consider the first ionization energy of potassium and the third ionization energy of calcium. Which one would you expect to be higher, and why?
Answer:
Explanation: K+ has a higher ionisation energy than Ca+ , so K has a higher second ionisation energy than Ca .
How much HCl (in moles) must be added to 1L of a buffer solution that is 0.84 M in ammonia and 0.96 M in ammonium chloride to result in a buffer solution of pH 8.56?
we need to add 0.20 moles of HCl to 1 liter of the buffer solution to achieve a pH of 8.56.
Steps
The Henderson-Hasselbalch equation for the buffer system is:
pH = pKa + log([A-]/[HA])
where pKa is the acid dissociation constant for ammonium ion (NH4+), [A-] is the concentration of ammonia (NH3), and [HA] is the concentration of ammonium ion (NH4+).
The pKa for NH4+ is 9.25, so:
pH = 9.25 + log([NH3]/[NH4+])
Substituting the given concentrations, we get:
8.56 = 9.25 + log([NH3]/0.96)
log([NH3]/0.96) = -0.69
[NH3]/0.96 = 0.21
[NH3] = 0.20 M
The balanced chemical equation for the reaction between HCl and NH3 can be used to determine how much HCl is necessary to reach this new concentration:
HCl + NH3 → NH4+ + Cl-
Calculating the amount of HCl required to convert some of the NH3 to NH4+ is all that is necessary because the buffer solution already includes NH4+ and Cl-. The required amount of NH4+ is:
[NH4+] = [NH3] = 0.20 M
The amount of HCl is needed is
0.20 mol NH3 × 1 mol HCl/1 mol NH3 = 0.20 mol HCl
Therefore, we need to add 0.20 moles of HCl to 1 liter of the buffer solution to achieve a pH of 8.56.
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a ballon contains 7.36 g of oxygen gas, how many oxygen molecules are in the balloon
There are approximately 1.39 × 10²³ oxygen molecules in the balloon.
What is the characteristics of oxygen gas?Oxygen is colorless, odorless and tasteless gas and it supports life. It is noncombustible but actively supports the burning of combustible materials.
To calculate number of oxygen molecules in the balloon, we use the Avogadro's number, which is equal to 6.022 × 10²³ molecules per mole of substance.
As moles of oxygen gas = mass of oxygen gas / molar mass of oxygen gas
moles of oxygen gas = 7.36 g / 32 g/mol
So, moles of oxygen gas = 0.23 mol
Now we use the Avogadro's number to calculate number of oxygen molecules in the balloon:
As number of oxygen molecules = moles of oxygen gas × Avogadro's number
number of oxygen molecules = 0.23 mol × 6.022 × 10²³ molecules/mol
number of oxygen molecules = 1.39 × 10²³ molecules
Therefore, there are approximately 1.39 × 10²³ oxygen molecules in the balloon.
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Which of the following would most likely be a result of switching from geothermal energy to biomass energy as the primary energy source for a home? (5 points)
Amount of trash would increase in landfills
Combustion increases greenhouse gases
Deforestation would give way to land for crops
Fossil fuel consumption would be eliminated
The likely statement that would be a result of switching from geothermal energy to biomass energy as the primary energy source for a home is
Deforestation would give way to land for crops.
Option C is correct.
What is Deforestation?Deforestation is described as the removal of a forest or stand of trees from land that is then converted to non-forest use.
Switching from geothermal energy to biomass energy would result to increase the demand for organic materials, leading to deforestation and a loss of habitat for wildlife.
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Which of the following diatomic elements would have a mass of 19.08 grams stored in a container at and 100°C? (R= 0.0821 L atm/ mol K).
Fluorine is most likely the diatomic element with the mass of 19.08 grammes held in a container at 100°C (F2).
Is the element H2 diatomic?Diatomic molecules are those that contain two atoms. Iodine (I2), fluorine (F2), chlorine (Cl2), bromine (Br2), nitrogen (N2), oxygen (O2), and hydrogen (H2) are all diatomic elements. Diatomic molecules make up the bromine atom, Br2, in the periodic table.
Are all Group 7 atoms diatomic?The diatomic molecules of the group 7 elements are present. They have the chemical formulas F2, Cl2, Br2, and I2. Although the forces of attraction between molecules are minimal, the connection between the atoms in a molecule is quite strong. This explains why the boiling points of group 7 elements are low.
