Answer: 8.824 g/cm³
Explanation: To find the density of the piece of metal, we must divide the mass by the volume of the metal. To find the metal's volume, we subtract the initial volume from the total volume.
Volume of metal = Final Volume - Initial Volume
Volume of metal = 9.90 - 6.45
Volume of metal = 3.45 cm³
Now, we can implement the metal's volume into the division process to find the density:
Density = 30.4571 ÷ 3.45
Density = 8.824 g/cm³
Hence, the density of the piece of metal is 8.824 g/cm³.
Given the unbalanced equation: Al(s) + O2 (g) → Al2O3 (s) How many moles of Al are needed to react completely with 52.00 g O2?
1.083 moles of Al are needed to react completely with 52.00 g O2.
To begin, we can use the molar mass of O2 to convert 52.00 g to moles.
52.00 g O2 / (32.00 g/mol) = 1.625 mol O2
The balanced equation shows that two moles of aluminum react with three moles of oxygen to form two moles of aluminum oxide. Therefore, we need to know how many moles of aluminum are required to react with 1.625 mol of oxygen.
Using the stoichiometric ratio from the balanced equation:
2 mol Al : 3 mol O2
We can set up a proportion to determine the number of moles of Al needed:
2 mol Al / 3 mol O2 = x mol Al / 1.625 mol O2
Solving for x:
x = (2 mol Al / 3 mol O2) x (1.625 mol O2) = 1.083 mol Al
Therefore, 1.083 moles of aluminum must react completely with 52.00 g of O2.
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the screenshot is attached. it has it all there
The equation shows that for every two atoms of sodium (Na) in the reactants. Therefore,Na atom is the same, while N atom is two and N atom in the products is three.
What is atom ?Atom is a free and open-source text and source code editor created by GitHub. It is available for macOS, Linux, and Microsoft Windows. It is a desktop app built using web technologies such as JavaScript, HTML, and CSS. Atom provides features such as syntax highlighting, autocompletion, project management, a built-in package manager, and embedded Git control. It also offers integration with a variety of other tools and services, such as GitHub.
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Geothermal power plants send water through pipes deep underground where it is hot. This causes the temperature of the water to increase.
What happens to the molecules of the water when the temperature of the water increases?
a. The energy of the water molecules decreases.
b. The energy of the water molecules increases.
c. The cold energy of the water molecules decreases.
d. More heat molecules combine with the water molecules.
Answer:
When the temperature of water in a geothermal power plant increases, the energy of the water molecules increases. Therefore, the correct answer is b. The energy of the water molecules increases.
Explanation:
Suppose you heat a metal object with a mass of 33.6 g to 95.8 °C and transfer it to a calorimeter containing 100.0 g of water at 17.4 °C. The water and metal reach a final temperature of 23.8 °C.
The metal has a specific heat of about 0.39 J/(g°C).
How is specific heat capacity determined when energy is transferred?The equation q = mcT, where m is the sample mass, c is the specific heat, and T is the temperature change and is the linear expansion coefficient, which changes somewhat with temperature, can be used to determine how much heat a sample gains or loses.
q = m * c * ΔT
Where q is the amount of heat that is transmitted, m is the metal's mass, c is its specific heat, and T is the temperature change. Knowing that the heat transferred to metal and water is equal and in the opposing directions, we can:
q metal = -q water
We are also aware of the masses and variations in temperature of the metal and water:
m water = 100.0 g
ΔT water = 23.8 °C - 17.4 °C = 6.4 °C
m metal = 33.6 g
ΔT metal = 23.8 °C - 95.8 °C = -72.0 °C (negative because the metal is losing heat)
Using these values as substitutes and solving for c metal, we arrive at:
q metal = -q water
c metal = -100.0 g * 4.18 J/(g·°C) * 6.4 °C / (33.6 g * (-72.0 °C))
c metal ≈ 0.39 J/(g·°C)
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Question:
Suppose you heat a metal object with a mass of 33.6 g to 95.8 °C and transfer it to a calorimeter containing 100.0 g of water at
17.4 °C. The water and metal reach a final temperature of 23.8 °C.
