Answer:
on it iis renewable energy it is independent
which of the statements is a postulate of kinetic molecular theory? please choose the correct answer from the following choices, and then select the submit answer button. answer choices the average kinetic energy of the gas particles is inversely proportional to the absolute temperature of the gas. gas particles themselves have negligible volume. collisions between gas particles result in a loss of energy. the average kinetic energy of particles varies based on the number of particles present in a container.
The kinetic molecular theory is a set of assumptions that are used to explain the behavior of gases. The correct option is "gas particles themselves have negligible volume."
Kinetic molecular theory is a theory of gases that explains their macroscopic properties based on the behavior and motion of their individual molecules.
The theory includes several postulates, or assumptions, that are considered to be true in order to explain the observed behavior of gases.
One of these postulates is that the gas particles themselves have negligible volume. This means that the actual size of the individual molecules is so small compared to the volume of the container they are in that their size can be ignored when considering the overall behavior of the gas.
Other postulates of kinetic molecular theory include that gas particles are in constant random motion, that they do not interact with each other except during collisions, and that collisions between particles are perfectly elastic and conserve both energy and momentum.
The theory also postulates that the average kinetic energy of the gas particles is directly proportional to the absolute temperature of the gas.
Therefore, gas particles themselves have negligible volume is a postulate of kinetic molecular theory .
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2.8x10^-6 ÷ 1.4x10^-2. perform the following operation in scientific notation
The result of the operation in scientific notation is 2x10^-4.
If you don't have a calculator, how do you multiply in scientific notation?In scientific notation, multiply two integers' coefficients and add their exponents to get their total. Divide the coefficients and deduct the exponents of two numbers to divide them in scientific notation.
How can you fix a problem with scientific notation?One approach is to fully write out each number after it has been converted from scientific notation, then calculate the total of the two values and translate the result back into scientific notation.
In scientific notation, exponents are subtracted from coefficients when dividing integers.
So, for 2.8x10^-6 ÷ 1.4x10^-2,
(2.8 ÷ 1.4) x 10^(-6-(-2))
= 2 x 10^(-6+2)
= 2 x 10^(-4)
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what total volume of ozone measured at a pressure of 22.0 mmhg and a temperature of 230 k can be destroyed when all of the chlorine from 17.0 g of cf3cl goes through 10 cycles of these reactions?
The total volume of ozone that can be destroyed when all of the chlorine from 17.0 g of CF3Cl goes through 10 cycles of these reactions, measured at a pressure of 22.0 mmHg and a temperature of 230 K, is calculated using the Ideal Gas Law equation (PV=nRT) and stoichiometry.
First, we need to find the moles of CF3Cl and the moles of ozone it can destroy.
Molar mass of CF3Cl = (12.01) + 3(19.00) + 35.45 = 137.46 g/mol
Moles of CF3Cl = 17.0 g / 137.46 g/mol ≈ 0.1236 mol
Since one chlorine atom can destroy one ozone molecule in each cycle, 10 cycles can destroy 10 times the amount:
Moles of ozone destroyed = 0.1236 mol * 10 = 1.236 mol
Now, we can use the Ideal Gas Law equation to find the volume:
V = nRT/P
Where:
V = volume of ozone (in liters)
n = moles of ozone (1.236 mol)
R = ideal gas constant (0.0821 L atm / mol K)
T = temperature (230 K)
P = pressure (converted to atm: 22.0 mmHg * (1 atm / 760 mmHg) ≈ 0.02895 atm)
V = (1.236 mol) * (0.0821 L atm / mol K) * (230 K) / 0.02895 atm ≈ 778.32 L
So, the total volume of ozone that can be destroyed under the given conditions is approximately 778.32 liters.
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URGENT!!! What element has the electron configuration 1s22s²2p63s²3p4?
A. CI
B. N
C. O
D. S
Answer:
D. S (Sulphur)
Explanation:
you couldve just looked this up lol
In which parts of the table do you find the greatest and lowest attraction for electrons?
The greatest and lowest attraction for electrons is found in upper right-hand corner and lower left-hand corner respectively.
The attraction of an atom's nucleus for its electrons is determined by its atomic number, which corresponds to the number of protons in the nucleus.