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Question:
Which of the following diatomic elements would have a mass of 19.08 grams stored in a container at and 100°C? (R= 0.0821 L atm/ mol K).
Thediatomic element with a mass of 19.08 grams stored in a container at 100°C is hydrogen (H2), which has a pressure of 27.2 atm.
What is Diatomic Elements?
Diatomic elements are chemical elements that exist as two atoms bound together in a molecule. Examples of diatomic elements include oxygen (O2), nitrogen (N2), hydrogen (H2), fluorine (F2), chlorine (Cl2), and iodine (I2).
To determine the diatomic element with a mass of 19.08 grams stored in a container at 100°C, we need to use the ideal gas law, which is given by:
PV = nRT
where P is the pressure of the gas, V is its volume, n is the number of moles of the gas, R is the ideal gas constant, and T is the temperature in Kelvin.
We can rearrange this equation to solve for the number of moles:
n = PV/RT
We are given the mass of the gas, which we can convert to moles using the molar mass of the element. The molar mass of a diatomic element is simply twice the atomic mass of the element. Using the periodic table, we find the following atomic masses:
H: 1.008
N: 14.007
O: 15.999
F: 18.998
We can calculate the molar mass of each diatomic element:
H2: 2 x 1.008 = 2.016 g/mol
N2: 2 x 14.007 = 28.014 g/mol
O2: 2 x 15.999 = 31.998 g/mol
F2: 2 x 18.998 = 37.996 g/mol
Now we can calculate the number of moles of the gas using the given mass and molar mass:
n = 19.08 g / molar mass
Using the molar masses above, we get:
For H2: n = 19.08 g / 2.016 g/mol = 9.47 mol
For N2: n = 19.08 g / 28.014 g/mol = 0.68 mol
For O2: n = 19.08 g / 31.998 g/mol = 0.60 mol
For F2: n = 19.08 g / 37.996 g/mol = 0.50 mol
Finally, we can use the ideal gas law to calculate the pressure of the gas, assuming a volume of 1 liter:
P = nRT/V = (number of moles) x R x (temperature in Kelvin) / V
Plugging in the values, we get:
For H2: P = 9.47 mol x 0.0821 L atm/mol K x (100+273.15) K / 1 L = 27.2 atm
For N2: P = 0.68 mol x 0.0821 L atm/mol K x (100+273.15) K / 1 L = 1.97 atm
For O2: P = 0.60 mol x 0.0821 L atm/mol K x (100+273.15) K / 1 L = 1.74 atm
For F2: P = 0.50 mol x 0.0821 L atm/mol K x (100+273.15) K / 1 L = 1.45 atm
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A liquid fuel mixture contains 28.30 % hexane (C6H14) , 15.75 % heptane (C7H16) , and the rest octane (C8H18) What maximum mass of carbon dioxide is produced by the complete combustion of 15.0 kg of this fuel mixture? .
Hexane, heptane, and octane have molar masses of Hexane (C6H14) has a molecular mass of 6 (12.01 g/mol) and 14 (1.00 g/mol) and heptane (C7H16) has a molecular mass of 7 (12.01 g/mol) and 16 (1.00 g/mol) and 100.21 g/mol.
Molar mass: What Is It?The mass in grammes of one mole of a chemical is its molar mass.The quantity of atoms, molecules, and ions contained in a substance is measured in terms of moles. A mole of any substance contains 6.022 x 1023 molecules.
Use 100 g of the fuel mixture as an example. Then:
Hexane weight is 28.30 grammes.
15.75 g is the heptane mass.
Octane mass is equal to 100 g, 28.30 g, 15.75 g, and 55.95 g.