What is the specific heat of the metal?
з сасоз+2fepo4 → саз(po4)2+Fe2(CO3)3
How many grams of calcium phosphate
are produced from 26 grams of (Iron Ill)
phosphate and 12.1 grams of calcium
carbonate. what is the excess reactant
Answer:
A. Excess reactant is FePO4
B. mass of Ca3(PO4)2 produced is 12.41g
Explanation:
A. FePO4 has molar mass of 150.82 g/mol => 26/150.82 = 0.17 mole
CaCO3 has molar mass of 100.09 g/mol => 12.1/100.09 = 0.12 mole
3CaCO3 + 2FePO4 => Ca3(PO4)2 + Fe2(CO3)3
2 moles of FePO4 will react with 3 moles of CaCO3
Therefore,
0.17 mole of FePO4 will react with 0.17 x (3/2) = 0.255 mole of CaCO3
and
0.12 mole of CaCO3 will react with 0.12 (2/3) = 0.08 mole of FePO4
Therefore the excess reactant will be FePO4
B. 3 moles of CaCO3 will produce 1 mole of Ca3(PO4)2
so 0.12 mole of CaCO3 will produce 0.12 x (1/3) = 0.04 mole
Ca3(PO4)2 has molar mass of 310.18 g/mol
=> mass of Ca3(PO4)2 produced is 0.04 x 310.18 = 12.41g
using the following data
Enthaply of sublimation of Ca= +178•2 KJ mol‐¹
Enthapy of dissociation of Cl₂= +243.4 KJ mol-¹ Enthapy of formation of cacl₂ =-795.8 kJ mol-¹ First and second lonzition energies for ca are +590 KJ mo1-¹and +1145 KJ mol-¹ respectively. The electron affinity of C1: -348.7 KJ moi-1 Determine the lattice energy of cacl₂
Answer:
To determine the lattice energy of CaCl₂, we can use the Born-Haber cycle, which relates the lattice energy to other thermodynamic quantities such as the enthalpy of sublimation, dissociation, and formation.
The Born-Haber cycle for CaCl₂ is as follows:
Ca(s) → Ca(g) ΔHsub
1/2 Cl₂(g) → Cl(g) ΔHdiss
Ca(g) + Cl(g) → CaCl(g) ΔHf
CaCl(g) → CaCl₂(s) ΔHlattice
We can use the following equation to calculate the lattice energy:
ΔHlattice = ΔHsub + ΔHdiss + ΔHf - IE1 - IE2 - EA
where IE1 and IE2 are the first and second ionization energies of Ca, and EA is the electron affinity of Cl.
Substituting the given values, we get:
ΔHlattice = (+178.2) + (+243.4) + (-795.8) - (+590) - (+1145) - (-348.7)
ΔHlattice = -57.1 kJ/mol
Therefore, the lattice energy of CaCl₂ is -57.1 kJ/mol.
C3H8 + 3O2 → 3CO2 + 4H2
How many moles of oxygen are necessary to react completely with 6.3 moles of propane (C3H8)?
Answer:
From the balanced chemical equation, we see that 1 mole of propane reacts with 3 moles of oxygen. Therefore, to react completely with 6.3 moles of propane, we need:
3/1 x 6.3 = 18.9 moles of oxygen.
So, 18.9 moles of oxygen are necessary to react completely with 6.3 moles of propane.
Explanation:
What properties do you think a material should have to collect water from fog?
What criteria and constraints might be important when designing a material like this?
Answer:
Fog collection is the harvesting of water from fog using large pieces of vertical mesh netting to induce the fog-droplets to flow down towards a trough below. A material that can collect water from fog should be able to induce condensation of atmospheric water vapor from the air into droplets of liquid water. Some designs use parallel wires while others use tiny structures inspired by cactus spines.