As we move across a period from left to right in the periodic table, the atomic number increases, and the attraction for electrons increases as well. Therefore, the greatest attraction for electrons is found in the upper right-hand corner of the periodic table. This is where the nonmetals are located. In contrast, as we move down a group or column in the periodic table, the atomic number increases, but the attraction for electrons decreases because the electrons are further from the nucleus.
Therefore, the lowest attraction for electrons is found in the lower left-hand corner of the periodic table where the alkali metals and alkaline earth metals are located.
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what is the hybridization of the carbon attached to three hydrogens in acetic acid?
The hybridization of the carbon attached to three hydrogens in acetic acid is sp³ hybridization.
Hybridization is a phenomenon that occurs when atomic orbitals combine to form hybrid orbitals. The term hybridization is used to describe the method by which valence bond theory explains the geometry of a molecule. The carbon atom attached to three hydrogens in acetic acid is sp³ hybridized because it is a tetrahedral structure in which the four electrons of the carbon atom are bonded to four different atoms or groups.
Acetic acid, with the molecular formula CH₃COOH, has one carbon atom with a central bond to one oxygen and double bonds to the other oxygen and carbon atoms. Each of the carbon's two bonds has an sp² hybrid orbital, while the carbon attached to three hydrogen atoms has a tetrahedral configuration, indicating that it is sp³ hybridized.
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what is the mathematical equation for the electric force between two charges identify each variable
F = k * (q1 + q2) / r² is the formula for the electric force between two charges.
What is each variable's place in the mathematical equation for the electric force between two charges?The resultant force between the two charges is denoted by the letter "F". "r" is the separation between the two charges. You only need to be aware that the "r" stands for "radius of separation" because it is merely a distance.
What are the forces created by electricity between two charges?Unlike charges attract each other whereas like charges repel one another. As a result, a positive charge pulls a negative charge towards it whereas two negative charges repel one another. The line between the two charges is where the attraction or repulsion occurs.
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nsider the nmr spectrum of a compound with the formula of c 4 h 9 b r . the spectrum used tms as a reference. proton nmr proton nmr spectrum with a doublet at about 1.1 ppm, a 9-part signal centered around 2.25 ppm, and a doublet around 3.4 ppm. an inset shows detail about the peak splitting around 2.25 ppm. what is the structure of the compound?
The structure of the compound is: isopropyl bromide.
Calculation of the hydrogen countHydrogens that aren't at the same chemical environment will be chemically shifted differently.
In addition, the quantity of hydrogens in each group is referred to as integration, and the ratio of integration in each group can aid in determining the number of hydrogens in a given group.
The proton NMR spectrum of a compound with a formula of C4H9Br was studied.
The spectrum made use of TMS as a reference. A doublet at about 1.1 ppm, a 9-part signal centered around 2.25 ppm, and a doublet around 3.4 ppm were observed in the proton NMR. A peak splitting around 2.25 ppm was shown in the inset, which was labeled "detail."
The 9-part signal at around 2.25 ppm could be generated by two different types of hydrogens, namely two methyls and one methylene, which are attached to a carbon bearing the bromine substituent.
The peak splitting, on the other hand, demonstrates that the hydrogens on the carbon adjacent to the carbon that bears the bromine substituent are split into four peaks.
This implies that the carbon next to the bromine substituent is a quaternary carbon and cannot be attached to hydrogens.
Therefore, the only structure that could produce these results is isopropyl bromide.
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c. How would changing a coefficient differ from changing the subscript?
Answer:
when you change the subscripts, you are changing the substance itself
Household ammonia has a label that claims it is 7-10% NH3 by volume and that it “cleans, degreases, and removes stains [with] hundreds of other uses”. The substance is an aqueous solution of ammonium hydroxide with a molarity of approximately 2.3 M. Which of the following statements is true regarding this solution?
1) Water is the solvent of the solution.
2)Ammonium hydroxide is the solute of the solution, water is the solvent of the solution, & the concentration of the solution is 2.3 M are all true.
3) Ammonium hydroxide is the solute of the solution & water is the solvent of the solution are true
4) Ammonium hydroxide is the solute of the solution.
5) The concentration of the solution is 2.3 M.
Household ammonia is an aqueous solution of ammonium hydroxide, as stated on the label. In the solution, water serves as the solvent and ammonium hydroxide as the solute.
What are chemical formulas written using the crisscross method?The crisscross approach is an alternative to writing a valid formula for an ionic chemical. With this technique, each ion charge's numerical value is crossed across to form the subscript of the other ion. Charges' indicators are removed.