The molar masses of hexane, heptane, and octane are:
Molar mass of hexane (C6H14) = 6(12.01 g/mol) + 14(1.01 g/mol) = 86.18 g/mol
Molar mass of heptane (C7H16) = 7(12.01 g/mol) + 16(1.01 g/mol) = 100.21 g/mol
Molar mass of octane (C8H18) = 8(12.01 g/mol) + 18(1.01 g/mol) = 114.23 g/mol
The number of moles of each component in 100 g of the fuel mixture is:
Moles of hexane = 28.30 g / 86.18 g/mol = 0.3282 mol
Moles of heptane = 15.75 g / 100.21 g/mol = 0.1573 mol
Moles of octane = 55.95 g / 114.23 g/mol = 0.4899 mol
Therefore, the mole fractions of each component are:
Mole fraction of hexane = 0.3282 / (0.3282 + 0.1573 + 0.4899) = 0.3841
Mole fraction of heptane = 0.1573 / (0.3282 + 0.1573 + 0.4899) = 0.1838
Mole fraction of octane = 0.4899 / (0.3282 + 0.1573 + 0.4899) = 0.4321
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CAN SOMEONE HELP WITH THIS QUESTION?✨
In the Preparation of Copper (l) Chloride experiment, Could we use HCl to dissolve the copper metal instead of nitric acid in the first reaction?
No, using hydrochloric acid (HCl) to dissolve copper metal in the Preparation of Copper (I) Chloride experiment is not recommended because it would result in the formation of copper (II) chloride rather than copper (I) chloride.
How to prepare Copper (l) Chloride?
Copper metal reacts with hydrochloric acid to form copper (II) chloride and hydrogen gas:
Cu (s) + 2HCl (aq)
→ CuCl2 (aq) + H2 (g)
In contrast, when copper metal reacts with nitric acid, it is oxidized to copper (II) ions by the nitric acid. These copper (II) ions then react with copper metal to form copper (I) ions, which react with chloride ions to form copper (I) chloride:
Cu (s) + 4HNO3 (aq) → Cu(NO3)2 (aq) + 2NO2 (g) + 2H2O (l)
Cu(NO3)2 (aq) + 2Cu (s) → 3Cu2+ (aq) + 2NO3- (aq)
3Cu2+ (aq) + 2Cl- (aq) → Cu3Cl2 (s)
Therefore, to obtain copper (I) chloride, it is necessary to use nitric acid in the first reaction.
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A 5.40 mol sample of solid A was placed in a sealed 1.00 L container and allowed to decompose into gaseous B and C.
The concentration of B steadily increased until it reached 1.40 M, where it remained constant.
A(s)↽−−⇀B(g)+C(g)
Then, the container volume was doubled and equilibrium was re‑established. How many moles of A remain?
The number of moles of A remaining at the new equilibrium is 1.93 mol.
What is the meaning of partial pressure?Partial pressure is the pressure exerted by a single gas component in a mixture of gases, assuming that the other gas components are absent or ideal. In other words, it is the pressure that the gas would exert if it were the only gas in the container at the same volume and temperature.
In a mixture of gases, each gas contributes to the total pressure of the system, which is the sum of the partial pressures of each gas. This is meant to refer to as Dalton's law of partial pressures. The partial pressure of a gas is proportional to its mole fraction in the mixture, which is the ratio of the number of moles of the gas to the total number of moles of all gases in the mixture.
The balanced equation for the reaction is:
A(s) ⇌ B(g) + C(g)
Let's denote the initial amount of A as nA. Since the molar mass of A is not given, we cannot determine its mass directly from the number of moles. However, we know that the initial amount of A is 5.40 moles, so we can write:
nA = 5.40 mol
At equilibrium, the concentration of B is given as 1.40 M. Using the ideal gas law, we can relate the concentration of B to its partial pressure:
PV = nRT
where P is the partial pressure of B, V is the volume of the container, n is the number of moles of B, R is the gas constant, and T is the temperature. Assuming that the volume of the container does not change during the reaction, we can write:
P = nBRT/V
where nB equals the number of moles of B. Since the concentration of B is given as 1.40 M, we have:
nB/V = [B] = 1.40 M
Substituting into the previous equation, we obtain:
P = nBRT/V = (1.40 M)(R)(T)
At equilibrium, the partial pressures of B and C must be equal, so we have:
P = PB = PC
Let's denote the number of moles of B and C as nB and nC, respectively. Since the total number of moles in the system is conserved, we have:
nA = nB + nC
At equilibrium, the number of moles of B is equal to the number of moles of C, so we have:
nB = nC = 0.5(nA)
Substituting into the ideal gas law expression for P, we obtain:
P = PB = PC = nBRT/V = (0.5nA)(R)(T)/V
We can use this equation to calculate the value of P at equilibrium. Then, when the volume of the container is doubled, the new pressure will be:
P' = P/2
At the new equilibrium, the partial pressures of B and C must be equal, so we have:
P' = PB' = PC'
We can use the same logic as before to write:
PB' = PC' = (0.5nA')(R)(T)/(2V)
where nA' is the number of moles of A remaining at the new equilibrium. Setting PB' equal to P' and solving for nA', we obtain:
nA' = nA(P')/(2P) = (5.40 mol)(1/2)/(P/P') = (5.40 mol)(1/2)/(1.40/2) = 1.93 mol
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how do you find frequency from wavelength
The algorithm can be used to determine a wave's frequency if its wavelength is known: Frequency ⇒ 1/wavelength.
