The formula for the ionic compound containing iron (III) ions and iodide ions is FeI3. The correct answer is option D.
This can be determined by understanding the valency of both iron and iodide ions. Iron has a valency of +3, which means that it can form ionic bonds with three negatively charged ions. Iodide ions, on the other hand, have a valency of -1, which means that they can bond with positively charged ions with a valency of +1.
To form a stable compound, three iodide ions are needed to balance the charge of one iron (III) ion, which has a charge of +3. Therefore, the formula for the ionic compound is FeI3, which means that there are three iodide ions for every one iron (III) ion.
It is important to note that the subscript after each element represents the number of atoms of that element in the compound. In this case, there is one iron (III) ion and three iodide ions, which is why the formula is FeI3. Knowing the valencies of the elements involved can help in determining the correct formula for an ionic compound.
Therefore, option D is correct.
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To ease the installation of impeller wear rings, they can be:
a.) Lubricated with a light oil
b.) Greased with lithium
c.) Heated
d.) Cooled
To ease the installation of impeller wear rings, they can be heated. The correct answer is option c.
Heating the wear rings causes them to expand slightly, allowing for a more straightforward installation process onto the impeller. The expansion of the heated wear ring ensures a secure fit once it cools and contracts back to its original size. This technique is commonly used for interference fits in various mechanical applications.
While lubricating with light oil or greasing with lithium may provide some benefit during the installation process, it does not offer the same level of ease and precision as heating the wear rings. Cooling, on the other hand, would have the opposite effect, causing the wear rings to contract and making the installation process more challenging.
Therefore, option c is correct.
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Select all the statements that correctly describe trends in atomic radii for ions.A. A cation is smaller than its neutral atom because the protons draw the remaining electrons closer to the nucleus.B. For any series with the same number of electrons (isoelectronic series), as the number of protons increases, the ion size increases.C. An anion is larger than its neutral atom because the protons cannot hold the increased number of electrons as close to the nucleus.
A and C are the correct statements that describe trends in atomic radii for ions.
A cation, which is a positively charged ion, is smaller than its neutral atom because the loss of electrons reduces the electron-electron repulsion, making the remaining electrons closer to the nucleus. On the other hand, an anion, which is a negatively charged ion, is larger than its neutral atom because the increase in electrons leads to greater electron-electron repulsion, which pushes the electrons further away from the nucleus.
Statement B is incorrect because as the number of protons increases, the ion size decreases in an isoelectronic series, as there is a greater positive charge holding the same number of electrons closer to the nucleus.
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An exothermic reaction causes the surroundings to Group of answer choices become acidic expand. warm up. release CO2. decrease its temperature.
An exothermic reaction causes the surroundings to warm up.
It is a chemical reaction that releases heat, making the temperature of the surroundings increase. However, it does not necessarily cause the surroundings to become acidic or release CO2. The products of the reaction may vary depending on the reactants involved. Sometimes, an exothermic reaction may cause the substances involved to expand due to the increase in temperature. But again, this depends on the specific reaction and its conditions.
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Ammonium sulfate, (NH4)2SO4, is used in fertilizer to supply nitrogen to the soil. What is the total number of atoms in the chemical formula? A) 13 B) 14 C) 15 D) 20
There are a total of 15 atoms in the chemical formula of ammonium sulfate, (NH4)2SO4. So, the correct answer is C) 15.
To find the total number of atoms in the chemical formula of ammonium sulfate, (NH₄)₂SO₄, we need to count each type of atom present in the formula.
1. There are 2 nitrogen (N) atoms in the two ammonium ions (NH₄).
2. There are 8 hydrogen (H) atoms in the two ammonium ions (2 x 4 = 8).
3. There is 1 sulfur (S) atom in the sulfate ion (SO₄).
4. There are 4 oxygen (O) atoms in the sulfate ion (SO₄).
Now, let's add up the total number of atoms: 2 (N) + 8 (H) + 1 (S) + 4 (O) = 15 atoms
So, C is the correct option.
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29. A static member function may be called __________ any instances of its class are defined.
A static member function may be called without creating an instance of its class.
A static member function may be called even before any instances of its class are defined. This is because static members are associated with the class itself, rather than individual instances, allowing the function to be accessed without creating an instance of the class.When a data member is declared as static , only one copy of the data is maintained for all objects of the class. Static data members are not part of objects of a given class type.
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A static member function may be called without creating an instance of its class.
A static member function is a member function of a class that is associated with the class rather than an instance of the class. This means that a static member function can be called without creating any instances of the class.
It is defined using the static keyword in the class declaration and can access only static data members of the class. Since it is not tied to any particular instance of the class, it can be called using the class name, rather than an object of the class.
