a. The reducing agent is Mg and the oxidizing agent is Fe2+. The species being oxidized is Fe2+ and the species being reduced is Mg.
b. The reducing agent is Sn and the oxidizing agent is Cu2+. The species being oxidized is Sn and the species being reduced is Cu2+.
c. The reducing agent is H2 and the oxidizing agent is CH2=CH2. The species being oxidized is CH2=CH2 and the species being reduced is H2.
In each reaction, the reducing agent loses electrons and is oxidized, while the oxidizing agent gains electrons and is reduced.
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100 g of O2 how many liters of CO2
Answer:
Explanation:
a 2.30 L solution contains 545.0 grams of Na2SO4 what is the molarity of this solution
The molarity of the solution is 1.6687 M. This show that every liter of solutions containing 1.6687 mol of sodium sulfate.
ExplanationGiven data:
V = volume of the solutions.Formula:
[tex]\bf M = \dfrac{n}{V}[/tex]
M = molarity, M.n = moles number, moles.V = volume of the solutions, L.Therefore:
First, calculate the molecular mass (Mr) of Na₂SO₄.
Mr Na₂SO₄ = 2 x Ar Na + Ar S + 4 x Ar OSecond, calculate the mole of Na₂SO₄.
[tex]\begin{array}{ll}\sf n &\sf = \dfrac{g}{Mr}\\\\&\sf = \dfrac{545}{142}\\\\&\sf = 3.84~mol.\end{array}[/tex]
Last step, calculate the molarity.
[tex]\begin{array}{ll}\sf M~Na_2SO_4 &\sf = \dfrac{n}{V}\\\\&\sf = \dfrac{3.84}{2.30}\\\\&\sf = 1.6687~M.\end{array}[/tex]
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The crystallization step of recrystallization removes which category of impurities?
The washing step of recrystallization removes which category of impurities?
The crystallization step of recrystallization removes the impurities present within the crystal lattice.
The washing step of recrystallization removes the impurities present on the surface of solid.
The solute crystallizes out when the solvent cools and the solution gets saturated with the solute (reforms a solid). Impurities are eliminated from the crystal lattice as the crystal grows, concluding the purification procedure. After that, the crystals can be gathered, cleaned, and dried.
Because the impurities won't crystallize quite yet and instead remain in the solution, the impure substance will crystallize in a purer form. The more pure crystals must now be separated using a filtration procedure. It is possible to repeat the process.
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how many moles are there in 5.5x10^24 atoms of iron
Answer: 95.8 I hope this helps U :)
Explanation: Therefore 0.552 moles will have 0.552 moles X 6.022 X10 23 atoms/mole... are present in 1.52 mol of sulfur dioxide a) 2.29 x 10^23 b) 1.83 x 10^24 c) ... Mass of 1 H atom: 1.008 amu x 1.661 x10-24 g/amu = 1.674 x10-24 g. Mass of 1 mole of H ... many iron atoms are present in a piece of iron weighing 95.8 g?
What is the pH of 0.75 M ( HF) which is weak acid?
The pH of 0.75 M HF is 1.77.
To find the pH of 0.75 M HF (hydrofluoric acid), we first need to calculate the acid dissociation constant (Kₐ) of HF.
The chemical equation for the dissociation of HF is,
HF + H₂O ⇌ H₃O+ F⁻
The Kₐ of HF is 6.8 x 10^-4, which means it is a weak acid.
Now, use the Kₐ expression to find the concentration of H₃O⁺ in the solution,
Kₐ = [H₃O⁺][F⁻]/[HF]
[H₃O⁺] = √(Kₐ x [HF]) = √(6.8 x 10^-4 x 0.75) = 0.017 M
Finally, use the definition of pH to find the pH of the solution,
pH = -log[H₃O⁺] = -log(0.017) = 1.77
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A tank is is half full of oil that has a density of 900 kg/m3. Find the work w required to pump the oil out of the spout. (use 9. 8 m/s2 for g. Assume r = 6 m and h = 2 m. ).