Define wavelength.
The extent of a wave is expressed by its wavelength. The wavelength is the distance between one wave's peak and the next wave's crest. The wavelength can also be determined by measuring from the "trough" (bottom) of one wave to the "trough" of the following wave.
Wavelength and frequency are inversely related. The number of waves that pass a fixed location in a unit of time is referred to as frequency. It also explains how many cycles or vibrations a body in periodic motion experiences in a given unit of time.
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Calculate the mass in grams of 2.5 moles of c
Can you help me with this please?
Precipitation reactions;
2KCl + Pb(NO3)2 ----> PbCl2 + 2KNO3
Ba(NO3)2 + K2SO4 -----> BaSO4 + 2KNO3
Hg2(C2H3O2)2 + 2NaCl -----> Hg2Cl2 + 2NaC2H3O2
Non precipitation reactions
C + O2 ---> CO2
HBr + KOH ----> KBr + H2O
HCl + KOH -----> KCl + H2O
H2O2 + NaOBr ----> NaBr + H2O + O2
What is a precipitation reaction?A precipitation reaction is a type of chemical reaction that occurs when two aqueous solutions (solutions dissolved in water) are mixed together and form an insoluble solid called a precipitate.
The reaction is characterized by the exchange of ions between the two aqueous solutions, which leads to the formation of the insoluble solid.
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What is the net ionic equation of
2H+ + SO2 + Ca²+ + 2I → CaSO4 + 2H+ + 2I?
A. H₂SO4(aq) + Cal₂(aq) → CaSO4(s) + 2Hl(aq)
B. 2H+ + SO2 + Ca²+ → CaSO4 + 2H*
C. H+ + SO4²+ Ca²+ + 2I→CaSO4+H*+ I
D. SO4²+ Ca²+ → CaSO4
Answer:
The net ionic equation of 2H+ + SO2 + Ca²+ + 2I → CaSO4 + 2H+ + 2I is C. H+ + SO4²+ Ca²+ + 2I→CaSO4+H*+ I. This equation describes the process of a single replacement reaction, where the hydrogen ions and iodide ions react with the sulfate and calcium ions to form the insoluble compound of calcium sulfate and the remaining hydrogen and iodide ions
Explanation:
2. Transfer in energy to reach the highest amount of kinetic energy for both substance B and C.
3. Slowly transfer out energy from each substance. Note the temperature at which each substance changes phase.
Substance B changed to a liquid at
? °C.
Substance C changed to a liquid at
? °C.
4. Based on your observations above, which substance needed a greater decrease in kinetic energy in order to change phase?
The substance with (medium or low energy)
A physical change is when a substance's phase changes. Low molecular attraction material C requires more energy to be moved out, which means its kinetic energy must be reduced.
Energy transfer: What is it?Neither creation nor destruction of energy is possible. Yet, it is transferable from one type to another, preserving the system's overall energy.
In the liquid state, molecules or atoms have medium molecular affinity and are somewhat closer together than they are in the gaseous state, where they are widely apart and have low intermolecular forces of attraction.
As a material transforms from a gas to a liquid, its molecules condense and become closer to one another, creating a stronger molecular attraction.
Gas B has a medium level of molecular attraction, making it easy to liquify with little energy transfer, whereas gas C has a lower level of molecular attraction but a greater level of kinetic energy, requiring more energy transfer.
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Which compound contains ionic bonds?