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If 0.274 moles of a substance weighs 62.5 g, what is the molar mass of the substance, inunits of g/mol?A) 2.28 × 102 g/mol D) 2.17 × 102 g/molB) 1.71 × 101 g/mol E) 6.02 x 1023 g/molC) 4.38 × 10-3 g/mol
If 0.274 moles of a substance weighs 62.5 g, then the molar mass of the substance is 2.28 × 10² g/mol. Hence, option A is correct.
Generally, molecular mass of an element is defined as the sum of the masses of the elements which are present in the molecule. Molecular mass is basically obtained by multiplying the atomic mass of an element with the number of atoms in the molecule and then adding the masses of all the elements in the molecule.
Mass of substance = 62.5 g
Number of moles of substance = 0.274 moles
From the formula,
Number of moles = Given mass / Molar mass
⇒ Molar mass = Given mass / Number of moles
Substituting the values we get,
Molar mass = 62.5 g / 0.274 g = 2.28 × 10² g/mol
Hence, option A is correct.
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__________ is required to break covalent bonds between atoms.
(double/triple, coordinate covalent bond, energy, bond dissociation energy, resonance structure)
Bond dissociation energy is required to break covalent bonds between atoms. Bond dissociation energy (BDE) is the energy required to break a covalent bond between two atoms in a molecule.
Here are some additional points about bond dissociation energy:
BDE varies depending on the identity of the atoms involved in the bond and the bonding environment.BDE values can be calculated using computational methods, such as density functional theory.The bond dissociation energy of a molecule can influence its reactivity and stability.Chemical reactions can involve the breaking and forming of bonds with different BDEs, which can affect the overall energy change of the reaction.This energy is necessary to overcome the attractive forces between the positively charged nuclei and negatively charged electrons. BDE is typically measured in units of kilojoules per mole (kJ/mol).
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Please answer asap
It's due today
The correct volume of the solid where the inner cylinder is hollow is:508.2in³
What is volume?The space occupied within an object's borders in three dimensions is referred to as its volume. It is sometimes referred to as the object's capacity.
What is cylinder?a cylinder is a three-dimensional solid that holds two parallel bases joined by a curved surface, at a fixed distance. These bases are normally circular in shape (like a circle) and the center of the two bases are joined by a line segment, which is called the axis. The perpendicular distance between the bases is the height, “h” and the distance from the axis to the outer surface is the radius “r” of the cylinder.
according to question,
If we calculate the volume of the outer cylinder, we get:
Volume = π × [tex]r^{2}[/tex] × h = 3.14 × 5^2 × 10 = 785.4 [tex]in^2[/tex]
If we calculate the volume of the inner cylinder, we get:
Volume = π × [tex]r^{2}[/tex] × h = 3.14 × 3^2 × 10 = 282.6 [tex]in^{2}[/tex]
However, the volume of the solid where the inner cylinder is hollow is not the difference between these two volumes. Instead, we need to subtract the volume of the hollow part (the space between the two cylinders), which is the volume of a cylinder with a radius of 3 inches and a height of 10 inches:
Volume = π × r^2 × h = 3.14 × 3^2 × 10 = 282.6 in^3
Therefore, the correct volume of the solid where the inner cylinder is hollow is:
Volume = 785.4 - 282.6 = 502.8 in^3
So, the student's mistake was not taking into account the thickness of the inner cylinder and subtracting the wrong volume.
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In order to determine if two atoms are copper (CU) atoms, what must be the same for each?
the number of valence electrons
the number of protons
the charge of the atom
the size of the atom
In order to determine if two atoms are copper (Cu) atoms, the number of protons will be same for each. Option B is correct.
Copper atoms are an individual particles which make up the element copper (Cu) which is a metal having an atomic number 29 in the periodic table. Each copper atom has 29 protons in its nucleus and an equal number of electrons orbiting around the nucleus in various shells or energy levels.
Copper is known for its thermal conductivity, corrosion resistance, and attractive reddish-orange color. Copper atoms will bond together with other copper atoms or with other elements to form a molecules or compounds with various physical and chemical properties. Copper and its compounds are widely used in electrical wiring, roofing, plumbing, and many other applications.
Hence, B. is the correct option.
