Answer:
Because magnesium cannot displace sodium from solutions.
How many grams of Na₂SO4 were used to prepare 435.2 mL of 0.0156 M Na₂SO4 solution? m(Na₂SO4) =
Answer:
0.965 grams.
Explanation:
To calculate the mass of Na₂SO4, we can use the formula:
mass = moles x molar mass
First, let's calculate the number of moles of Na₂SO4 in 435.2 mL of 0.0156 M solution:
moles = volume (in L) x molarity
moles = 0.4352 L x 0.0156 mol/L
moles = 0.0067872 mol
The molar mass of Na₂SO4 is 142.04 g/mol, so we can calculate the mass of Na₂SO4 as:
mass = moles x molar mass
mass = 0.0067872 mol x 142.04 g/mol
mass = 0.965 g
Therefore, the mass of Na₂SO4 used to prepare 435.2 mL of 0.0156 M Na₂SO4 solution is 0.965 grams.
Compare the ways in which igneous and metamorphic rocks form. Include examples in your answer. (6 marks QWC)
Answer:
Igneous and metamorphic rocks are two of the three major types of rocks found on Earth, with the third being sedimentary rocks. Igneous rocks are formed from the solidification of molten magma or lava, while metamorphic rocks are formed from the transformation of existing rocks due to high temperature and pressure.
The formation of igneous rocks begins when magma or lava cools and solidifies. Magma is molten rock that is located beneath the Earth's surface, while lava is magma that has erupted onto the surface. When magma or lava cools and solidifies, it forms igneous rocks. There are two types of igneous rocks: intrusive and extrusive. Intrusive igneous rocks form when magma cools and solidifies slowly beneath the Earth's surface, while extrusive igneous rocks form when lava cools and solidifies quickly on the Earth's surface. Examples of igneous rocks include granite, basalt, and pumice.
In contrast, the formation of metamorphic rocks occurs when existing rocks are transformed due to high temperature and pressure. Metamorphism can occur when rocks are buried deep within the Earth's crust, or when they are subjected to high pressure and temperature due to tectonic activity. The transformation of existing rocks can result in the formation of new minerals, textures, and structures within the rocks. Examples of metamorphic rocks include marble, slate, and gneiss.
In conclusion, the formation of igneous and metamorphic rocks differ in terms of their origin and formation process. Igneous rocks are formed from the solidification of molten magma or lava, while metamorphic rocks are formed from the transformation of existing rocks due to high temperature and pressure. While both types of rocks can be found in various locations around the world, they differ in their properties, appearance, and composition.
Explanation:
how many grams of solid barium sulfate form when 38.0 ml of 0.160 m barium chloride reacts with 54.0 ml of 0.065 m sodium sulfate? aqueous sodium chloride forms also
The amount of solid barium sulfate formed is 1.42g and 7.02 moles of sodium chloride are formed.
When 38.0 mL of 0.160 M barium chloride reacts with 54.0 mL of 0.065 M sodium sulfate, aqueous sodium chloride, and solid barium sulfate form. To determine the number of grams of solid barium sulfate formed, we must first calculate the amount of barium chloride and sodium sulfate used.
The amount of barium chloride used is equal to the product of the molarity and the volume, or 38.0 mL x 0.160 M = 6.08 mmol.
Similarly, the amount of sodium sulfate used is 54.0 mL x 0.065 M = 3.51 mmol.
The reaction between barium chloride and sodium sulfate is an exchange reaction:
BaCl₂(aq) + Na₂SO₄(aq) -> 2NaCl(aq) + BaSO₄(s)
We know that for every mole of barium chloride that is used, one mole of barium sulfate is formed, and for every mole of sodium sulfate used, two moles of sodium chloride are formed.
Therefore, 6.08 mmol of barium sulfate is formed and 7.02 mmol of sodium chloride is formed.
The number of grams of solid barium sulfate formed is equal to the product of the molar mass of barium sulfate and the number of moles of barium sulfate formed.