When designing a material for collecting water from fog, some important criteria and constraints might include its ability to collect moisture efficiently under different conditions (such as cool fog or sunny conditions), its durability and cost-effectiveness. Additionally, bioinspired designs have been shown to be effective for collecting water from fog.
What element forms an ion with a +2 charge that has an electronic configuration of
12 222632364231046 (or [Kr])?
Answer: The electronic configuration of [Kr] corresponds to the 36 electrons in the closed inner shell of a noble gas. Therefore, the ion with a +2 charge must have lost two electrons from its outermost shell.
To determine the element, we need to find which element has 2 valence electrons and can form a cation with a +2 charge. The element in question is located in Group 2 of the periodic table, which includes beryllium (Be), magnesium (Mg), calcium (Ca), strontium (Sr), barium (Ba), and radium (Ra).
Out of these elements, only magnesium (Mg) has 2 valence electrons and can form a cation with a +2 charge. Therefore, the element in question is magnesium, and the ion with a +2 charge is Mg2+.
Your welcome (:
How many grams of nitrogen, N2, would be required to react with 6.25 moles hydrogen, H2?
Answer:
56.88g N2
Explanation:
1 mole of N2 will react to 3 moles of H2
so 6.25 moles of H2 will react to 6.25/3 = 2.03 moles of N2
molar mass of N2 = 2(14.01) = 28.02 g/mol
mass of N2 = 2.03 x 28.02 = 56.88 g
Balance the equations by inserting coefficients as needed.
equation 1:
Li+CO2+H2O⟶LiHCO3+H2
equation 2:
C6H12O2+O2⟶CO2+H2O
The balanced equation for Equation 1 is 2Li + CO2 + H2O ⟶ Li2HCO3 + H2 and for Equation 2 is C6H12O2 + 9O2 ⟶ 6CO2 + 6H2O.
What is C6H12O2?C6H12O2 is the chemical formula for a molecule called hexanoic acid. Hexanoic acid is a carboxylic acid with six carbon atoms in its chain and has a strong odour resembling sweaty feet or cheese. It is a fatty acid that is commonly found in dairy products.
Why is it necessary to balance the equation?It is necessary to balance a chemical equation to ensure that the law of conservation of mass is obeyed. This law states that matter cannot be created or destroyed in a chemical reaction but can only be rearranged into different combinations. Therefore, the number of atoms of each element present in the reactants must equal the number of bits of the same component of the products.
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Provide the balanced chemical equation for the complete combustion of propan-2-ol
The balanced chemical equation for the complete combustion of propan-2-ol (also known as isopropanol) is: C₃H₈O + 5O₂ → 3CO₂ + 4H₂O.
What is complete combustion?Complete combustion is a chemical reaction between a fuel and an oxidant that produces only carbon dioxide and water vapor as the products. In other words, in complete combustion, all of the fuel is burned completely, producing the maximum amount of heat and light energy. The general equation for complete combustion of a hydrocarbon fuel is: hydrocarbon + oxygen → carbon dioxide + water. In this reaction, methane reacts with oxygen to produce carbon dioxide and water vapor. This reaction is exothermic, meaning it releases heat energy, and it is used in many applications such as heating and energy production. Complete combustion is different from incomplete combustion, where the fuel is not burned completely and other products such as carbon monoxide (CO) and unburned hydrocarbons are produced. Incomplete combustion is generally less efficient and can produce harmful pollutants.
Here,
This equation shows that one molecule of propan-2-ol reacts with five molecules of oxygen gas to produce three molecules of carbon dioxide and four molecules of water vapor. This reaction releases energy in the form of heat and light and is a common way of producing energy from organic fuels. The balanced equation shows that the number of atoms of each element is the same on both sides of the equation, which is a requirement for a balanced chemical equation.
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How many moles of carbon dioxide will be produced if 4 moles of ethane are burned in the presence of oxygen? PLEASE SHOW WORK!!