How is a 2M ammonium hydroxide solution created?12.3 mL of ammonium hydroxide solution and 100 mL of deionized water are combined to create ammonium hydroxide, 2M solution. At room temperature, it appears as a colourless liquid with no odour.
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for the 2 pz orbital of the hydrogen atom, what is the most probable distance between the electron and the proton?
The Bohr radius serves as the most likely separation between the electron and proton in the hydrogen atom's 2pz orbital which is 0.529 Å.
For the 2pz orbital of the hydrogen atom, the most probable distance between the electron and the proton can be determined using the radial probability distribution function.
The radial probability distribution function gives the probability of finding the electron at a certain distance from the nucleus. For the 2pz orbital, the function has a maximum at a distance of a0, which is the Bohr radius. The Bohr radius is equal to 0.529 Å, or approximately 5.29 x 10⁻¹¹ meters.
Therefore, the most probable distance between the electron and the proton in the 2pz orbital of the hydrogen atom is the Bohr radius, which is the distance at which the electron has the highest probability of being found.
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Carbonic acid, H2CO3 is a diprotic acid with Kal = 4.3 x 10-7 and Ka2 = 5.6 x 10-11. What is the pH of a 0.42 M. solution of carbonic acid? A) 4.2 x 10-4
B) 3.37 C) 6.36 D) The answer cannot be determined because there is more than one equilibrium occurring.
The pH of a 0.42 M solution of carbonic acid ([tex]H_{2}CO_{3}[/tex]), which is a diprotic acid with Ka1 = 4.3 x [tex]10^{-7}[/tex] and Ka2 = 5.6 x [tex]10^{-11}[/tex], is 3.37 (Option B).
The pH of a 0.42 M solution of carbonic acid can be calculated using the given values of Ka1 and Ka2. The relevant equation is:
[tex]H_{2}CO_{3} + H_{2}O[/tex] ⇌ [tex]H_{3}O^{+}[/tex] + [tex]HCO_{3}^{-}[/tex]
The first dissociation constant for carbonic acid is given by Ka1 = [[tex]H_{3}O^{+}[/tex]][[tex]HCO_{3}^{-}[/tex]]/[[tex]H_{2}CO_{3}[/tex]]. The second dissociation constant is given by Ka2 = [[tex]H_{3}O^{+}[/tex]][[tex]CO_{3} ^{2-}[/tex]]/[[tex]HCO_{3} ^{-}[/tex]].
To solve for pH, we need to set up an ICE table and calculate the concentration [tex]H_{3}O^{+}[/tex].
[[tex]H_{2}CO_{3}[/tex]] [[tex]H_{3}O^{+}[/tex]] [[tex]HCO_{3}^{-}[/tex]] [[tex]CO_{3}^{2-}[/tex]]
0.42 M 0 0 0
- x +x +x +x
0.42-x x x x
Using the first equilibrium expression and substituting the values, we get:
4.3 × [tex]10^{-7}[/tex] = (x)²/(0.42 - x)
x = [[tex]H_{3}O^{+}[/tex]] = 6.55 × [tex]10^{-4}[/tex] M
Using the second equilibrium expression and substituting the values, we get:
5.6 × [tex]10^{-11}[/tex] = (x)(x)/(0.42 - x)
x = [[tex]CO_{3}^{2-}[/tex]] = 2.36 × [tex]10^{-6}[/tex] M
Now, to calculate pH, we can use the following equation:
pH = -log[[tex]H_{3}O^{+}[/tex]]
pH = -log(6.55 × [tex]10^{-4}[/tex])
pH = 3.37
The pH of a 0.42 M solution of carbonic acid ([tex]H_{2}CO_{3}[/tex]), which is a diprotic acid with Ka1 = 4.3 x [tex]10^{-7}[/tex] and Ka2 = 5.6 x [tex]10^{-11}[/tex], is 3.37. The correct option is B.
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What, if anything, distinguishes the molecular geometries of AlCl3 and PCl3?
Options:
- PCl3 contains one lone pair on P
- AlCl3 contains one π bond
- one of the two structures has resonance
- AlCl3 and PCl3 have identical molecular geometries
The molecular geometry of PCl3 differs from that of AlCl3 because it has a lone pair on the central atom. The remaining choices are unrelated to the molecular geometries of these two compounds.