A. HBr B. CO₂ C .C6H12O6 D. NaBr
Answer:
D
Explanation:
Transfer of electrons from Na to Cl
Na has configuration of 2,8,1 it will lose one electron to Cl with configuration of 2,7 inorder for both to attain an octet configuration
HELP!!!! PLEASE! DUE TODAY! 40 PTS!
PROJECT: LAYERS OF THE ATMOSPHERE
The atmosphere is made of different layers. Each layer has distinguishing characteristics. For example, long flights in a plane usually remain in the stratosphere. When you see a falling star, it is a meteorite burning up in the mesosphere. This project will test your knowledge of each layer and its characteristics. You can review the layers of the atmosphere in Lesson 3 of this unit.
OBJECTIVES
Distinguish the layers of the atmosphere.
Create a model of the atmospheric layers.
Materials
Crayons, markers, or colored pencils
Posterboard
Instructions
Create a model of the atmosphere above the earth. Use a different color to indicate each layer of the atmosphere.
Provide a legend telling what each color represents.
Note a special feature of each layer. Some ideas of special features could be special functions or activities that occur in each layer, like weather or ionization. Or, you can include objects you might see in each layer, like planes, falling stars, northern lights, satellites, etc.
Note the average temperature or temperature range of each layer and how many miles from Earth each layer extends.
Answer: Your welcome!
Explanation:
Paragraph 1:
The atmosphere is composed of several layers, each with their own distinct characteristics. The closest layer to the earth is the troposphere which is about 10 miles above the surface of the earth. This layer is where we find most of our weather, temperature changes, and air pollution. The next layer is the stratosphere, which extends from 10 to 50 miles above the earth. This layer is known for its stable temperature and air pressure, as well as its concentration of ozone which absorbs much of the sun's ultraviolet radiation. At the top of the stratosphere is the mesosphere which extends to about 55 miles above the earth. This layer is known for its cold temperatures, making it the perfect place for meteoroids to burn up as they enter the atmosphere. Finally, the thermosphere extends from 55 to 400 miles above the earth, and is known for its extremely high temperatures, allowing for the aurora borealis to be visible here.
Paragraph 2:
To create a model of the atmosphere, one can use colored posterboard to represent the different layers. For example, the troposphere could be colored green to represent the air and clouds while the stratosphere could be colored blue to represent the ozone layer. The mesosphere could be colored orange to represent the burning of meteoroids, and the thermosphere could be colored purple to represent the aurora borealis. For each layer, one could provide a legend telling what each color represents, as well as a note about a special feature of each layer such as the activities that occur in each layer or the objects that can be seen in each layer. Additionally, one could provide the average temperature or temperature range of each layer, as well as how many miles from Earth each layer extends.
Paragraph 3:
Overall, creating a model of the atmosphere is an interesting and educational activity. By representing each layer in a different color, one can learn more about the different characteristics of each layer and how they relate to one another. Additionally, by providing a legend and notes about special features of each layer, one can gain a better understanding of the atmosphere and its components. Through this model, one can gain a better appreciation of the atmosphere and how it functions to protect our planet.
When you increase the amount of carbon dioxide in the atmosphere, you also increase the amount of _____ in the ocean.
Answer: Carbonic acid
When you increase the amount of carbon dioxide in the atmosphere, you also increase the amount of carbonic acid in the ocean.
What happens when you increase the amount of carbon dioxide?Carbon dioxide is absorbed from the atmosphere into the ocean through a process called "oceanic uptake," which is facilitated by the exchange of gases at the air-sea interface.
As more carbon dioxide is emitted into the atmosphere, the concentration of carbon dioxide in the ocean increases, leading to a phenomenon called "ocean acidification".
Ocean acidification can have a number of negative impacts on marine organisms, including reduced growth rates and weakened shells or skeletons.
Thus, we can conclude this increases the amount of carbonic acid in ocean.
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what is the percentage composition of magnesium hydroxide in this substance. (Mg(OH)2)
The percentage composition of magnesium hydroxide in the substance (Mg(OH)2) is 41.67%.
Magnesium hydroxide (Mg(OH)2) is of one magnesium (Mg) atom and two hydroxides (OH) ions.