2 C₂H6+5 02 --> 4 CO2 + 6 H₂O
a. 4 moles
b. 6 moles
c. 8 moles
d. 12 moles
Answer:
Explanation:
This requires using the mol/mol ratio of the balanced equation to solve.
Start with the given number of moles, cancel those and then multiply by the moles of CO2.
4 mol C2H6 x 4 mol CO2 = 8 moles of CO2 produced
2 mol C2H6
what is a gas at room temperature.It reacts violently with other element without heating
Answer:
The gas that is at room temperature reacts violently with other elements without heating is ammonium chloride ammonia, mercury or sodium. Basically, the electronegative element will be adopting -1 oxidation state.
Explanation:
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Write the molecular formula for a compound with the possible elements C, H, N and O that exhibits a molecular ion at M+ = 122.0374.
The molecular formula of the compound with a molecular ion at M+ = 122.0374 could be C7H10O3N.
How is a molecular formula composed?A molecular formula is the chemical representation of a molecular compound that lists the types and quantities of atoms that make up each molecule.
What is an example of a molecular formula?The chemical formula for a molecular compound molecular formula lists the variety of atoms that make up the molecule. A subscript under oxygen in CO2, for instance, indicates that there are two oxygen atoms present, but a subscript under carbon indicates that there is just one carbon atom present.
How are moles of mass converted?By dividing the mass by the formula mass expressed in g/mol, one can determine the number of moles in a given quantity of substance.
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How many grams of carbon are present if it requires 57.5 kJ of energy to heat a sample
from 20.0 to 25.0°C?
Answer:
Explanation:
The amount of heat (q) required to raise the temperature of a substance is given by:
q = mcΔT
where m is the mass of the substance, c is the specific heat capacity of the substance, and ΔT is the change in temperature.
To find the mass of carbon present, we need to rearrange the formula as follows:
m = q / (cΔT)
We are given the following information:
q = 57.5 kJ (the amount of heat required)
ΔT = 25.0°C - 20.0°C = 5.0°C (the change in temperature)
The specific heat capacity of carbon is approximately 0.71 J/g°C.
We need to convert the amount of heat from kJ to J:
q = 57.5 kJ * 1000 J/kJ = 57500 J
Now we can substitute the values into the formula and solve for m:
m = q / (cΔT) = 57500 J / (0.71 J/g°C * 5.0°C) ≈ 1620 g
Therefore, approximately 1620 grams of carbon are present.
Order from most to least acidic...
How much heat will be released when 8.21 g of sulfur reacts with excess O, according to the following equation?
Answer:
How much heat will be released when. 8.21 g of sulfur reacts with excess O1 according to the following equation? 25 +302 → 2SO3. AH° = -791.4 kJ.
Explanation:
I HOPE THIS HELPED IF NOT THEN LET ME KNOW
76.0 kJ, According to the provided reaction and stoichiometry, 76.0 kJ of heat will be emitted when 8.21 g of sulphur interacts with too much oxygen to create sulphur dioxide.
We must first determine how many moles of sulphur are present:
S mass divided by S's molar mass equals moles of S.
8.21 g/32.06 g/mol = 0.256 mol are the moles of sulphur.
We may infer that all of the sulphur will react because there is an excess of oxygen, hence the reaction will result in:
1 mol SO2 divided by 0.256 mol S results in 0.256 mol SO2.
q = nΔH
where n is the number of moles of the product (SO2), q is the quantity of heat released, and H is the reaction's enthalpy change.
q = (0.128 mol)(-296.8 kJ/mol) = -76.0 kJ
HELP ME PLEASE. I REALLY WANT TO KNOW CHEMISTRY BUT I NEED HELP. SOME KIND SOUL PLEASE.
The reactant that is consumed first in a chemical reaction, also known as the limiting reactant (or limiting reagent), limits the amount of product that can be produced. As a result ,O2 is the limiting reactant.
What is limiting reactant ?