PCl3 contains one lone pair on P, AlCl3 contains one π bondA central phosphorus atom is connected to three chlorine atoms, one lone pair of electrons, and three chlorine atoms in PCl3, which has a trigonal pyramidal molecular structure. Because to the comparatively substantial area taken up by the lone pair of electrons, the bond angles deviate from the ideal 109.5° tetrahedral angle, resulting in a bond angle of roughly 107°.
one of the two structures has a resonanceAlCl3 has a planar trigonal molecular shape in contrast. There are no lone pairs on the aluminium atom, which is connected to three chlorine atoms in the centre. The ideal bond angle for a trigonal planar geometry is 120°, and AlCl3's bond angles are quite near that value.
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explain the relationship between the rate of effusion of a gas and its molar mass. methane gas (ch4) effuses 3.4 times faster than an unknown gas. determine the molar mass of the unknown gas. show your work or explain your answer, giving specific values used to determine the answer.
The relationship between the rate of effusion of a gas and its molar mass is that gases with smaller molar masses will effuse faster. The molar mass of the unknown gas is 185.4 g/mol.
The relationship between the rate of effusion of a gas and its molar mass is defined by Graham's Law. The law states that the rate of effusion of a gas is inversely proportional to the square root of its molar mass. This is because gases with lower molar masses have lighter molecules that have less energy and are more likely to break the intermolecular bonds between the gas molecules and escape.
It can be represented as:
R₁/R₂ = √M₂/√M₁
where R₁ and R₂ represent the rates of effusion of gases 1 and 2, and M₁ and M₂ represent their respective molar masses.
Rate of effusion of CH₄ = 3.4 x (rate of effusion of unknown gas)
The molar mass of CH₄ = 16.04 g/mol
By Graham's Law,
R₁/R₂ = √M₂/√M₁
R₁ =3.4 R
R₂ = R (let the rate of effusion of the unknown gas be 'R')
M₁ = molar mass of CH4 = 16.04; M₂ = molar mass of unknown gas
3.4R/R = √M₂/√16.04
√M₂ = (3.4 x √16.04)
Squaring both sides, we get:
M₂ = (3.4)² x 16.04
∴ M₂ = 185.4 g/mol
Therefore, the molar mass of the unknown gas is 185.4 g/mol.
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consider a system that contains multiple gaseous species at equilibrium. how will the position of the equilibrium be affected if the pressure of the system is decreased?
In a system that contains multiple gaseous species at equilibrium, if the pressure of the system is decreased then the equilibrium will shifts towards the direction in which no of moles of gaseous substance is more.
According to Le Chatelier's principle if the pressure on a gas in a reaction is increased, the position of the equilibrium is shifted towards the side with less no of moles of gas molecules. On the other hand, if pressure is decreased then the equilibrium will shift towards the side of the equation which has more number of moles of substances.
If the volume is decreased, the reaction will shift towards the side which contains less moles of gaseous particles, whereas if the volume is increased the reaction will shift towards the side of the reaction containing more number of moles of gaseous substances.
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solar, hydropower, geothermal, and wind energy are examples of what type of energy?
Solar, hydropower, geothermal, and wind energy are examples of renewable energy sources.
Renewable energy sources are those that are replenished naturally and can be used repeatedly without the risk of depletion. They are a sustainable alternative to non-renewable energy sources such as fossil fuels, which are finite resources and can have a negative impact on the environment.
Solar energy is harnessed from the sun, hydropower from flowing water, geothermal energy from the Earth's heat, and wind energy from the wind. All of these sources can be used to generate electricity or to provide heating and cooling for homes and buildings.
Renewable energy sources are becoming increasingly important as the world seeks to reduce its dependence on fossil fuels and move towards a more sustainable energy future.
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what is the ph at the equivalence point in the titration of 0.60 m lactic acid, hc3h5o3, with 0.80 m naoh
The titration's equilibrium point has a pH of 9.25.
The pH at the equivalence point in the titration of 0.60 M lactic acid, HC₃H₅O₃, with 0.80 M NaOH can be calculated by considering the titration curve. At the equivalence point, all of the lactic acid has been neutralized by the NaOH, and the solution contains only the lactate ion (C₃H₅O₃⁻) and excess NaOH. The lactate ion is the conjugate base of lactic acid, and it acts as a buffer to resist changes in pH.
