2H6?
Answer:
The balanced chemical equation for the combustion of ethane (C2H6) is:
C2H6 + O2 → CO2 + H2O
According to the stoichiometry of the balanced equation, 1 mole of C2H6 reacts with 3 moles of O2 to produce 2 moles of CO2. Therefore, the ratio of moles of O2 consumed to moles of CO2 produced is:
3 mol O2 / 2 mol CO2
To determine how many moles of O2 are consumed per every 50 moles of CO2 produced, we can set up a proportion:
3 mol O2 / 2 mol CO2 = x mol O2 / 50 mol CO2
Cross-multiplying and solving for x, we get:
x = (3 mol O2 / 2 mol CO2) x 50 mol CO2 = 75 mol O2
Therefore, 75 moles of O2 are consumed per every 50 moles of CO2 produced during the combustion of ethane.
Explanation:
In the passage what’s in a name which of the following is the best summary of the passage
The best summary of the given passage is Sumerians invented writing by drawing on soft pieces of clay because they needed some way to keep track of what they owned.
The Sumerians: who are they?In the Mesopotamian areas, Sumer, an ancient civilization, was created. The area between the Euphrates and Tigris rivers is a fertile crescent.
They are well known for a variety of accomplishments, including their breakthroughs in the fields of language, government, architecture, and many others. The Sumerians are responsible for the contemporary human understanding of civilization.
The given text shows their contributions to drawing on soft pieces of clay which was their invention of writing.
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Which of the following is the best summary of the passage? Use the notes provided to guide you. Main Idea: The greatest gift the Sumerians gave the world was the invention of writing. Notes: Sumerians invented writing needed to keep records called cuneiform drew on clay tablets used shapes Sumerians The greatest gift the Sumerians gave the world was the invention of writing. The Sumerians were a wealthy people. They needed some way to keep track of what they owned. They began drawing pictures. They used a reed as a pen. They drew on soft pieces of clay. The soft clay was then dried in the sun. The tablet became a permanent record. Later, the Sumerian drawings changed into wedge-shaped symbols. This kind of writing is called cuneiform. By putting symbols together, the Sumerians could write entire sentences.
Propose an efficient synthesis of 2-ethylbutyric acid starting from 3-ethylpentane. You do not need to show mechanisms, but you should show all intermediates. Work with a group, this POD is challenging!
An ester is ethyl butyrate (C6H12O2), usually referred to as ethyl butanoate or butyric ether. In addition to function as a solvent, ethanol butyrate is often employed as an extractor, flavouring, or fragrance.
It is a flammable, colourless liquid with a smell of banana, orange, or pineapple. Alcoholic beverages contain the volatile ethyl ester ethyl butanoate, which saccharomyces produces during fermentation. When ethanol and a fatty acid interact, ethanol esters are created.
The chemical name for ethyl butyrate, popularly known as ethyl butanoate or butyric ether, is CH3CH2CH2COOCH2CH3. Kerosene, paraffin oil, and propylene glycol are all soluble in it. It is an important factor used as a taste enhancer in processed oranges and provides a delicious aroma comparable to banana.
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How much energy is released when a 98g sample of water is cooled from 123°C to 23PC?
when a sample of benzene combusts completely in oxygen it is found that 522 liters of co2 were produced at stp. how many benzene molecules were in the sample that underwent combustion?
The amount of benzene in the sample that burned was [tex]4.14*10^{26}[/tex] molecules.
The molecular weight of benzene is 78.11 g/mol. This means that the number of moles of benzene in the sample can be calculated by dividing the mass of the sample (522 liters of CO2 is approximately 522 kg at STP) by 78.11 g/mol.
The number of moles of benzene in the sample can then be used to calculate the number of benzene molecules. This is given by the equation:
Number of benzene molecules = Number of moles x Avogadro's Constant
The number of benzene molecules in the sample that underwent combustion is:
Number of benzene molecules
[tex]=\frac{ 522 kg }{ 78.11 g/mol} * 6.02 * 10^{23} molecules/mol\\\\= 4.14 * 10^{26 }molecules[/tex]
Therefore,[tex]4.14*10^{26}[/tex] molecules of benzene molecules were in the sample that underwent combustion.