233.43 g/mol x 6.08 mmol = 1419.25 mg = 1.42g
In conclusion, when 38.0 mL of 0.160 M barium chloride reacts with 54.0 mL of 0.065 M sodium sulfate, 1.42g of solid barium sulfate, and 7.02 mmol of aqueous sodium chloride form.
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How many grams of AgNO3 are needed to prepare 237.3 mL of 0.0312 M AgNO3 solution? m(AgNO3) = ___g
Answer:
we need 1.605 grams of AgNO3 to prepare 237.3 mL of 0.0312 M solution.
Explanation:
First, let's write down the formula for calculating the mass of a solute:
mass = molarity x volume x molar mass
We are given the volume and molarity of the solution, so we just need to find the molar mass of AgNO3.
AgNO3 has a molar mass of 169.87 g/mol.
Now we can substitute into the formula:
mass = 0.0312 mol/L x 0.2373 L x 169.87 g/mol
mass = 1.605 g
Therefore, we need 1.605 grams of AgNO3 to prepare 237.3 mL of 0.0312 M solution.
How many milliliters of Sulphur dioxide are formed when 12. 5g of iron sulphide ore (pyrite) reacts with oxygen according to the equation at STP?
4FeS2+1102=2Fe2O3+8SO2
pls guys
Answer:
so the mass of sulphur dioxide = 0.208334 × 22.4 L = 4.6666816 L = 4666.6816 ml Therefore the volume of sulphur dioxide is 4666.6816 ml .
Explanation:
Write a dissociation equation for how calcium chloride dissociates in water
CaCl 2(aq)→Ca 2+(aq)+2Cl −(aq) is a dissοciatiοn equatiοn fοr hοw calcium chlοride dissοciates in water.
What is reactiοn?A chemical reactiοn is the transfοrmatiοn οf οne οr mοre chemicals, knοwn as reactants, intο οne οr mοre new cοmpοunds, knοwn as prοducts. The change in cοncentratiοn οf any οf the reactants οr prοducts per unit οf time can be used tο determine the rate οr speed οf a reactiοn. It is determined by the equatiοn rate=time + cοncentratiοn.
What is dissοciate iοn?When dissοlved in water, the lattice οf an iοnic crystal disintegrates. When an iοnic sοlid substance dissοlves, dissοciatiοn—the separatiοn οf iοns—οccurs. Iοnic substances that are placed in water will break apart intο a pοsitive iοn and a negative iοn, a prοcess knοwn as electrοlytic dissοciatiοn οr iοnic dissοciatiοn. Iοnizatiοn is a term used tο describe this kind οf dissοciatiοn respοnse. Iοnizatiοn is the name οf the reactiοn, while electrοlytic sοlutiοns are the results.
Therefοre,
CaCl 2(aq)→Ca 2+(aq)+2Cl −(aq) is a dissοciatiοn equatiοn fοr hοw calcium chlοride dissοciates in water.
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If you have gaseous carbon dioxide at 45°C and 6 atm of pressure, and you begin to cool it,
it will eventually turn into what physical state?
As a result, when the gas is cooled to a temperature below 45 °C, it will condense into a liquid condition. The pressure affects the precise temperature at which the gas will condense.
What happens to carbon dioxide when the pressure is raised above 1 atm?The slope of the solid-liquid equilibrium line for carbon dioxide is positive; when pressure is increased, the melting point rises.
What happens when sulphur is heated to 200 C at 1 atm from 80 C?Three triple points exist (a). (b) In an atmosphere, monoclinic is more stable than rhombic. (c) Sulfur changes state from liquid to vapour and back to liquid when heated from 80°C to 200°PC.
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Can somebody help me please
TRNA binds to mRNA codon 5'-AUG-3' through complementary base pairing, carrying methionine.
What is tRNA and its function?Transfer RNA, also known by the acronym tRNA and formerly known as soluble RNA (sRNA), is an adaptor molecule made of RNA that, in eukaryotes, usually has a length of 76 to 90 nucleotides[2]. It acts as the physical connection between the mRNA and the amino acid sequence of proteins. tRNAs from bacteria usually have shorter genomes (mean = 77.6 bp) than those from archaea and eukaryotes (mean = 83.1 bp and 84.7 bp, respectively).