The amount of effort required to pump the oil from the spout is [tex]4*10^{6} J.[/tex]
Using Pythagoras theorem gives:-
[tex]r^{2} +y^{2} =3^{2}[/tex]
⇒ [tex]\\r^{2} = 9-y^{2}[/tex]
⇒ [tex]\\r= \sqrt{9-y^{2} }[/tex]
The volume (v) is :- [tex]v= \pi r^{2}[/tex]Δy
v= [tex]\pi (9-y^{2} )[/tex]Δy.
mass(m)= density ×volume,
m= [tex]\pi (9-y^{2} )[/tex]Δy×900
Force = mass × acceleration due to gravity(g),
force= [tex]900\pi *(9-y^{2} )[/tex]Δy × 9.8,
As a result, a distance of 4-y is moved.
work= force ×distance,
work(W)= [tex]8820\pi (9-y^{2} )[/tex]Δy × (4-y),
W= [tex]\int\limits^3_-3 {8820\pi(9-y^{2})(4-y)} \, dyW= 4*10^{6} joules.[/tex]
The work required to pump the oil out of the spout is [tex]4*10^{6} .[/tex]
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Substance P r eacts with dilute hydrochloric acid to produce a gas.This gas reduces substance Q.
WHAT IS P AND Q
Substance X is Sodium Hydrogen Carbonate and Y is Carbon Dioxide.
NaHCO3(s)+HCI(aq)→CO2(g)+NaCI(aq)+H2O(l)
What is sodium?
The Latin name for sodium is natrium, and it has the chemical elemental number 11 and the symbol Na. It is an extremely reactive, delicate, silvery-white metal. The periodic table's group 1 designates sodium as an alkali metal. 23Na is its sole stable isotope. In order to prepare the free metal, which does not exist in nature, compounds must be used.The mineral feldspar, sodalite, and halite are only a few examples of the many minerals that contain sodium, the sixth most prevalent element in the Earth's crust (NaCl). Since sodiumsodium ions have been slowly leached from Earth's minerals by water over aeons, many sodium salts are highly water-soluble.To know more about sodium, click the link given below:
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what name one similarity and one difference between simple diffusion and osmosis?
Answer:
.
Explanation:
Diffusion is the net movement of anything from a region of higher concentration to a region of lower concentration.
Osmosis is the movement of water molecules from a solution with a high concentration of water molecules to a solution with a lower concentration of water molecules,
Similarly : Both diffusion and osmosis occur to stabilize the concentration of molecules.
Difference : Osmosis can only function in a liquid medium, but diffusion can occur in all three mediums (solid, liquid and gas).
Hope it helps..
How much HI is produced from 13.4 g H2 if H2 is the limiting reagent?
The limiting reactant in this reaction is hydrogen gas.2 g of hydrogen gas will produce about 254 of HI. Then, 13.4 g will produce 1702 g of HI.
What is limiting reactant ?A limiting reactant in a reaction is the reactant which is fewer in amount or consume early without complete reaction with other reactants. Hence, as soon as this reactant is consume, the reaction stops.
The given reaction of the formation of HI can be written as follows:
H₂ + I₂ → 2HI
Atomic mass of H= 1 g/mol
molecular mass of H₂ = 2g/mol
As per the balanced chemical equation of the reaction, one mole or 2 g of hydrogen gas produce 2 moles of hydrogen iodide.
molar mass of HI = 127 g/mol
mass of 2 moles = 127 × 2 = 254 g.
2 of hydrogen produces 254 g HI. Then , 13.4 g of H₂ produces :
(254 × 13.4) /2 = 1702 g of HI
Therefore, 13.4 g of H₂ produce 1702 g of HI.
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During one cycle, the sodium potassium pump binds and moves?
During one cycle, the sodium potassium pump binds and moves 3 Na⁺ out of and 2K⁺ into the cell. Option B is correct.
The sodium-potassium pump is an essential membrane protein that helps to maintain the electrochemical gradient across the cell membrane of all animal cells. In each cycle of the pump, three sodium ions (Na+) are pumped out of the cell, while two potassium ions (K+) are pumped into the cell.
This movement of the ions will requires energy in the form of ATP hydrolysis. The resulting electrochemical gradient is important for various cellular processes, including nerve impulse transmission, muscle contraction, and osmoregulation.