The atomic mass of Mg = 24.31 g/mol
the atomic mass of O and H = 15.99 g/mol & 1.01 g/mol
The molecular weight of Mg(OH)2 is:
Mg(OH)2 = (24.31 g/mol) + 2(15.99 g/mol + 1.01 g/mol)
= 58.32 g/mol
To calculate percentage composition, we need to calculate the mass of magnesium in one molecule of (Mg(OH)2)
Mass of Mg = 24.31 g/mol
The percentage composition of magnesium in Mg(OH)2 is:
(24.31 g/mol / 58.32 g/mol) x 100% ≈ 41.67%
Therefore, the percentage composition of magnesium in Mg(OH)2 is approximately 41.67%.
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Relative formula mass- Calculate the relative formula mass of the foll
examples:
1) H₂O
Answer:
The relative formula mass of H₂O can be calculated by adding the atomic masses of two hydrogen atoms and one oxygen atom in the molecule. The atomic mass of hydrogen is 1 and the atomic mass of oxygen is 16. So, the relative formula mass of H₂O is:
(2 x 1) + 16 = 18
Explanation:

NUMBER 4, SOMEONE EXPLAIN TO ME HOW TO SOLVE THIS
The limiting reagent is chlorine.
The amount of excess reagent that will remain is 0.918 g of Al.
Stoichiometric problemThe balanced chemical equation for the reaction is:
2Al + 3Cl2 → 2AlCl3
The molar mass of Al is 26.98 g/mol and the molar mass of Cl2 is 70.90 g/mol. We can use these values to calculate the number of moles of each reactant:
moles of Al = 2.70 g / 26.98 g/mol = 0.100 mol
moles of Cl2 = 4.05 g / 70.90 g/mol = 0.057 mol
According to the balanced equation, 2 moles of Al react with 3 moles of Cl2 to produce 2 moles of AlCl3. Therefore, the amount of AlCl3 produced by each reactant is:
Al: (0.100 mol Al) x (2 mol AlCl3 / 2 mol Al) = 0.100 mol AlCl3
Cl2: (0.057 mol Cl2) x (2 mol AlCl3 / 3 mol Cl2) = 0.038 mol AlCl3
Since Cl2 produces less AlCl3, it is the limiting reagent. The amount of excess Al can be calculated as follows:
moles of excess Al = moles of Al - (moles of Cl2 x (2 mol Al / 3 mol Cl2))
moles of excess Al = 0.100 mol - (0.057 mol x (2/3))
moles of excess Al = 0.034 mol
The mass of excess Al can then be calculated using its molar mass:
mass of excess Al = moles of excess Al x molar mass of Al
mass of excess Al = 0.034 mol x 26.98 g/mol
mass of excess Al = 0.918 g
Therefore, 0.918 g of Al remains unreacted.
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2KI(aq)+Pb(NO3)2(aq)→PbI2(s)+2KNO3(aq)
2.80 mol of KI
1.00 mol of Pb(NO3)2
0.765 mol of PbI2
1.53 mol of KNO3
a) Write the limiting reagent. (express as a chemical formula)
b) Provide the masses of the reactants. (separate integers with commas)
c) Provide the masses of the products. (separate integers with commas)
d) Write the theoretical yield of Pbl2.
e) Write the percent yield of Pbl2.
The limiting reactant in this reaction is lead nitrate Pb(NO₃)₂. The mass of lead nitrate in this reaction is 331.2 g. The percent yield of PbI₂ is 76.5%.
What is percent yield ?The percent yield of a reaction is the ratio of its actual yield to the theoretical yield multiplied by 100.
The limiting reactant of a reaction is the reactant which is not in sufficient quantity and as soon as it is consumed, the reaction stopes.
As per the given balanced equation, 2 moles of KI reacts with one mole of lead nitrate. Then, 2.8 moles of KI need 1.4 moles of lead nitrate. Hence, Pb(NO₃)₂ is the limiting reactant.
molar mass of Pb(NO₃)₂ = 331.2 g/mol
molar mass of KI = 166 g/mol
mass of 2 moles = 332 g
mass of PbI₂ = 461 g/mol
mass of 0.765 moles = 352.6 g.
molar mass of KNO₃ = 101 g
mass of 1.53 moles = 154 .5 g.
One mole of Pb(NO₃)₂ gives one mole of PbI₂. Hence the theoretical yield is one mole. But the actual yield of the product lead iodide is 0.765 moles.
then percent yield = 0.765/1 × 100 = 76.5 %.