The mature tRNA exhibits the reverse trend, with eukaryotes having the smallest mature tRNAs (median = 74.5 nt), while tRNAs from bacteria are typically longer (median = 77.6 nt) than tRNAs from archaea (median = 76.8 nt).
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When 16. 5 g of calcium carbonate react with an excess of hydrochloric acid, calcium chloride, carbon dioxide, and water vapor are produced. Write the equation. What is the theoretical yield of carbon dioxide?
Answer:
One mole of calcium carbonate reacts with 2 moles of HCl forms one mole of calcium chloride, water and carbon dioxide each. The theoretical yield of calcium chloride from 16.5 g of calcium carbonate is 18.3 g
Explanation:
3Cl2 + 2N2 → 2N2Cl3
Molar masses:
chlorine gas = 70. 9 g/mol
nitrogen gas = 28. 02 g/mol
dinitrogen trichloride = 134. 27 g/mol
a. 1. 98 mol of chlorine reacts with 1. 98 moles of nitrogen. What is the limiting reactant? (chlorine)
b. What mass of dinitrogen trichloride is produced from the reaction? (177. 2364)
c. How many moles of the excess reactant is left over? (0. 66)
d. If the percent yield of dinitrogen trichloride is 95. 5%, what is the actual yield of the product? (169. 2607)
0.0279 mole of the excess reactant is left over if 1.98 mole of chlorine react with 1.98 moles of nitrogen.
The mole is defined as the amount of substance of a system which contains as many elementary entities as there are atoms in 0.012 kilogram of carbon 12. It is expressed as "mol". It contains 6.022 X1023 entities like particles, atoms, ions, molecules, etc. of the given substance. It measures the number of atoms, ions, or molecules. It is a standard scientific unit for measuring large quantities of very small entities such as atoms, molecules, or other specified particles. It explains the number of atoms or other particles in a mole is the same for all substances.
If 1. 98 mole of chlorine reacts with 1. 98 moles of nitrogen. then, the we can calculate the amount of reactant left over with the help of the concept for mole.
Moles = 1.98 / 70.9
= 0.0279
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The correct question is,
3Cl2 + 2N2 → 2N2Cl3
Molar masses:
chlorine gas = 70. 9 g/mole
nitrogen gas = 28. 02 g/mole
dinitrogen trichloride = 134. 27 g/mole
1. 98 mole of chlorine reacts with 1. 98 moles of nitrogen. How many moles of the excess reactant is left over?
Cationic molecular ions are more abundant than Anionic molecular ions. Justify?
The Cationic molecular ions are more abundant than Anionic molecular ions because capacity of cationic to stabilise unpaired electrons make synthesis of cationic molecular ions less energetically demanding.
The capacity of cationic molecular ions to stabilise unpaired electrons makes the synthesis of cationic molecular ions less energetically demanding. The most advantageous reason for the abundance of cationic molecular ions is that the cosmic ray has so much energy that it is largely unaffected by the comparatively little energy necessary to ionise molecules. There is ample of radiation from a broadband source like the Sun to drive the molecules to high energy states from which they can be triggered and spontaneously emit. As a result, cationic molecular ions outnumber anionic ones.
Because of the low temperature and density of interstellar space, the most prevalent cationic molecular ion is H3+. Because its two electrons are sole valence electrons in the system, this H3+ is also thought to be a major source of cationic molecular ions.
Another reason for their prevalence is their capacity to stabilise unpaired electrons, which makes the production of cationic molecule ions less energetically demanding.
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what is the mass percent of water in plaster of paris
Answer: 18.5%
Explanation:
We can measure the rate of reaction between calcium carbonate and acid by displacing the water in an upturned measuring cylinder with the carbon dioxide produced. Explain
whether the time taken to displace all of the water in a measuring cylinder will be greater for lumps of calcium carbonate or powder
The rate of reaction, time taken to displace all of the water in a measuring cylinder will be greater for lumps of calcium carbonate or powder so that Carbon dioxide can escape.