The pH of the buffer solution can be calculated using the Henderson-Hasselbalch equation, pH = pKa + log([C₃H₅O₃⁻]/[HC₃H₅O₃]). The pKa of lactic acid is 3.86. At the equivalence point, the concentration of lactate ion will be equal to the concentration of NaOH added.
Therefore, [C₃H₅O₃⁻] = 0.80 M. The initial concentration of HC₃H₅O₃ is 0.60 M, but at the equivalence point, all of the lactic acid has been neutralized, so the concentration of HC₃H₅O₃ will be zero. Substituting these values into the Henderson-Hasselbalch equation, we get pH = 9.25.
Therefore, the pH at the equivalence point in the titration is 9.25.
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please help with edge. Use the activity series below to predict whether the following reactions will take place.
Answer:
No , No for both
niether of these reaction will take place as in First one Ag is less reactive then Na so It cannot displace it .. Same for Second reaction Mn Cannot displace Ca
a) Why would the presence of the side product benzalacetone be minimized? b) Why would the presence of the side product 4-hydroxy-4-methyl-2-pentanone be minimized?
a) To ensure purity and yield of desired product. b) The side product is minimized to improve the purity, yield, and overall efficiency of the reaction
Why are the side products minimized in a reaction?
a) The presence of the side product benzalacetone would be minimized to ensure the purity and yield of the desired product in the reaction. Minimizing side products helps to avoid wasting resources, reduce the need for purification steps, and maintain the efficiency of the process. To minimize benzalacetone formation, you can optimize reaction conditions such as temperature, concentration, and use of a suitable catalyst.
b) Similarly, the presence of the side product 4-hydroxy-4-methyl-2-pentanone would be minimized to improve the purity, yield, and overall efficiency of the reaction. Reducing side products leads to a more cost-effective and environmentally friendly process. To minimize the formation of 4-hydroxy-4-methyl-2-pentanone, you can fine-tune the reaction conditions, including the use of appropriate reactants, temperature control, and selecting an optimal catalyst.
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could kb for a weak base be determined in the same way (i.e. by titration) that ka for a weak acid is determined in this experiment?
The value of Kb for a weak base could be determined by titration in the same way that Ka for a weak acid is determined in an experiment.
Thus, the correct answer is "Yes, it could".
What is titration?Titrаtion is the process of determining the concentrаtion of а solution by reаcting it with аnother solution of known concentrаtion. In аcid-bаse titrаtions, а solution of аn аcid or а bаse is titrаted with а solution of а strong bаse or а strong аcid, respectively. The equivаlence point is the point аt which the аcid аnd bаse аre completely neutrаlized, аnd their respective moles аre equаl.
А weаk bаse is а chemicаl compound thаt doesn't fully dissociаte in wаter, аnd hence, produces fewer hydroxide ions (OH-) thаn а strong bаse. The pH of а weаk bаse is typicаlly higher thаn 7, аnd the concentrаtion of hydroxide ions in а weаk bаse is lower thаn the concentrаtion of the bаse itself. One-hаlf the equivаlence point (pKа) of а weаk аcid is cаlculаted from the point of equivаlence where а weаk аcid аnd а strong bаse reаct to form а conjugаte bаse аnd wаter.
Your question is incomplete, but most probably your full question can be seen in the Attachment.
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what two parameters are plotted in an absorbance spectrum?
The two parameters that are commonly plotted in an absorbance spectrum are the wavelength of light (measured in nanometers, or nm) on the x-axis, and the absorbance (or optical density) on the y-axis.
What is measured by an absorbance spectrum?The amount of light absorbed by a sample is calculated as a function of wavelength in absorbance spectroscopy, also referred to as absorption spectroscopy. This can provide crucial details about an atom's or molecule's electronic structure.
What does the term "absorption spectrum" mean?Various radiation is absorbed by chemicals and elements when it passes through them, depending on the chemical or element in question. In the emission spectrum, coloured lines can be observed exactly where the dark line pattern appears.
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Which are the factors that favor SN2 reactions, as described during the lab lecture?
a) Strong nucleophile, good leaving group, polar protic solvent, methyl or primary halide.
b) Strong nucleophile, good leaving group, polar aprotic solvent, methyl or primary halide.
c) Weak nucleophile, good leaving group, polar aprotic solvent, methyl or primary halide.
d) Strong nucleophile, poor leaving group, polar aprotic solvent, tertiary halide.
e) Strong nucleophile, good leaving group, polar aprotic solvent, tertiary halide.