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--The given question is incomplete, the complete question is
"In order to determine if two atoms are copper (CU) atoms, what must be the same for each? A) the number of valence electrons B) the number of protons C) the charge of the atom D) the size of the atom."--
9. The equilibrium constant expression for the reaction 2 BrF5(g) Br2(g) + 5 F2(g) is:
A. Kc = [Br2][F2]/[BrF5] D. Kc = [BrF5]2/[Br2][F2]5
B. Kc = [Br2][F2]5/[BrF5]2 E. Kc = 2[BrF5]2/[Br2]x5[F2]5
C. Kc = [Br2][F2]2/[BrF5]5
The equilibrium constant expression for the reaction 2 BrF5(g) Br2(g) + 5 F2(g) is Kc = [BrF5]2/[Br2][F2]5. The correct answer is option D.
This expression shows that the equilibrium constant is equal to the concentration of BrF5 raised to the power of 2, divided by the concentration of Br2 multiplied by the concentration of F2 raised to the power of 5.
The equilibrium constant is a measure of the extent to which the reaction proceeds towards the products at equilibrium, and it is a function of temperature. The larger the equilibrium constant, the more products are present at equilibrium. In this reaction, the concentration of the reactant BrF5 is squared, which means that it has a greater impact on the equilibrium constant than the concentrations of the products Br2 and F2.
Therefore, a decrease in the concentration of BrF5 will cause a decrease in the value of the equilibrium constant, and a shift towards the reactants. Conversely, an increase in the concentration of BrF5 will cause an increase in the value of the equilibrium constant, and a shift towards the products.
Therefore, option D is correct.
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Which is the correct formula for iron(II) phosphate?A) Fe2PO4 B) Fe3(PO4)2 C) Fe2PO3 D) Fe(PO4)2 E) Fe(PO3)2
The correct formula for iron(II) phosphate is Fe2PO4. The correct answer is option A.
This compound consists of two iron(II) ions (Fe2+) and one phosphate ion (PO43-). Iron(II) phosphate is an inorganic compound commonly used in the manufacturing of fertilizers, animal feed, and in the production of iron alloys.
It is important to note that iron(II) and iron(III) are two different oxidation states of iron, and they form different compounds with the same anion. Iron(III) phosphate is represented by the formula FePO4 or FePO4·2H2O, while iron(II) phosphate has the formula Fe2PO4.
It is also important to properly name and write chemical formulas for compounds to accurately represent their composition. In the case of iron(II) phosphate, the Roman numeral (II) is used to indicate the oxidation state of iron, while the subscript numbers represent the number of atoms of each element in the compound.
Therefore, option A is correct.
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An H+ ion is smaller than an H2O molecule, and a glycerol molecule, a three-carbon alcohol, is much larger. Both readily dissolve in H2O. Why do aquaporins fail to transport H+ whereas some can transport glycerol?
While certain aquaporins can transport glycerol because of its bigger size and capacity to form hydrogen bonds, others cannot transport H+ because of its tiny size and charge.
Specialised water channels called aquaporins enable the quick and precise movement of water molecules across cellular membranes. They are very selective and do not let the passage of ions, including H+, due to their small pore sizes. H+ ions cannot pass through an aquaporin channel because they have a positive charge and are smaller than even the smallest width of the channel. Contrarily, some aquaporins are capable of selectively transporting glycerol, a bigger molecule that can establish hydrogen bonds with the aquaporin residues lining the pore.
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When fully opened, which valve will have the highest head loss?
a.) Gate valve
b.) Plug valve
c.) Globe valve
d.) Ball valve
Answer:
Globe valve
[tex]hope \: it \: helps[/tex]
How many carbon atoms are there in 15 lbs of sugar, C12H22O11?A) 4.1 x 1028 C atoms D) 2.6 x 1022 C atomsB) 1.2 x 1026 C atoms E) 3.2 x 1023 C atomsC) 1.4 x 1026 C atoms
To calculate the number of carbon atoms in 15 lbs of sugar, we need to first determine the molar mass of C₁₂H₂₂O₁₁ and the number of moles of C₁₂H₂₂O₁₁ in 15 lbs of the compound.
To determine the number of carbon atoms in 15 lbs of sugar (C₁₂H₂₂O₁₁), we need to first calculate the molar mass of C₁₂H₂₂O₁₁:
Molar mass of C₁₂H₂₂O₁₁ = (12 × 12.01 g/mol) + (22 × 1.01 g/mol) + (11 × 16.00 g/mol) = 342.3 g/mol
Next, we need to calculate the number of moles of C₁₂H₂₂O₁₁ in 15 lbs:
1 lb = 0.4536 kg
15 lbs = 6.804 kg
Number of moles of C₁₂H₂₂O₁₁ = (6.804 kg) / (342.3 g/mol) = 19.88 mol
Finally, we can calculate the number of carbon atoms:
Number of carbon atoms = (12 atoms/mol) × (19.88 mol) = 238.5 ≈ 2.4 × 10^2 carbon atoms
Therefore, the answer is option D) 2.6 x 10^22 C atoms.