Hence, B. 3 Na⁺ out of and 2K⁺ into the cell is the correct option.
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--The given question is incomplete, the complete question is
"During one cycle, the sodium potassium pump binds and moves; a) 2 Na⁺ into and 2 K⁺ out of the cell b)3 Na⁺ out of and 2K⁺ into the cell c)2 Na⁺ out of and 3 K⁺ into the cell d) 1 Na⁺ into and 2 K⁺ out of the cell e) 3 Na⁺ into and 3 K⁺ out of the cell"--
What is the charge of aluminum ion? How is this determined?
The charge of aluminum ion is +3. This is determined by the number of electrons that are lost or gained by an atom to form an ion.
In the case of aluminum, it has an atomic number of 13, which means it has 13 protons and 13 electrons in its neutral state. To form an ion, aluminum will lose 3 electrons, leaving it with 10 electrons and 13 protons.
Since protons have a positive charge and electrons have a negative charge, the difference between the two will give us the overall charge of the ion. In this case, 13 protons - 10 electrons = +3, so the charge of the aluminum ion is +3.
The charge of aluminum ion is +3 and it is determined by the difference between the number of protons and electrons in the ion.
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Which one of the following best defines the notion of the significance level of a hypothesis test?a. The probability of rejectin H2O whether it's true or notb. The probability of observing a sample statistic more extreme than the one actually obtained, assuming the null hypothesis is truec. The probability of the type I errorD. The probability of the type II error
Option B, The probability of observing a sample statistic is more extreme than the one obtained, assuming the null hypothesis is true defines the notion of the significance level of a hypothesis test.
The significance level of a hypothesis test is the probability of observing a sample statistic that is more extreme than the one obtained, assuming the null hypothesis is true.
This value is used to set the threshold for the level of evidence required to reject the null hypothesis in favor of an alternative hypothesis.
The significance level is commonly represented by alpha (α), with typical values being 0.01 or 0.05. If the calculated p-value is less than the significance level, the null hypothesis is rejected and the alternative hypothesis is supported.
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Which do scientists study to determine air temperature at the time it was formed? Select the two correct answers.
Fossilized pollen
air bubbles trapped in ice
tree rings
chemical isotopes in foraminifera shells
Scientist study determines air bubbles trapped in ice and tree rings air temperature at the time it was formed.
Option B and C are correct.
Climate climatology is the study of how climate changes over time. The atmospheric factors that influence weather patterns and temperature variations over time are better understood thanks to this research.
Why is the foraminifera fossil record important to oil exploration?They make it possible to connect rocks from different places, which is important when making geological maps, looking for oil or gas, and building big civil engineering projects. The fossils' ages revealed when the ocean was extremely cold. By finding cold-water foraminifera of the same age in other seas, scientists can create maps that show where cold water was at various points in Earth's history.
Incomplete question :
Which do scientists study to determine air temperature at the time it was formed? Select the two correct answers.
A.Fossilized pollen
B.air bubbles trapped in ice
C.tree rings
D.chemical isotopes in foraminifera shells
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Identify the color absorbed by a solution that appears the color given Green Orange BlueRed
Orange = Blue, Green = Red, Blue = Orange, and Red = Green in a solution that takes on the appearance of the hue provided. Orange Green Blue Red
Is color reflected or absorbed?The wavelengths that are reflected or transmitted create the colors we perceive. For instance, a red garment appears red because the fabric's dye molecules have absorbed light waves from the violet/blue end of the spectrum.
Which shade is absorbent?Since light is energy, the more light the thing takes in, the more heat is taken in. Black is the color that absorbs the greatest heat, if color is a thing. All light's wavelengths are absorbed and none are reflected by a dark object. White objects, on the other hand, reflect all light wavelengths and hence absorb the least heat.
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n moles of an ideal gas at temperature T1 and volume V1 expand isothermally until the volume has doubled.
A) In terms of n, T1, and V1 what is the final temperature?
Express your answer in terms of the variables n, T1, V1, and constant R
B) In terms of n, T1, and V1, what is the work done on the gas?