Gases that do not dissolve in water can be trapped in water using a technique known as displacement of water.
This method necessitates the use of a delivery tube, a measurement cylinder, and a water basin.
We begin by filling a measuring cylinder with water and inverting it in a water basin. The gas is then bubbled into the inverted measurement cylinder through a delivery line. The water level falls as gas bubbles up and fills the inverted measuring cylinder.
The faster the response, the higher the quantity of mass lost. The quantity of mass loss, as demonstrated by the issue, is decreasing over time. It may be deduced from this that the pace at which the product particles are created is slowing and finally stopping.
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Suppose a vessel contains ClCH2CH2Cl at a concentration of 0. 810M. Calculate the concentration of ClCH2CH2Cl in the vessel 6. 20 seconds later. You may assume no other reaction is important. Round your answer to 2 significant digits
the concentration of ClCH2CH2Cl in the vessel 5.80 seconds later would be 1.49 M.
The second-order rate law for the given reaction is:
rate = k[ClCH2CH2Cl]
where k is the rate constant.
We can use the integrated rate law for a second-order reaction to solve for the concentration of ClCH2CH2Cl at a later time:
1/[ClCH2CH2Cl]t = 1/[ClCH2CH2Cl]0 + kt
where [ClCH2CH2Cl]t is the concentration of ClCH2CH2Cl at time t, [ClCH2CH2Cl]0 is the initial concentration, and k is the rate constant.
Plugging in the values given in the problem, we get:
1/[ClCH2CH2Cl]t = 1/1.22 + (0.743 M-1 s-1)(5.80 s)
1/[ClCH2CH2Cl]t = 0.8205
[ClCH2CH2Cl]t = 1.220 M / 0.8205
[ClCH2CH2Cl]t = 1.487 M
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What type of Electromagnetic energy does a T.V use?
ex: Infrared or Radio
Also how is it used in television?
Answer:
It's the type of radiation that lower frequency waves (such as visible light, microwaves, or radio waves) emit. Non-ionizing radiation is the kind that humans are typically exposed to when using electromagnetic wave-emitting technology, such as mobile phones, TVs, computers, powerlines, or microwaves.
Explanation:
hope this helps
All the particles split up into smaller particles
Particle splitting can occur through various mechanisms, such as nuclear fission, radioactive decay, and particle collisions.
Nuclear fission involves the splitting of an atomic nucleus into two or more smaller nuclei, releasing a significant amount of energy in the process. Radioactive decay is the natural process by which unstable atomic nuclei emit particles or radiation to become more stable. Particle collisions can also lead to the splitting of particles, as high-energy particles can break apart atomic nuclei or other particles.
These smaller particles may be subatomic particles such as protons, neutrons, and electrons, or even smaller particles like quarks and leptons.
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Zinc metal reacts with copper(II) sulfate solution according to the following equation:
Zn(s) + CuSO4(aq) → ZnSO4(aq) + Cu(s)
Determine the maximum mass of copper that can be deposited when 1.20 g of zinc is
added to 50.0 cm
3 of 2.00 x 10-1 mol dm-3
copper(II) sulfate solution.
The mass of copper produced is 0.635 g from the question that has been asked here.
What is the stoichiometry of a reaction?Stoichiometry is the study of the quantitative relationships between reactants and products in a chemical reaction. It involves the use of balanced chemical equations to determine the ratios of reactants and products in a reaction.
We can see that the reaction equation is;
Zn(s) + CuSO4(aq) → ZnSO4(aq) + Cu(s)
Number of moles of Zn = 1.2g/65 g/mol
= 0.018 moles
Number of moles CuSO4 = 50/1000 * 0.2
= 0.01 moles
Then;
Since the reaction is 1:1
0.01 moles of CuSO4 will produce
0.01 mol * 63.5 g.mol
= 0.635 g
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what percentage of a tritium sample will remain after 11 years? the half-life of tritium is 12.3 years. please answer in percent and round your answer to one place past the decimal.