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A total of 1.436 F of electricity (1 F=1 mol e−) was required to electrodeposit all of the Zn and Co from a solution of ZnSO4 and CoSO4. The mixture of Zn and Co that was deposited had a mass of 43.57 g. Calculate the masses of ZnSO4 and CoSO4 present in the original solution.
There were approximately 128.94 g of ZnSO4 and 109.34 g of CoSO4 present in the original solution.
What is electroplating?Electroplating is the process of coating a metal object with a thin layer of another metal by means of electrolysis. In an electrolytic cell with a solution of a salt of the metal to be deposited, the item to be plated is made the cathode (negative electrode).
The electroplating of Zn and Co from the solution involves the transfer of electrons from the cathode to the metal ions in the solution, which results in the deposition of the metals on the cathode. The amount of electricity required for this process is proportional to the amount of metal ions present in the solution, which in turn is proportional to the mass of the metals deposited.
Let's first calculate the moles of electrons transferred in the electroplating reaction:
1.436 F × (1 mol e⁻/1 F) = 1.436 mol e⁻
Since the number of electrons transferred is the same for both Zn and Co, the ratio of the moles of Zn and Co deposited should be the same as the ratio of their atomic masses. The atomic masses of Zn and Co are 65.38 g/mol and 58.93 g/mol, respectively, so the ratio of their masses is:
65.38 g/mol ÷ 58.93 g/mol ≈ 1.11
This means that for every 1.11 moles of Zn deposited, 1 mole of Co is deposited.
Let's assume that x moles of ZnSO4 and y moles of CoSO4 were present in the original solution. Then we can set up the following equations based on the balanced electroplating reaction:
2 e⁻ + Zn²+ → Zn (s)
2 e⁻ + Co²+ → Co (s)
The total number of moles of electrons transferred in the electroplating reaction is:
1.436 mol e⁻ = 2 mol e⁻/mol Zn × x mol ZnSO4 + 2 mol e⁻/mol Co × y mol CoSO4
Simplifying and solving for y:
y = (1.436 mol e⁻ - 2 mol e⁻/mol Zn × x mol ZnSO4) / (2 mol e⁻/mol Co)
y = 0.718 mol CoSO4
Since the ratio of the moles of Zn to Co deposited is 1.11, we can calculate the moles of ZnSO4 from the moles of CoSO4:
x = (1.11 mol Zn/mol Co) × (0.718 mol CoSO4) = 0.798 mol ZnSO4
Finally, we can calculate the masses of ZnSO4 and CoSO4:
mass of ZnSO4 = 0.798 mol × 161.47 g/mol = 128.94 g
mass of CoSO4 = 0.718 mol × 152.06 g/mol = 109.34 g
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PLEASE ANWER!!!! 40 POINTS
7.0 mol AgNo3 reacts with 3.0 mol Zn in a single replacement reaction. 2AgNo3 + Zn --> 2Ag + Zn(no3)2
How many moles of Zn(no3)2 form from 3.0 mol Zn?
mol Zn(NO3)2
State a general rule about what happens to the pH of acidic or basic solutions when they are diluted with pure water.
When acidic or basic solutions are diluted with pure water, the pH of the solution will tend to move towards 7 (neutral). In the case of acidic solutions, dilution will result in an increase in pH towards neutrality. This is because the concentration of H+ ions (which contribute to acidit) decreases as more water is added, resulting in a less acidic solution.
Conversely, for basic solutions, dilution will cause the pH to decrease towards 7. This is because as the concentration of OH- ions (which contribute to basicity) decreases, the solution becomes less basic and more neutral. Overall, dilution tends to have a neutralizing effect on the pH of both acidic and basic solutions. When acidic or basic solutions are diluted with pure water, the pH of the solution generally moves closer to neutral (pH 7). For acidic solutions, the pH will increase, while for basic solutions, the pH will decrease. This occurs because the concentration of ions responsible for acidity or basicity is reduced upon dilution.
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When does an amino acid take on the zwitterion form?
An amino acid takes on the zwitterion form when it is in a neutral solution, particularly at its isoelectric point.
An amino acid takes on the zwitterion form when it is in a neutral solution, typically at its isoelectric point (pI). A zwitterion is a molecule with both positive and negative charges, but with a net charge of zero. In an amino acid, the carboxyl group [tex](-COOH)[/tex] donates a proton [tex](H^+)[/tex] to the amino group [tex](-NH_2)[/tex] , resulting in a negatively charged carboxylate ion [tex](-COO-)[/tex] and a positively charged ammonium ion [tex](-NH_3^+)[/tex].