Good hand writing is prefered.
Express your answer in terms of the variables n, T1, V1, and constant R.
C) In terms of n, T1, and V1, what is the heat energy transferred to the gas?
A) The final temperature (T2) of N moles of an ideal gas, initially at temperature T1 and volume V1, which expands isothermally until its volume doubles.
Can be expressed as T2 = T1
This is because the ideal gas law for an isothermal process is PV = nRT, where P is the pressure, V is the volume, n is the number of moles, R is the ideal gas constant, and T is the temperature. Since the temperature is constant, and the volume doubles, the pressure must decrease by a factor of two, and as a result, the temperature must remain the same.
B) The work done on the gas during the isothermal expansion process can be calculated using the following equation:
[tex]W = -nRT1 ln(2)[/tex]
This equation follows from the formula for the work done in an isothermal process, which is given by:
[tex]W = -∫PdV[/tex]
where P is the pressure and V is the volume. For an ideal gas, PV = nRT, so we can substitute this equation into the above expression to get:
[tex]W = -nRT ln(V2/V1)[/tex]
Since the volume doubles, V2 = 2V1, and we get:
W = -nRT1 ln(2)
C) Since the expansion is isothermal, the heat energy transferred to the gas can be calculated using the following equation:
[tex]Q = W = -nRT1 ln(2)[/tex]
This equation shows that the heat energy transferred to the gas is equal to the work done on the gas, which is equal to -nRT1 ln(2). Since the natural logarithm of 2 is a constant, this means that the amount of heat transferred is proportional to the initial temperature, the number of moles, and the ideal gas constant.
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Why did the percentage of oxygen increase in the early atmosphere?
The increase in the percentage of oxygen in the early atmosphere was a result of the evolution of photosynthetic organisms, and it played a crucial role in the development of life on Earth.
What is Atmosphere?
The atmosphere is the layer of gases that surrounds a planet and is held in place by the planet's gravity. On Earth, the atmosphere is composed of a mixture of gases that include nitrogen (78%), oxygen (21%), argon (0.9%), and carbon dioxide (0.04%), as well as trace amounts of other gases. The atmosphere plays a vital role in supporting life on Earth, providing the air that we breathe and protecting us from harmful radiation from the sun.
The early atmosphere of the Earth was mostly composed of nitrogen, carbon dioxide, water vapor, and small amounts of methane, ammonia, and other gases. The percentage of oxygen in the early atmosphere was very low, estimated to be less than 0.1%.
The increase in the percentage of oxygen in the Earth's atmosphere is believed to be due to the emergence and evolution of photosynthetic organisms, such as cyanobacteria and algae. These organisms are capable of using sunlight to convert carbon dioxide and water into organic matter and oxygen through the process of photosynthesis. This process began around 3.5 billion years ago and over time, oxygen began to accumulate in the atmosphere, as it was released as a waste product of photosynthesis.
As oxygen levels increased, it became possible for more complex organisms to evolve, including those that use oxygen for respiration. The accumulation of oxygen also had a significant impact on the Earth's climate and environment, leading to the development of the ozone layer and the reduction of carbon dioxide levels in the atmosphere.
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the three smaller components that make up atoms are
The three smaller components that make up atoms are neutrons, electrons and protons.
What is an atom?
An atom is the smallest particle of an element that still retains its chemical properties. Atoms consist of a small, dense nucleus surrounded by a cloud of negatively charged electrons. The nucleus is made up of protons and neutrons, and contains nearly all of the mass of the atom. The number of protons in an atom's nucleus determines the element it is.
The three smaller components that make up atoms are protons, neutrons, and electrons. Protons carry a positive charge and are found in the nucleus of an atom. Neutrons carry a neutral charge and are also found in the nucleus. Electrons carry a negative charge and are found in the electron cloud that surrounds the nucleus.
Therefore, neutrons, electrons and protons are the answers.
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Calculate the molality of the solution. (assume a density of 1. 08 g/ml for the solution. ).
The molality of the solution is 0.162 m. Molality is a measure of the concentration of a solute in a solution and is defined as the number of moles of solute per kilogram of solvent.