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if copper ii bromide produces cuo according the the following overall equation c u b r subscript 2 (s )space plus space 2 n a o h space (a q )space rightwards arrow with capital delta on top space c u o space (s )space plus space 2 n a b r space (a q )space plus space h subscript 2 o space (l )and 0.700 g of cubr2 are reacted, what is the theoretical yield in grams for cuo?
The theoretical yield of CuO is 0.403 g.
To calculate the theoretical yield, the first step is to determine the limiting reactant, which is the reactant that is completely consumed and thus limits the amount of product that can be formed. To do this, we need to compare the amounts of CuBr₂ and NaOH that are available, and determine which one will be used up first.
The balanced chemical equation tells us that 1 mole of CuBr₂ reacts with 2 moles of NaOH to produce 1 mole of CuO. From the given amount of CuBr₂ (0.700 g), we can convert to moles using the molar mass of CuBr₂ (223.36 g/mol):
0.700 g CuBr₂ x (1 mol CuBr2/223.36 g CuBr₂) = 0.00313 mol CuBr₂
From the amount of NaOH (not given), we can assume that there is excess NaOH, meaning that all of the CuBr2 will react and the NaOH will not be completely consumed. Therefore, we can use the amount of CuBr2 to calculate the theoretical yield of CuO:
0.00313 mol CuBr₂ x (1 mol CuO/1 mol CuBr₂) x (79.55 g CuO/mol) = 0.403 g CuO
Therefore, the correct answer is 0.403 g.
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How many grams of F are in 295 g CaF2?
If 400cm³ of Q was collected at 250°c and 1.20×10³nm², calculate the volume it would occupy at STP
Answer:
2.481cm³
Explanation:
this is general has equation so the formula is
P1V1/T1 = P2V2/T2
At STP, pressure is 1.01*10⁵ and temperature is 273K
((1.20*10³)400)/(250+273) = ((1.01*10⁵)V2/(273)
V2 = 2.481cm³
if you mixed 20 mL of a 12 M acid into 500 mL, what's the concentration of the final solution (rounded to one sig fig)?
The concentration of the final solution, rounded to one significant figure, is 0.5 M.
What is the concentration of the final solution?To find the concentration of the final solution, we need to use the formula:
C1V1 = C2V2
where;
C1 is the initial concentration, V1 is the initial volume, C2 is the final concentration, and V2 is the final volume.In this problem, we can plug in the given values and solve for C2:
C1 = 12 M
V1 = 20 mL = 0.02 L
V2 = 500 mL = 0.5 L
C1V1 = C2V2
(12 M)(0.02 L) = C2(0.5 L)
0.24 = 0.5C2
C2 = 0.48 M
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what's the answerrr?? :)
Magnesium ribbon reacts with dilute hydrochloric acid. Explain how altering the concentration of the hydrochloric acid alters the rate of the reaction???? (3 marks)
Explanation:
The reaction between magnesium ribbon and dilute hydrochloric acid is a classic example of a single replacement reaction, which can be represented by the following chemical equation:
Mg (s) + 2HCl (aq) → MgCl2 (aq) + H2 (g)
In this reaction, magnesium (Mg) reacts with hydrochloric acid (HCl) to form magnesium chloride (MgCl2) and hydrogen gas (H2).
The rate of this reaction can be altered by changing the concentration of the hydrochloric acid. This is because the rate of a chemical reaction depends on the concentration of the reactants. Specifically, the rate of the reaction is proportional to the concentration of the reactants raised to some power, which is determined by the reaction's rate law.
In this reaction, the rate law can be expressed as:
Rate = k [Mg] [HCl]^x
Where k is the rate constant and x is the order of the reaction with respect to hydrochloric acid. The order of the reaction with respect to magnesium is one, since the concentration of magnesium does not change during the reaction.
When the concentration of hydrochloric acid is increased, the rate of the reaction increases because there are more hydrochloric acid molecules available to collide with magnesium atoms and react. This means that the value of x is greater than zero and the reaction is dependent on the concentration of hydrochloric acid.