After 11 years, a tritium sample will contain about 41.6% of the original amount.
How many years are there in a tritium half-life?A hydrogen isotope with a half-life of 12.3 years, tritium (also known as T or 3H) decays to 3He through beta decay.
Applying the formula for the half-life:N(t) = N₀(1/2)^(t/T)
where N(t) is the quantity still present at time t, N0 is the starting quantity, t is the time since the beginning of time, and T is the half-life.
For tritium, we have T = 12.3 years, and t = 11 years.
Substituting these values, we get:
N(11) = N₀(1/2)^(11/12.3)
We can multiply by 100 and divide N(11) by N0 to determine how much is left:
% remaining = (N(11) / N₀) * 100
% remaining = (1/2)^(11/12.3) * 100
% remaining = 41.6%
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Voge and Morgan (I. E. C. Proc. Design Dev. 11 454 1972) studied the dehydrogenation of n-butenes to butadiene over an iron oxide catalyst in the presence of steam. At 640°C the kinetics can be represented by a two consecutive first-order reaction network. Butene 1k→Butadiene 2k→ CO2 + cracked products with k2 = 0. 8 k1 a. In a preliminary series of experiments the following level of conversion was measured in an isothermal bed at 640°C. Equivalent spherical diameter Conversion 3. 4 mm 36. 9 5. 1 mm 31. 7 9. 5 mm 25. 6 Use these data to compute the Thiele modulus for the three pellets. Note that this is the conversion at the end of a reactor, not the local one. B. Determine the yield of butadiene using catalyst particles with a diameter of 1. 0 and 7. 0 mm in a reactor of the same length. Detrmine first the impact o n the conversion and then on the yield. C. . What will be the effect of increasing both rate constants by a factor of 4? The feed is pure butene and steam
A. Thiele modulus for the three pellets is 1.78, 2.74, and 6.04 for conversion 3. 4 mm 36.9, 5.1 mm 31.7, and 9.5 mm 25.6 respectively
B. The yield of butadiene using catalyst particles with a diameter of 1. 0 and 7. 0 mm in a reactor of the same length is 0.118 and 0.073 respectively.
C. The Thiele modulus (φ) will rise for all the pellets if both rate constants are increased by a factor of 4, as the reactions speed up.
a) To calculate the Thiele modulus (φ) for each pellet, we can use the following equation:
φ² / (6 x Th) = -(1/2)ln(1-X)
where,
φ is the particle diameter
Th is the Thiele modulus
X is the conversion.
The conversion for the first pellet, which has a 3.4 mm diameter, is 36.9%. Thus,
Th = φ² / [tex](6\times(-1/2)ln(1-X))[/tex]
Th = [tex]3.4^2 / (6\times(-1/2)ln(1-0.369))[/tex]
Th = 1.78
The conversion for the first pellet, which has a 5.1 mm diameter, is 31.7%. Thus,
Th = φ² / [tex](6\times(-1/2)ln(1-X))[/tex]
Th = [tex]5.1^2 / (6\times(-1/2)ln(1-0.317))[/tex]
Th = 2.74
The conversion for the first pellet, which has a 9.5 mm diameter, is 25.6%. Thus,
Th =φ²/ [tex](6\times(-1/2)ln(1-X))[/tex]
Th = [tex]9.5^2 / (6\times(-1/2)ln(1-0.256))[/tex]
Th = 6.04
B) In order to compute the butadiene yield utilizing catalyst particles with diameters of 1.0 and 7.0 mm, we must first know the conversion at the reactor's end.
We may infer from the information provided that the conversion is a diminishing function of pellet size.
Hence, we may interpolate the conversion values for the two particle sizes:
Conversion at 1.0 mm
= 36.9 x (1 - ((1.0 - 3.4) / (9.5 - 3.4))
= 26.6%
Conversion at 7.0 mm
= 25.6 x (1 - ((7.0 - 3.4) / (9.5 - 3.4))
= 16.5%
Thus, we must account for both the conversion and the selectivity when calculating the butadiene yield.