When a reactant is totally consumed during a chemical reaction, the amount of product that can be created is constrained.
n(Mg) = 2.8 g / 24.31 g/mol, n(Mg) = 0.1153 mol, and n(Mg) = m/M
Then, let's determine how many moles of oxygen there are:
n(O2) = 4.5 L * 1 atm / (0.08206/mol * 273.15 K) n(O2) = V(STP) * P(STP) / R * T(STP)
n(O2) = 0.1788 mol
The balanced equation states that the stoichiometric ratio of magnesium to oxygen is 2:1. As a result, 1 mole of O2 and 2 moles of Mg react.
To react with all of the O2, Mg must be present in the following amounts: n(Mg) = n(O2) / 2 n(Mg) = 0.1788 mol / 2 n(Mg) = 0.0894 mol
Since we have only 0.1153 mol of Mg, which is greater than the required 0.0894 mol, Mg is not the limiting reactant. O2 is the limiting reactant since we have only 0.1788 mol of it, which is less than the required 0.1788 mol.
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If a new element was discovered with an atomic number of 119, how many energy levels (shells) would you expect it to have according to the trends on the periodic table? How many valence electrons?
"If a new element with an atomic number of 119 were to be discovered, it would be located in the seventh row of the periodic table, in the period or row that contains elements with atomic numbers 113 to 118.
According to the trends on the periodic table, the seventh row of the periodic table should have 7 energy levels or shells. This is because the number of shells in an atom is equal to the period or row number of the element in the periodic table.
For the valence electrons, we need to look at the group or column that the element would belong to. Since it is a new element, it is not yet known what its chemical properties are or what group it would belong to. However, based on the trends in the periodic table, elements in the same group have the same number of valence electrons.
If we assume that this new element belongs to group 1, which is the alkali metal group, then it would have 1 valence electron, like all the other elements in that group. If it belongs to group 18, which is the noble gas group, then it would have 8 valence electrons, with the exception of helium which has only 2 valence electrons.
It is important to note that the properties of this hypothetical new element are not yet known and the number of energy levels and valence electrons may differ from what is predicted based on periodic trends." (ChatGPT, 2023)
4Na + O2 → 2Na2O
How many moles of sodium oxide, Na2O, are produced when oxygen gas and 17.0 moles of sodium react?
If 17 mol of sodium (Na) react in this reaction, 8.5 mol should be the end product i.e., sodium oxide (Na2O) according to the stoichiometry.
Why do we employ stoichiometry in chemistry?Stoichiometry is a technique used by scientists to quantify and control the quantity of reactants and products in chemical reactions on a big scale. Without it, reactions might not be complete, wasting costly ingredients and producing dangerous byproducts.
What practical applications does stoichiometry have?With so many applications in everyday life, stoichiometry is regarded as the core of chemistry. Stoichiometric calculations are used to determine the chemical makeup of every chemical product we use on a regular basis, including shampoos, cleansers, fragrances, soaps, and fertilizers. Stoichiometry is necessary for the chemical industry to function.
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Give the systematic name for each of the following organic molecules and enter it in the space provided. Be sure to include appropriate punctuation.
Systematic name : 5-chloro-2-pentanol (or 5-chloropentan-2-ol)
Systematic name : 1,2-difluoro-3-heptanol (or 1,2-difluoroheptan-3-ol).
What is pentanol used for?The active site of numerous reactions is the hydroxyl group (OH). Pentyl butyrate, which has an apricot-like aroma, is the ester that results from the reaction of 1-pentanol and butyric acid. Amyl acetate, also known as pentyl acetate, is the ester that is created when 1-pentanol and acetic acid are combined.
A research evaluating the efficacy of diesel fuel blends with different amounts of pentanol as an additive was done in 2014. Higher pentanol concentrations resulted in higher gaseous emissions at the expense of lower particulate emissions.
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Please I need answers now
the answer is in the image above
How many grams of hydrogen gas would be needed to form 8.0 grams of water?