Conversely, when the concentration of hydrochloric acid is decreased, the rate of the reaction decreases because there are fewer hydrochloric acid molecules available to react with magnesium. This means that the value of x is less than one and the reaction is not entirely dependent on the concentration of hydrochloric acid.
explain the purpose of choosing two different metals as the reference to measure relative reduction potentials
The purpose of choosing two different metals as the reference to measure relative reduction potentials.
The process of determining the reduction potential of a metal necessitates the use of another metal for reference. A reference electrode with a well-known reduction potential is paired with the metal being studied as the working electrode to determine the reduction potential of the metal being studied.
There are a variety of reference electrodes available, but the standard hydrogen electrode is typically used as the reference electrode for electrochemical studies.
The standard hydrogen electrode's reduction potential has been calculated to be 0 volts. The reduction potential of a metal is a measure of the metal's tendency to gain electrons when it comes into touch with another substance. When a metal is oxidized or reduced, its reduction potential varies. As a result, when measuring reduction potentials, it is necessary to use two different metals as references.
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Before burning, the initial mass of a candle is 9.5 grams. After burning for several minutes, the final mass is 5.4 grams.
Which of the following is the best explanation for the measured masses before and after the chemical reaction?
A. The mass in the wax candle transforms into energy that is burned, hence the higher mass after the reaction.
B. The mass in the wax candle transforms into a gas that is released when burned, hence the lower mass after the reaction.
C. This cannot be an accurate measure of the final mass because the reactants and products should be equal according to the law of conservation of mass.
D. This cannot be an accurate measure of the final mass because the products should always have a greater mass than the reactants according to the law of conservation of mass.
Answer:
The correct answer is B.
Explanation:
The mass in the wax candle transforms into a gas that is released when burned, hence the lower mass after the reaction.
Burning a candle involves a chemical reaction in which the wax in the candle reacts with oxygen in the air to produce carbon dioxide and water vapor. During this reaction, some of the wax is transformed into a gas, which is released into the air. This means that the total mass of the reactants (wax and oxygen) is greater than the total mass of the products (carbon dioxide, water vapor, and unreacted oxygen), resulting in a lower mass after the reaction.
This is consistent with the Law of Conservation of Mass, which states that the total mass of the reactants is equal to the total mass of the products in a chemical reaction. However, it is important to note that in this case, the mass loss is due to the release of gas, rather than a violation of the law of conservation of mass.
which of the following is true concerning successive ionizations of an atom and its ions? a) each successive ionization requires less energy to achieve. b) all ionizations require the same amount of energy. c) the amount of energy required to achieve a successive ionization doubles with each electron removed. d) each successive ionization requires increasing amounts of energy. e) the first two ionizations are endothermic but each ionization afterwards is exothermic.
The correct option is D: each successive ionization requires increasing amounts of energy
The ionization energy of an atom is the energy that is required to remove an electron from the atom or a positive ion that is produced from the atom.
When an atom loses its electron, the ion that is produced is positively charged. Successive ionization energies are the amount of energy required to remove the next electron after the first electron is removed.
Each successive ionization requires increasing amounts of energy. The first ionization energy is the energy required to remove the first electron.
After the first electron is removed, the number of electrons that are left is less, so the remaining electrons experience more attraction to the nucleus.
So, the amount of energy required to remove the second electron is more than the amount required to remove the first electron.
Similarly, as we go on removing electrons, the energy required to remove each electron continues to increase.
So, the correct option is d) each successive ionization requires increasing amounts of energy.
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explain how you would make a 1/3 dilution of e. coli if you had a tube of diluent with a volume of 1.7 ml. what volume of e. coli would you need to add to the diluent tube? show all of your work:
We need to add 0.57 mL of E. coli to 1.13 mL of diluent.
To make a 1/3 dilution of E. coli, we need to dilute it 1 part in 3. This means that the final volume of the diluted sample will be 3 times the original volume of the E. coli.
To make a 1/3 dilution of e. coli if you had a tube of diluent with a volume of 1.7 ml, we need to follow the given steps:
First, calculate the volume of bacterial culture you need to add:
The volume of bacterial culture = 1/3 × 1.7 = 0.5667 ml. (rounded off to 4 decimal places)
Use a micropipette to take out 0.5667 ml of the culture to a new tube.