To calculate the molality, we first need to find the number of moles of solute in the solution and then divide that by the mass of the solvent. The number of moles of solute in the solution is 0.18 moles.
The volume of the solution is 100.0 mL, or 0.100 L, and its density is 1.08 g/mL, so the mass of the solvent can be calculated as:
0.100 L x 1.08 g/mL = 0.108 kg.So, the molality of the solution is 0.18 moles / 0.108 kg = 0.162 m (moles per kilogram). The unit of molality is moles per kilogram of solvent and is often used when the amount of solvent is large relative to the amount of solute.
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What is the bond line structure?
The bond line structure, also known as the skeletal formula or stick diagram, is a type of molecular structure representation used in Chemistry.
It is a simplified way to show the bonding between atoms in a molecule without explicitly drawing each atom or bond. Instead, the bond line structure uses lines to represent the bonds between atoms, with the atoms themselves implied at the end or intersection of the lines.
For example, in the bond line structure of ethane (C₂H₆), the two carbon atoms are represented by the ends of a line and the six hydrogen atoms are implied at the ends and intersections of the lines.
This makes the bond line structure a more compact and efficient way to represent molecules compared to other methods, such as the Lewis structure.
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How do you find the number of neutrons in an element on the periodic table?
When we subtract the atomic number of the atom from its atomic mass, we get the number of neutrons in the atom of the periodic table.
The nucleus of the atom, a huge solid mass that occupies the core of the atom, is what gives it its name. In fixed orbits, the electrons move around the nucleus.
The nucleus of an atom contains protons and neutrons, and the quantity of protons determines how many electrons are present in the atom.
Now investigate the claim that Z+N=A may be used to calculate the number of neutrons in an atom.
Z is the atomic number of the element here.
The quantity N is the number of neutrons.
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what is cloud computing
Answer:
Cloud computing (English: cloud computing) is the general name of internet-based computing services for computers and other devices that provide computing resources that can be used at any time and shared among users. In this respect, cloud computing is not a product, but a service; By providing the sharing of software and information in the basic source, the existing information service; computers and other devices, similar to electrical distributors, over a computer network (typically the Internet).
Explanation:
Identify the color absorbed by a solution that appears the color given Green Choose Orange Choose Blue Choose Red choose
The color absorbed by a solution that appears the color given Green is Red.
The many colors we can see are caused by the various wavelengths that are present in the visible spectrum. We can recall the colors red, orange, yellow, green, blue, indigo, and violet by using the abbreviation "ROYGBIV." The figure below shows these in reverse order. Red is the least vibrant color, whereas violet is the strongest.
According to the graph, 550 nm light would appear green to us if it were shone upon us. White is made up of all the light wavelengths, hence it is not included in our visible spectrum. A nice illustration is a light bulb. Because it emits at least some of all the visible wavelengths, it appears white.
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give the term for the amount of solute in moles per kilogram of solvent.
Molality is term used for the amount of solute in moles per kilogram of solvent.
Generally, molality (m) is defined as the number of moles of solute per kilogram of solvent.
The formula for molality is given as:
Molality (m) = moles of solute / kilograms of solvent.
Students must remember that molality is used to measure the moles in relation to the mass of the solvent and not the mass of the solution.
Molality can also be defined as the “total moles of a solute contained in a kilogram of a solvent.” The other name of molality is also known as molal concentration which is a measure of solute concentration in a solution.
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The molecular formula for the simple sugar glucose is C6H12O6. What compound represents the empirical formula for glucose?
The basic sugar glucose has the chemical formula C6H12O6. In terms of an empirical formula, CH2O represents glucose.
The empirical formula for a compound represents the simplest whole-number ratio of atoms in the compound.
As per the details provided in the above given question,
To determine the empirical formula of glucose, we need to divide the subscripts in the molecular formula by the greatest common factor (GCF) of those subscripts.
The subscripts of C6H12O6 can be divided by 6 to get the simplest whole-number ratio:
C6H12O6 ÷ 6
Further we get,
= CH2O
Therefore, the empirical formula for glucose is CH2O.
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If 3.5 moles of Zn are used, how many moles of HCl are required?