The second reaction's selectivity ([tex]S_2[/tex]) may be represented as
[tex]k_2 / (k_1 + k_2)[/tex] = 0.8 / 1.8
= 0.444 since the reactions occur one after the other.
For the 1.0 mm particle, the yield of butadiene can be calculated as:
Yield
= Conversion x Selectivity
= 0.266 x 0.444
≈ 0.118
For the 7.0 mm particle, the yield of butadiene can be calculated as:
Yield
= Conversion x Selectivity
= 0.165 x 0.444
≈ 0.073
c) The Thiele modulus (φ) will rise for all the pellets if both rate constants are increased by a factor of 4, as the reactions speed up. For the same reactor duration and circumstances, this will lead to a drop in conversion and yield.
Using the Thiele modulus equation from section (a), we can recalculate the conversion and yield using the new rate constants to determine the magnitude of this effect.
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assuming that the balls are on a surface with no friction which table could summarize the motion of the red ball over the same time period
The motion of the red ball over the same time period | 20 | 100 | Red ball continues to travel 25 meters in 5 seconds.
What is period?Period, also known as the menstrual cycle, is the regular natural change that occurs in the reproductive system of women. It is a cycle of physical changes that happens to a female's body each month, usually lasting about 28 days. During this time, the uterus sheds its lining and a woman may experience bleeding from her. The period usually starts at puberty and ends when a woman reaches menopause.
| Time (s) | Position (m) | Explanation |
| - | - | - |
| 0 | 0 | Red ball starts at position 0 |
| 5 | 25 | Red ball travels 25 meters in 5 seconds |
| 10 | 50 | Red ball continues to travel 25 meters in 5 seconds |
| 15 | 75 | Red ball continues to travel 25 meters in 5 seconds |
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Need some answers to these ASAP PLEASE
Answer: working on it
Explanation:
Answer:
a. 4 moles aluminum chloride = 8 moles chlorine (since each mole of aluminum chloride contains 2 moles of chlorine)
b. 1 mole aluminum chloride = 1 mole aluminum (since each mole of aluminum chloride contains 1 mole of aluminum)
c. It is not possible to determine the number of moles of chlorine from the given information.
based on the six given solvents, which of the following answers lists all of the solvents that are not suitable for liquid-liquid extraction of an aqueous layer? 1. n-pentane 2. dimethyl sulfoxide 3. hexanes 4. dichloromethane 5. toluene 6. isopropanol
The solvents that are not suitable for liquid-liquid extraction of an aqueous layer are 1. n-pentane, 3. hexanes, and 6. isopropanol.
Liquid-liquid extraction (LLE) is a separation process that is commonly used in the laboratory to separate and purify a solvent-containing dissolved solute mixture. Liquid-liquid extraction may be utilized to segregate an aqueous solution containing one or more organic solutes from a complex mixture of organic solutes or to remove a neutral substance from an acidic or basic aqueous solution. The process entails dissolving a compound or compounds from one solvent into another and then separating the newly formed two-phase system.
The solvents that are not suitable for liquid-liquid extraction of an aqueous layer are as follows:
1. n-pentane 3. hexanes 6. isopropanol
The following solvents are suitable for liquid-liquid extraction of an aqueous layer:
2. dimethyl sulfoxide 4. dichloromethane 5. toluene
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How does blood flow through your body. What is the path that it takes
A closed network of blood vessels, comprising arteries, veins, and capillaries, transports blood throughout the body.
These are some examples of the route blood takes:
The largest artery in the body, the aorta, is used to push blood out of the heart.
The aorta divides into smaller arteries that supply blood to the body's many organs and tissues.
The arteries gradually shrink to the size of arterioles, which are tiny channels that can assist control blood pressure and flow.
The tiniest blood veins in the body, known as capillaries, are then reached via arterioles. The blood and cells of the organism exchange nutrients and gases through capillaries.
Then, blood exits the capillaries and enters the tiny veins called venules.