Here is your balanced equation: 2H2 + O2 → 2H2O
Answer: 72g
Explanation:
10.2g potassium chloride is used to make an aqueous stock solution with a total volume of 250 mL. How much water is needed to dilute the stock solution to 0.25 M with a total volume of 547 mL? (the answer is 200.92 but i want to know how to get there)
The amount of water is needed to dilute the stock solution to 0.25 M with a total volume of 547 mL is 548 mL
Amount of water calculation.
To solve this problem, we can use the formula:
M1V1 = M2V2
where M1 and V1 are the initial concentration and volume, and M2 and V2 are the final concentration and volume.
Given:
M1 = initial concentration = ?
V1 = initial volume = 250 mL
M2 = final concentration = 0.25 M
V2 = final volume = 547 mL
Mass of KCl used = 10.2 g
First, we need to calculate the initial concentration:
M1 = (moles of solute) / (volume of solution in liters)
The molar mass of KCl is 74.55 g/mol. Therefore, the number of moles of KCl used is:
moles of KCl = (mass of KCl) / (molar mass of KCl)
moles of KCl = 10.2 g / 74.55 g/mol
moles of KCl = 0.137 mol
The volume of the initial solution in liters is:
V1 = 250 mL = 0.25 L
Using the formula above, we can calculate the initial concentration:
M1 = (moles of KCl) / (volume of solution in liters)
M1 = 0.137 mol / 0.25 L
M1 = 0.548 M
Now, we can use the formula to calculate the volume of water needed to dilute the solution:
M1V1 = M2V2
(0.548 M)(250 mL) = (0.25 M)(547 mL + V_water)
137 mL = 0.25 M V_water
V_water = 548 mL
Therefore, 548 mL of water is needed to dilute the stock solution to a final volume of 547 mL with a concentration of 0.25 M using M1V1 = M2V2.
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determine the mole fraction of each component in a solution in which 3.57 g of sodium chloride (NaCI) is dissolved in 25.0 g of water. Show the steps of the calculation.
A. The mole fraction of sodium chloride (NaCI) is 0.042
B. The mole fraction of water (H₂O) is 0.958
How do i determine the mole fraction of each component?We'll begin by obtaining the mole of each component in the solution. This is shown below:
For sodium chloride (NaCI)
Mass of sodium chloride (NaCI) = 3.57 gMolar mass of sodium chloride (NaCI) = 58.5 g/mol Mole of sodium chloride (NaCI) =?Mole = mass / molar mass
Mole of NaCI = 3.57 / 58.5
Mole of NaCI = 0.061 mole
For water (H₂O)
Mass of water (H₂O) = 25 g Molar mass of water (H₂O) = 18 g/mol Mole of water (H₂O) =?Mole = mass / molar mass
Mole of H₂O = 25 / 18
Mole of H₂O = 1.389 mole
Finally, we shall determine the mole fraction of each component. Details below:
For sodium chloride (NaCI)
Mole of NaCI = 0.061 moleMole of H₂O = 1.389 moleTotal mole = 0.061 + 1.389 = 1.45 moleMole fraction of NaCI =?Mole fraction of NaCI = Mole of NaCI / total mole
Mole fraction of NaCI = 0.061 / 1.45
Mole fraction of NaCI = 0.042
For water (H₂O)
Mole fraction of NaCI = 0.042Mole fraction of H₂O =?Mole fraction of H₂O = 1 - Mole fraction of NaCI
Mole fraction of H₂O = 1 - 0.042
Mole fraction of H₂O = 0.958
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Convert a flow rate of 3.15 x 10^-5 kL.hr-1 to µL.s-1.
According to the given statement, A flow rate of 3.15 x 10^-5 kL.hr⁻¹ is equivalent to 8.75 µL.s⁻¹. To convert kL.hr⁻¹ to µL.s⁻¹, we can use the steps: (Given below)
What is flow rate and how is it measured?liquids flow is the amount of liquids that moves in a given amount of time. When measuring the flow of water supplies, different units are frequently used, including cubic feet per second (cfs), cubic meters per second (cms), gallons per minute (gpm), and others.