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Examine the image and assess the relationship of the atoms shown by
Answer:
The rearrangement of atoms is a chemical change.
Explanation:
Sodium (Na) + Chlorine (CI)=
Answer:
NaCl
Explanation:
If Geraldine is told that the molar mass of the compound she was working with in the previous problem is approximately 60 grams per mole, what is the molecular formula of the compound?
Molecular formula mass = empirical formula mass x n
We know that the molecular formula mass is approximately 60 g/mol, so that we can set up an equation:
60 g/mol = 30 g/mol x n
Solving for "n," we get:
n = 2
This means that the molecular formula of the compound is twice the empirical formula of C2H4O2. Therefore, the compound is acetic acid.
What is acetic acid?Acetic acid is one of the simplest carboxylic acids and is an important chemical reagent and industrial chemical. It is widely used in the production of vinyl acetate monomer (VAM), which is used in manufacturing polymers, adhesives, and coatings. It is also used as a solvent and preservative in food and other products.
What is the main component of vinegar?Ethanoic acid is the main component of vinegar, typically a 5% solution of acetic acid in water. In addition to its industrial and commercial uses, acetic acid also has some medical applications, such as in treating ear infections and as a topical antimicrobial agent.
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a 4.60Lcontainer with a molecule piston has a pressure of 845 mmHg what is the pressure when the container is expanded to 10.6L
Therefore, the pressure when the container is expanded to 10.6 L is 367 mmHg.
What is molarity?Molarity, also known as molar concentration, is a unit of measurement used to express the concentration of a solution. It is defined as the number of moles of a solute dissolved in one liter of solution. The unit of molarity is moles per liter (mol/L), also written as M. For example, a solution with a molarity of 0.1 M contains 0.1 moles of solute per liter of solution. Molarity is commonly used in chemistry and biochemistry to describe the concentration of solutions in experiments and industrial processes.
Here,
We can use the combined gas law to solve for the new pressure:
P1V1/T1 = P2V2/T2
We are given:
P1 = 845 mmHg
V1 = 4.60 L
V2 = 10.6 L
Assuming that the temperature is constant, we can simplify the equation to:
P1V1 = P2V2
Solving for P2, we get:
P2 = P1V1/V2
Plugging in the values, we get:
P2 = 845 mmHg × 4.60 L / 10.6 L
P2 = 367 mmHg
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Scientists are studying several genes. Breeding experiments show that 10 percent of the offspring are recombinants for genes A and B. Crosses with genes C and D produce 15 percent recombinants.
What can be said about the two pairs of genes?
Genes A and B are on the same chromosome; genes C and D are located on different chromosomes.
Genes A and B are on the same chromosome; genes C and D are located on different chromosomes.
The distance between genes A and B is greater than the distance between genes C and D.
The distance between genes A and B is greater than the distance between genes C and D.
Genes A and B are on different chromosomes; genes C and D are located on the same chromosome.
Genes A and B are on different chromosomes; genes C and D are located on the same chromosome.
The distance between genes A and B is less than the distance between genes C and D.
Between genes A and B, there is a wider separation or distance than between genes C and D.
What proportion of recombinants do we use to assess if two genes are related?The chance of recombination is 50% when the genes are distant from one another or on different chromosomes. In this instance, the two loci's allele inheritance is independent. Recombination frequency less than 50% indicates a connection between the two loci.
Which applications of genetic mapping are crucial?A illness that is passed from parent to kid may be linked to one or more genes with certainty thanks to genetic mapping. Moreover, mapping can reveal which chromosome a gene is located on and where exactly it is located on that chromosome.
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Answer the following:
The balanced equation for the following chemical reactions are:
a. 2Hg(NO₃)₂(s) → 2Hg(l) + 2NO₂(g) + O₂(g)
b. Ca₃(PO₄)₂(aq) + 2H₃PO₄(aq) → 3Ca(H₂PO₄)₂(aq)
c. 3NaOH(aq) + FeCl₃(aq) → Fe(OH)₃(s) + 3NaCl(aq)
What makes a reaction balanced?A chemical reaction is balanced when the number of atoms of each element in the reactants equals the number of atoms of that element in the products. In other words, the law of conservation of mass is satisfied.