The factors that favor SN2 (substitution nucleophilic bimolecular) reactions are:
b) Strong nucleophile, good leaving group, polar aprotic solvent, methyl or primary halide.
Strong nucleophile: the more nucleophilic the attacking species, the more likely it is to participate in an SN2 reaction.
Good leaving group: a better leaving group will dissociate more easily from the carbon atom, facilitating the nucleophilic attack.
Polar aprotic solvent: this type of solvent allows for the solvation of the nucleophile, but it does not interfere with the reaction mechanism, which favors the bimolecular nature of the reaction.
Methyl or primary halide: these types of halides have a less hindered environment around the carbon atom, making it easier for the nucleophile to approach the carbon and displace the leaving group.
Therefore, option b) is the correct answer. Options a), c), d), and e) contain at least one factor that is not favorable for SN2 reactions.
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how many grams of solid potassium acetate should be added to 0.500 l of a 0.260 m acetic acid solution to prepare a buffer with a ph of 5.648 ?
To prepare a buffer with a pH of 5.648, what quantity of solid potassium acetate should be added to 0.500 L of a 0.260 M acetic acid solution?The given is: Initial volume = 0.500 LI nitial concentration of acetic acid = 0.260 M Molarity of acid is given, and the pH is given, which is the pKa value of the acid.
The formula for calculating the ratio of the acid and salt is pH = pKa + log [salt] / [acid].The Henderson-Hasselbalch equation can be used to solve this problem in a single step.The Henderson-Hasselbalch equation is used to calculate the pH of a buffer solution. It is expressed as: pH = pKa + log [A-] / [HA]Where [HA] is the concentration of the weak acid, and [A-] is the concentration of the conjugate base. To calculate the required amount of potassium acetate: Step 1: Calculate the pKa of acetic acid. Acetic acid has a pKa of 4.76. pH = pKa + log [A-] / [HA].The given pH value is 5.648.Therefore, 5.648 = 4.76 + log [salt] / [acid].Find the ratio of the salt and the acid:[salt] / [acid] = antilog (pH - pKa).= antilog (5.648 - 4.76)= antilog (0.888)= 7.29 [salt] / [acid].The ratio of the salt to the acid is 7.29:1. We'll use this ratio to determine the quantity of potassium acetate that should be used to produce the buffer.
Step 2: Calculate the concentration of acetic acid in the buffer solution.The concentration of acetic acid in the buffer is:[acid] = 0.260 M.The volume of buffer solution is 0.500 L.So, the number of moles of acetic acid in the solution is:[acid] × volume = 0.260 × 0.500 = 0.130 moles of acid.Step 3: Determine the number of moles of potassium acetate necessary to produce the buffer.The moles of salt required = moles of acid / 7.29 = 0.130 / 7.29 = 0.0178 moles of salt (KAc).Step 4: Convert the number of moles of potassium acetate to grams. The molecular weight of potassium acetate is 98.14 g/mol.The mass of salt required is:mass = moles × molecular weight.= 0.0178 × 98.14= 1.747 grams of KAc.Therefore, 1.747 grams of potassium acetate should be added to 0.500 L of a 0.260 M acetic acid solution to prepare a buffer with a pH of 5.648.
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If H₂O is removed from this reaction, what will happen? 2H₂ + O2 2H₂O
A. The equilibrium will not change.
B. The reaction will be reactant-favored.
C. The reactants will react to produce more H₂O.
D. The product-favored reaction will stop.
Answer:
c number is the answer of this question
If H₂O is removed from the given reaction, the reactants will react to produce more H₂O. Therefore, the correct option is option C.
What is Le Chatelier′s Principle?Le Chatelier's Principle states that when a chemical system is under stress and in equilibrium, the equilibrium should change to lessen the stress. In response to an alteration in temperature, intensity, volume, or pressure, it can be used to forecast the course of a chemical reaction.
The equilibrium law or Chatelier's principle are other names for Le Chatelier's principle. The theory foretells how changes will affect a system. Although it is most frequently used in chemistry, it is equally relevant in economics as well as biology (homeostasis). If H₂O is removed from the given reaction, the reactants will react to produce more H₂O.