⇒ Convert kiloliters (kL) to liters (L) by multiplying by 1000.
⇒ Convert hours (hr) to seconds (s) by multiplying by 3600.
⇒ Convert liters per hour (L.hr⁻¹) to microliters per second (µL.s⁻¹) by dividing by 3.6.
Using these steps, we get:
3.15 x 10^-5 kL.hr⁻¹ = 3.15 x 10^-5 x 1000 L.hr⁻¹ = 0.0315 L.hr⁻¹
0.0315 L.hr⁻¹ = 0.0315 / 3600 L.s⁻¹ = 8.75 x 10^-6 L.s⁻¹
8.75 x 10^-6 L.s⁻¹ = 8.75 x 10^-6 x 10^6 µL.s⁻¹ = 8.75 µL.s⁻¹
Therefore, a flow rate of 3.15 x 10^-5 kL.hr⁻¹ is equivalent to 8.75 µL.s⁻¹.
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What is the mass in grams of 15 moles of Fe2O3.
Explanation pls and thank you
The mass of 15 moles of Fe2O3 can be calculated by multiplying the molar mass of Fe2O3 (159.69 g/mol) by 15 moles. The total mass in grams is 2395.35 g.
Calculation of molar mass of a substanceThe molar mass of a substance is the mass of one mole of that substance, which is equal to the sum of the atomic masses of all the atoms in the molecule. In the case of Fe2O3, the molar mass is equal to the sum of the atomic masses of iron (55.845 g/mol) and oxygen (15.999 g/mol) multiplied by two oxygen atoms and three iron atoms, which is 159.69 g/mol.
To calculate the mass in grams of 15 moles of Fe2O3, we simply multiply 159.69 g/mol by 15 moles, which yields a total mass of 2395.35 g.
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The Carbon Cycle Activity Worksheet
Instructions: Answer the questions below using the reference images. You will submit your completed worksheet.
Part One
Using the diagram above, match the description to the corresponding location in the carbon cycle model. Provide the letter only.
1. Carbon dioxide is converted to sugar used for food.
2. Carbon trapped in fossil fuels is converted to carbon dioxide.
3. Organic carbon is converted to fossil fuels.
4. Carbon dioxide is converted to carbonates.
5. Sugar is broken down and converted to carbon dioxide.
Carbon dioxide is converted to sugar in the Photosynthesis process. Carbon trappeds is converted to carbon dioxide in the Combustion proces.Organic carbon is converted to fossil fuels.
What is Organic ?Organic refers to products and processes that are grown and made without the use of synthetic chemicals, fertilizers, or genetically modified organisms. These products are grown in a way that preserves the environment, using natural fertilizers and methods that promote soil health and biodiversity. Organic food is healthier for us and for the planet, as it is free of chemicals, pesticides, and other pollutants. Organic farming often uses sustainable practices, such as crop rotation, cover crops, and integrated pest management, that reduce environmental impact.
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Part A
Which claim is supported by evidence in the passage?
Lewis's father was strict.
Lewis's family's troupe was successful.
Lewis was too young to remember his lines.
Lewis did not want to perform because patrons threw eggs.
Hamilton explained the choice on the On Purpose show, admitting that the pair's work connection from karting to F1 had placed a burden on an otherwise strong friendship.
Why did Lewis have a falling out with his father?Lewis Hamilton now has a close connection with his father Anthony, but this was not always the case during his Formula One tenure. Anthony had a significant influence on his son's career, notably working multiple jobs to finance Hamilton's early foray into racing until he was signed by McLaren at the age of 11.
However, his earnings outside of Formula One rose from $8 million in 2021 to $12 million in 2022. Hamilton was the highest-paid Formula One racer. He has profitable agreements with companies such as Monster energy drinks.
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