Now, add 1.7 - 0.5667 = 1.1333 ml of the diluent into the new tube to get a 1/3 dilution of E. coli. (rounded off to 4 decimal places)
Mix the dilution thoroughly.
Label the tube appropriately.
It is important to label the tube with the contents inside the tube so that it does not cause any confusion with other tubes or in the future when someone is trying to use it.
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What volume of water in mL would be needed to prepare a 0.40M solution using 90.0g of Kool-Aid?
To prepare a 0.40M solution using 90.0g of Kool-Aid, we would need to dissolve the Kool-Aid in 657.5 mL of water.
How to determine the volume of water needed to prepare a 0.40M solution using 90.0g of Kool-Aid?
To determine the volume of water needed to prepare a 0.40M solution using 90.0g of Kool-Aid, we need to know the molar mass of Kool-Aid and the desired volume of the final solution.
Since Kool-Aid is a mixture of various compounds, we do not have a single molar mass value for it. However, we can estimate its average molar mass by assuming that the main component of Kool-Aid is sugar (sucrose), which has a molar mass of 342.3 g/mol.
Assuming that the Kool-Aid powder is 100% sucrose, we can calculate the number of moles of Kool-Aid present in 90.0 g as follows:
number of moles = mass
/ molar mass
number of moles = 90.0 g / 342.3 g/mol
number of moles = 0.263 mol
To prepare a 0.40M solution using this amount of Kool-Aid, we need to dissolve it in a volume of water that will result in a final solution with a total volume of 1 L (1000 mL) and a concentration of 0.40 mol/L. We can calculate the required volume of water as follows:
moles of Kool-Aid = concentration x volume
0.263 mol = 0.40 mol/L x volume
volume = 0.263 mol / 0.40 mol/L
volume = 0.6575 L = 657.5 mL
Therefore, to prepare a 0.40M solution using 90.0g of Kool-Aid, we would need to dissolve the Kool-Aid in 657.5 mL of water.
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If 4. 15 ml 4. 15 ml of 10. 0 m naoh naoh is used for a reaction, calculate the number of moles of naoh naoh that were used
Answer:
0.0415mol
Explanation:
C = n/v
n= 4.15ml x 10
n = 41.5mml
What volume of a 0.500 m sodium chloride solution is required to make 500. ml of a 0.100 m sodium chloride solution?
Answer:
Option D is the answer of this question
Explanation:
0.100 L
calculate the ph during the titration of 20.00 ml of 0.1000 m hcooh(aq) with 0.1000 m naoh(aq) after 19.55 ml of the base have been added. ka of formic acid
1.8 is the pH during the titration of 20.00 mL of 0.1000 M HCOOH (formic acid) with 0.1000 M NaOH (aq) after 19.55 mL of the base have been added
This can be calculated using the equation below:
pH = -log10([H+])
Where [H+] is the concentration of H+ ions, given by the formula:
[H+] = Ka * [HCOOH] / (Ka + [NaOH])
Ka is the acid dissociation constant of formic acid, which is 1.7 × 10-4.
Using the above equation and data, we can calculate the pH during the titration of 20.00 mL of 0.1000 M HCOOH with 0.1000 M NaOH after 19.55 mL of the base have been added as follows:
[H+] = 1.7 x 10-4 * 0.1000 / (1.7 x 10-4 + 0.1000) = 0.0156 M
Therefore, pH = -log10 (0.0156) = 1.8
Hence , the pH during given titration is 1.8 .
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Find the oxidation state of each of the following
1. Se in H₂SeO3
2. N in Al(NO3)3
3. H in BaH₂
4. Si in Na4SiO4
5. I in NalO4
6. O in Na2O2
7. Be in HBrO
8. N in N2O3
9. C in K2Cr2O7
10. Si in NH4AlSiO4
11. Cr in K2Cr2O7
12. Cl in Mg(ClO4)2
Answer:Let x be the oxidation station of sodium in Na
2
O
2
.
It contains a peroxide linkage in which each O atom has the oxidation number of -1.
2x+2(−1)=0
x=+1
Thus, the oxidation state of sodium in Na
2
O
2
is +1.