This means that no atoms are created or destroyed during a chemical reaction, they are only rearranged to form different molecules. To balance a chemical equation, coefficients are added in front of the chemical formulas to adjust the number of atoms of each element.
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How many molecules are in .5 moles of PCI3?
3.011 × 10²³ molecules are in 0.5 moles of PCl₃.
What is Mole?
The mole is an amount unit similar to familiar units like pair, dozen, gross, etc. It provides a specific measure of the number of atoms or molecules in a bulk sample of matter.
A mole is defined as the amount of substance containing the same number of atoms, molecules, ions, etc. as the number of atoms in a sample of pure 12C weighing exactly 12 g.
Given,
Moles of PCl₃ = 0.5 moles
We know that 1 mole = 6.023 × 10²³ molecules
Thus, 0.5 moles will have 6.023 × 10²³ × 0.5 molecules.
= 3.011 × 10²³ molecules
Therefore, 3.011 × 10²³ molecules are in 0.5 moles of PCl₃.
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Consider the specific heats
H2O(s) = 2.09 J/g ·
◦C,
H2O (ℓ) = 4.18 J/g ·
◦C, and
H2O(g) = 2.03 J/g ·
◦C.
The heat of fusion for water is 334 J/g and
its heat of vaporization is 2260 J/g. Calculate
the amount of heat required to convert 31 g
of ice at −21◦C completely to liquid water at
42◦C.
Answer in units of kJ.
Answer:
First, we need to calculate the amount of heat required to raise the temperature of ice from -21°C to 0°C:
q1 = m × C_solid × ΔT = 31 g × 2.09 J/g·°C × (0°C - (-21°C)) = 1341.09 J
Next, we need to calculate the amount of heat required to melt the ice at 0°C:
q2 = m × ΔH_fusion = 31 g × 334 J/g = 10354 J
Then, we need to calculate the amount of heat required to raise the temperature of the liquid water from 0°C to 42°C:
q3 = m × C_liquid × ΔT = 31 g × 4.18 J/g·°C × (42°C - 0°C) = 5201.56 J
Finally, we need to calculate the amount of heat required to vaporize the liquid water at 100°C:
q4 = m × ΔH_vaporization = 31 g × 2260 J/g = 70060 J
The total amount of heat required is the sum of all four steps:
q_total = q1 + q2 + q3 + q4 = 86857.65 J
Converting to kJ:
q_total = 86.85765 kJ
Therefore, the amount of heat required to convert 31 g of ice at -21°C to liquid water at 42°C is approximately 86.9 kJ.
Explanation:
Other MC question needed to be answered. Please.
The initial concentration is 1.8 * 10^36 M.
The stoichiometry is 2A ⇒ B
The rate of disappearance of H2O2 is 4 mol/min
It decreases adhesion and increases cohesion
Not predictable since it can be at any level.
What is the order of a decomposition reaction?In a decomposition reaction, a single reactant breaks down into two or more products. The order of a decomposition reaction depends on the rate at which the reaction occurs with respect to the concentration of the reactant.
Given that;
ln[A] = ln[A]o - kt
ln(0.0015) = ln[A]o - (0.025 * 60 * 60)
-6.5 = ln[A]o - 90
-6.5 + 90 = ln[A]o
83.5 = ln[A]o
[A]o = e^83.5
[A]o = 1.8 * 10^36 M
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Which of the following is used to keep track of the heat flow inside a calorimeter?
Any time a liquid loses or receives energy, the temperature of the liquid changes.To calculate the amount pf energy change, the calorimeter monitors the weight of the fluid as well as the temperature change.
In a calorimeter, what thermometer is used?The 6000 series calorimeters' control systems serve as the foundation for the 6772 Calorimetric Thermometer, a high precision temperatures measuring device.It is a crucial component of both the 6755 Solution Calorimeter and the 6725 Semi-micro Calorimeter.
What equipment is utilized in calorimetry?The calorimeter is a piece of equipment used in calorimetry, a procedure for calculating heat capacity and measuring the temperature of chemical processes or other physical changes.Among the most popular kinds are differential scanning operating, thermal micro cathode rays, titration calorimeters, and accelerated rate calorimeters.
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