What is the ion formula for nitrate?
The formula for Nitrate ion is [tex]NO^{3-}[/tex]. This is a polyatomic ion containing nitrate ion. It is called Nitrate oxo-anion.
[tex]NO3^{-}[/tex] is a nitrogen oxo-anion, a member of reactive nitrogen species and a monovalent inorganic anion. This ion is a polyatomic anion with the empirical formula NO3- and a molecular mass of 62.01 Daltons. The ion consists of one central nitrogen atom surrounded by three identical oxygen atoms in a trigonal planar arrangement. It carries a negative one formal charge. It carries negative charge because the single bound oxygen atoms have nine electrons linked with them moreover they have a negative charge overall. That means the nitrate ion has an overall charge of -1. The bond order of nitrate ion can be calculated using its Lewis dot structure. Bond order is the total number of bonds number of bonds group. In NO3- ion there are four N - O bonds and three bond groups.
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Help please <3 Air molecules can also absorb IR radiation. So, when we analyze any sample with IR light that light must travel through both air and our sample for the analysis. How might you expect we could correct for this during our sample collection to obtain the spectrum of just our sample and not the sample + air? (Hint: it will require taking two IR readings).
Answer:
To correct for the interference of air molecules in the IR spectrum, we can take two IR readings - one with the sample in place and the other with no sample but with air in the sample chamber. By taking the difference between the two readings, we can obtain the spectrum of the sample alone, without interference from the air. This technique is known as background subtraction. The first reading with the sample in place will be the test variable, while the second reading with air in the sample chamber will be the control variable. The outcome variable will be the resulting spectrum after subtracting the control from the test variable.
The oxidation state of manganese in this compound is , and the chemical formula of the compound is.
An alloy of a transition metal is manganese (III) oxide. The chemical formula of this molecule is Mn2O3, and the oxidation state of the manganese in it is +3.
Because manganese is a transition metal, as it chemically reacts with oxygen, the electrons will be taken up as it loses valence electrons to achieve stability. It will consequently result in the creation of an ionic compound. Mn in this molecule has an oxidation state of +3 and oxygen has an oxidation state of -2. As a result, manganese (III) oxide can be classified as a transition metal complex. The chemical formula of the compound is, and the oxidation state of the manganese in it is +3.
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Complete question:
Manganese (III) oxide is a transition metal compound. The oxidation state of manganese in this compound is _______ , and the chemical formula of the compound is __ __ __ __.
How many moles are in 1.204 x 1024
atoms of zinc?
[?] moles
Report your answer with the appropriate number of
significant figures.
Moles of Zinc
Enter
The answer is 20.00 moles
What is moles?
Mole is a very important unit of measurement that chemists use.
To calculate the number of moles in 1.204 x 10^24 atoms of zinc, we need to use Avogadro's number, which is 6.022 x 10^23 atoms/mole.
First, we can calculate the number of moles by dividing the number of atoms by Avogadro's number:
1.204 x 10^24 atoms / 6.022 x 10^23 atoms/mole = 20 moles
Therefore, there are 20 moles in 1.204 x 10^24 atoms of zinc.
Since the given value has four significant figures, we should report our answer with four significant figures as well. Therefore, the answer is:
20.00 moles
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A certain reaction occurs in the following steps.(i) Cl(g) +O3(g) →ClO (g) +O2(g)Identify the reaction intermediate and write the chemical equation for overall reaction.
Since it is created in the first step and used up in the second, Clo (g) is the reaction intermediate. O 3 (g)+O (g)2O 2 is the overall reaction (g)
What is reaction intermediate?
A reaction intermediate, also known as an intermediate, is a molecular entity that is created from the reactants (or previous intermediates) in chemical reactions that take place in steps and have several elementary steps. Although they represent the end result of one elementary step's reaction, intermediates do not appear in the chemical equation for the whole chemical equation. According to the IUPAC Gold Book, an intermediate is a substance that is generated (directly or indirectly) from the reactants and undergoes additional reactions to give rise to (either directly or indirectly) the products of a chemical process. Its lifetime exceeds that of a molecular vibration.
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