Therefore, the correct option is option C.
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What is the balanced chemical equation for each of these. The formation of ammonium nitrate, which has ^(triangle) H of -365. 1 kj
the decomposition of manganese (IV) oxide, which has ^(< triangle) H of 519. 7 kj
the reaction between H2CO3 and KOH, which releases 21 kcals
(i)The balanced chemical equation for the formation of ammonium nitrate is NH3 + HNO3 → NH4NO3 with a heat of -365.1 kJ. (ii)The decomposition of manganese (IV) oxide is 2MnO2 → 2MnO + O2 with a heat of 519.7 kJ. (iii) H2CO3 + 2KOH → K2CO3 + 2H2O.
Ammonia gas (NH3) and nitric acid (HNO3) combine to create solid ammonium nitrate (NH4NO3), which results in the emission of heat energy (-365.1 kJ). The manufacturing of fertilisers and explosives frequently uses this reaction. When heated with the absorption of heat energy, manganese (IV) oxide decomposes into solid manganese oxide (MnO) and oxygen gas (O2) (519.7 kJ). In laboratory research and commercial procedures, this reaction is frequently employed to generate oxygen gas. Potassium hydroxide (KOH) and carbonic acid (H2CO3) combine to generate solid potassium carbonate (K2CO3) and water (H2O), with the process releasing 21 kcal of heat energy.
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A chemical equation is balanced if the ____ of each kind if ___ is the same on both sides of the equation?
Answer:
a chemical equation is balanced when the number of each type of atom is the same on both sides of the equation.
Explanation:
A 295 g sample of unknown metal is at an initial temperature of 13.00 °C absorbs 75.0 kJ.
The final temperature of the system is 295 °C.
What is the specific heat?
What is the metal?
The system's final temperature is 295 °C, or 71.33 °F. To calculate the metal's heat capacity, use Q = smT. (Be remember to factor in the metal's mass, its mass in heat, and its change in temperature.
What is the specific heat formula?The following equation can be used to determine specific heat, abbreviated Cp: Cp=QmΔT When m is the material's mass, Q is the quantity of heat energy delivered to the substance, & T is the temperature change of the substance, we can write C p = Q m T.
How can specific heat be measured in an experiment?Any type of calorimeter must be used in the laboratory to measure specific heat. A calorimeter is an insulated container with the ability to track changes in energy. To minimise energy gain or loss to or from the environment, the calorimeter is insulated.
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DANGERS OF ACIDS AND ALKALIS
Chemical substances with opposing characteristics include acids and alkalis. Alkalis have a pH above 7, while acids have a pH below 7.
What threats do acids pose?Acids are dangerous when there is moisture in the mouth, eyes, or surrounding aqueous solutions because they react violently with water. Certain acids' vapours can harm the eyes, nasal passages, throat, and lungs since they are soluble in water.
What poses the biggest threat to acids and bases?Working with acids and bases poses health risks mostly because of their corrosivity, which causes tissue to be destroyed. The pernicious characteristic of hydrofluoric acid, or HF, which causes severe loss of skin without providing any burning sensation.
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Question:
What are the potential dangers associated with acids and alkalis?
if 50g of solvent dissolve 25g of salt at 50°c, what is the solubility of the salt at this temperature
Answer:
solubility is the amount of a substance that will dissolve in a given amount of another substance. To find the solubility of the salt at 50°C, you need to divide the mass of the salt by the mass of the solvent and multiply by 100 to get the percentage. In this case, the solubility is (25/50) x 100 = 50%. This means that 50 grams of solvent can dissolve 25 grams of salt at 50°C.
For the reaction C + 2H2 → CH4, how many grams of carbon are required to produce 13.1 moles of methane, CH4 ?
14.4 g of carbon are required. Since the coefficients of CH4 and CO2 are both 1, every mole of CH4 that is consumed results in the production of one mole of CO2.
For every mole of CH4, how many kilos of carbon molecules are there?It indicates that a mole of carbon atoms weighs 12 grammes and a mole of hydrogen atoms weighs one gramme (nearly exactly) (again, almost exactly). A mole of methane should weigh 16 grammes as it is made up of 1 mole of carbon and 4 moles of hydrogens.
1 mol C divided by 1 mol CH4 yields 1.2 moles of carbon.
1 mol C divided by 12 g C results in 14.4 grammes of C.
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