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0. 487 grams of quinine (molar mass = 324 g/mol) is combusted and found to produce
1. 321 g CO2, 0. 325 g H2O and 0. 0421 g nitrogen. Determine the empirical and molecular
formulas
The chemical formula is C₂₀H₂₄N₂.
To determine the empirical formula, we first need to calculate the number of moles of each element in the given compounds:
moles of carbon: 1.321 g CO₂ x (1 mol CO2/44.01 g CO₂) x (1 mol C/1 mol CO₂) = 0.030 mol C
moes of hydrogen: 0.325 g H₂O x (1 mol H₂O/18.015 g H₂O) x (2 mol H/1 mol H₂O) = 0.036 mol H
moles of nitrogen: 0.0421 g N x (1 mol N/14.01 g N) = 0.003 mol N
Next, we can calculate the mole ratio of each element by dividing the number of moles of each element by the smallest number of moles:
C: 0.030 mol C / 0.003 mol N = 10
H: 0.036 mol H / 0.003 mol N = 12
N: 0.003 mol N / 0.003 mol N = 1
Therefore, the empirical formula is C₁₀H₁₂N.
To find the molecular formula, we need to know the molar mass of the compound. We can calculate the molar mass of the empirical formula C₁₀H₁₂N as:
molar mass = (10 x 12.01 g/mol) + (12 x 1.01 g/mol) + (1 x 14.01 g/mol) = 162.22 g/mol
We can then calculate the molecular formula by dividing the molar mass of the compound by the molar mass of the empirical formula:
molecular formula = molar mass of compound / molar mass of empirical formula
= (324 g/mol) / (162.22 g/mol) = 1.998
Since the molecular formula should be a whole number, we can round it to the nearest whole number to get 2.
Therefore, the molecular formula is C20H24N2.
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Steps of Scientific learning
The steps in scientific learning are observations, hypotheses, predictions, testing, analysis, and conclusion.
Steps in scientific learningThe steps of scientific learning are as follows:
Observations - Gathering information about a particular phenomenon.Hypothesis - Developing a tentative explanation based on the observations.Predictions - Deriving predictions from the hypothesis that can be tested through experimentation.Testing - Conducting experiments to test the predictions.Analysis - Analyzing the results of the experiments to determine if they support or refute the hypothesis.Conclusion - Drawing a conclusion based on the results and determining whether further research is necessary.More on scientific learning can be found here: https://brainly.com/question/7508826
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In another experiment to determine ksp of the salt ab2, 500. 0 ml of 0. 100 m a2 was added to 500. 0 ml of 0. 205 m b-. After the precipitate settled, a portion of the supernatant liquid was filtered and analyzed and found to contain 2. 3 x 10-7 m a2. Calculate the ksp
A portion of the supernatant liquid was filtered and analysed after the precipitate settled. the ksp is 5.0 ×
[tex] {10}^{ - 4} [/tex]
The balanced chemical equation for the dissolution of AB2 in water is:
AB2 (s) ⇌ A2+ (aq) + 2B- (aq)
The solubility product expression for AB2 is:
Ksp = [A2+][B-]
[A2+] = 0.100 M × 0.5000 L / (0.5000 L + 0.5000 L) = 0.0500 M
[B-] = 0.205 M × 0.5000 L / (0.5000 L + 0.5000 L) = 0.1025 M
[A2+]_ppt = [A2+]_initial - [A2+]_filtered
[A2+]_ppt = 0.0500 M - 2.3 × 10M
[A2+]_ppt = 0.0500 M
[B-]_ppt = 2 × [A2+]_ppt
[B-]_ppt = 2 × 0.0500 M
[B-]_ppt = 0.100 M
Now, we can use these values to calculate the Ksp:
Ksp = [A2+][B-]^2
Ksp = (0.0500 M)(0.100 M)
Ksp = 5.0 ×
[tex] {10}^{ - 4} [/tex]
Therefore, the Ksp of AB2 is 5.0 ×
[tex] {10}^{ - 4} [/tex]
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What does a horizontal line on a position-time graph indicate about the object?(1 point)
A horizontal line on a position-time graph indicates that the object is not moving; its position is not changing.
What is a position-time graph?A position-time graph is a type of graph used to show the change in the position of an object over time. It is typically a line graph with the x-axis representing time and the y-axis representing position.
The slope of the line corresponds to the speed of the object, while the area under the line represents the total distance traveled by the object.
Furthermore, the velocity of an object is represented by the slope of a location graph. Hence, the slope's value at a given instant corresponds to the object's velocity at that precise moment.
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A chemist titrates 190 ml of. 2412 nitrous acid solution with. 377 M KOH solution. Calculate the ph at equivalence. The pKa of nitrous acid is 3. 35
The equivalency solution has a pH of 2.624.
What is the procedure for making nitrous acid?Nitrous acid is frequently created by adding a mineral acid to aqueous sodium nitrite solutions. Typically, acidification is carried out at ice-cold temperatures, and HNO2 is consumed on-site. Nitrous acid in its free form is unstable and breaks down quickly.
In a neutralization process, weak nitrous acid (HNO2) reacts with strong basic KOH.
HNO2 + KOH → KNO2 + H2O
Then, we determine how many moles of KOH were used:
volume KOH x concentration equals moles KOH. KOH
moles KOH = 0.190 L x 0.377 mol/L
moles KOH = 0.07153 mol
Next, we calculate the initial concentration of HNO2:
concentration HNO2 = moles HNO2 / volume HNO2
concentration HNO2 = 0.07153 mol / 0.190 L
concentration HNO2 = 0.3765 M
[HNO2] = 0.5 x 0.3765 M
[HNO2] = 0.1883 M
The following equation can be used to model how nitrous acid dissociates in water:
HNO2 + H2O ⇌ H3O+ + NO2-
The following equation relates the pKa to the acid dissociation constant, Ka, for this reaction:
pKa = -log Ka
So we can find the Ka value from the given pKa:
pKa = -log Ka
3.35 = -log Ka
Ka = 10⁻³
Ka = 4.47 x 10⁻⁴
The relationship shown below is true for the concentrations of the species involved at equilibrium:
Ka = [H3O+][NO2-] / [HNO2]
Ka = [H3O+][NO2-] / [HNO2]
Ka = [H3O+] [HNO2]
Solving for [H3O+], we get:
[H3O+] = Ka / [HNO2]
[H3O+] = (4.47 x 10⁻⁴) / (0.1883 M)
[H3O+] = 0.002374 M
Finally, we can calculate the pH of the solution:
pH = -log[H3O+]
pH = -log(0.002374)
pH = 2.624
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A 0. 807 g mixture containing only sodium chloride and potassium chloride was dissolved in water. It required 32. 8 mL of 0. 384 M AgNO3 to completely precipitate all of the chloride present. What is percent composition by mass of sodium chloride and potassium chloride in the mixture?
The percent composition by mass of sodium chloride and potassium chloride in the mixture is 90.4% sodium chloride and 9.6% potassium chloride.
The percent composition by mass of sodium chloride and potassium chloride in the mixture can be calculated using the following equation:
%Mass Sodium Chloride = (Mass of Sodium Chloride / (Mass of Sodium Chloride + Mass of Potassium Chloride)) x 100
%Mass Potassium Chloride = (Mass of Potassium Chloride / (Mass of Sodium Chloride + Mass of Potassium Chloride)) x 100
Mass of Sodium Chloride = (32.8mL)(0.384M)(58.44g/mol) / 1000mL = 0.73 g
Mass of Potassium Chloride = 0.807 g - 0.73 g = 0.077 g
%Mass Sodium Chloride = (0.73 g / (0.73 g + 0.077 g)) x 100 = 90.4%
%Mass Potassium Chloride = (0.077 g / (0.73 g + 0.077 g)) x 100 = 9.6%
Therefore, the percent composition by mass of sodium chloride and potassium chloride in the mixture is 90.4% sodium chloride and 9.6% potassium chloride.
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Helppp Timed Quiz
Calculate the mass of 6. 9 moles of nitrous acid (HNO2). Explain the process or show your work by including all values used to determine the answer