The isoelectric point (pI) is the pH at which an amino acid exists predominantly as a zwitterion. At this pH, the overall charge on the amino acid is zero, and it will not migrate in an electric field. The pI values of amino acids vary, depending on the side chain groups present, which can affect the overall charge of the molecule.
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what is the smallest number of ice cubes at 0 c, each containing one mole of water, necessary to cool 800.0 g of liquid water initially at 20c to 0c
As each ice cube contains one mole of water, you would need at least 44.4 ice cubes to cool the liquid water from 20°C to 0°C
To solve this problem, we need to use the equation:
Q = m × c × ΔT
where Q is the amount of heat transferred, m is the mass of the substance, c is the specific heat capacity, and ΔT is the change in temperature.
We can first calculate the amount of heat that needs to be transferred from the liquid water to the ice cubes:
Q = m × c × ΔT
Q = 800.0 g × 4.184 J/g°C × (-20°C)
Q = -67,072 J
The negative sign indicates that heat is leaving the liquid water and being absorbed by the ice cubes.
Next, we need to determine how many moles of water are in 800.0 g of liquid water:
n = m/M
n = 800.0 g ÷ 18.015 g/mol
n = 44.4 mol
Therefore, we need at least 44.4 ice cubes, each containing one mole of water, to cool the liquid water from 20°C to 0°C. However, this assumes that all of the heat transferred from the liquid water is used to melt the ice cubes, and none of it is lost to the environment. In reality, we would need more ice cubes to account for any heat loss.
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3.4. Mortise-and-tenon joints were used in most 18th century timber framing because A. it was the easiest type of joint to produce with the available tools. B. joint strength could not be achieved by any other method. C. metal fasteners were scarce.
D. appearance was of primary importance.
The answer to the question is D. Appearance was of primary importance because of which Mortise-and-tenon joints were used in most 18th century timber framing
Mortise-and-tenon joints were commonly used in 18th century timber framing because they provided a strong and durable joint, but they also allowed for a clean and aesthetically pleasing appearance. While metal fasteners were scarce at the time, it was not the only reason for the use of this joint. The use of mortise-and-tenon joints was also a reflection of the craftsmanship and skill of the builders who wanted to create a lasting and visually appealing structure. Additionally, the tools needed to make mortise-and-tenon joints were readily available and could easily be produced with the primitive tools of the time.
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In the reduction reaction, the hot water and the 95% ethanol act as a solvent pair for the benzil. Which is the better solvent and which is the poorer one?
In the reduction reaction involving benzil, hot water and 95% ethanol act as a solvent pair. Among the two, ethanol is the better solvent as it can dissolve benzil more efficiently, while hot water serves as the poorer solvent due to its lower solubility for benzil.
In the reduction reaction, the 95% ethanol is the better solvent for benzil as it is able to dissolve more of the compound due to its polar nature. Hot water, on the other hand, is a poorer solvent for benzil as it is less polar and less able to dissolve the compound. However, both solvents are necessary for the reduction reaction as they help to create the necessary conditions for the reduction of benzil to take place.
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Question 20
The first major recorded episode of air pollution that produced human casualties occurred in:
a. Meuse River Valley, Belgium
b. London, England
c. Los Angeles, CA
d. Donora, PA
The first major recorded episode of air pollution that produced human casualties occurred in the Meuse River Valley, Belgium.
In 1930, a combination of industrial emissions and weather conditions led to a thick smog settling over the valley for several days, resulting in the deaths of at least 60 people and causing illness in thousands more. This event brought attention to the dangers of air pollution and led to the development of air quality regulations and monitoring systems.
the first major recorded episode of air pollution that produced human casualties occurred in Donora, Pennsylvania in 1948. Severe industrial air pollution created a deadly smog that asphyxiated 20 people and made 7,000 more sick.
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is this adding of yeast to hydrogen peroxide a physical or chemical change.
Answer:
Chemical Reaction
Explanation:
A chemical reaction is a process in which substances undergo a chemical change to form a different substance. In this reaction, the hydrogen peroxide is catalyzed by the yeast to release the oxygen molecules.
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Calculate the molar mass of (NH4)2SO4A) 114.11 g/mol D) 63.09 g/molB) 228.22 g/mol E) 132.15 g/molC) 118.14 g/mol
The molar mass of [tex](NH4)2SO4[/tex] is approximately 132.16 g/mol, which corresponds to option E.
To calculate the molar mass of (NH4)2SO4, we need to add up the atomic masses of all the atoms present in one mole of the compound:
[tex](NH4)2SO4 = 2(N) + 8(H) + S + 4(O)= 2(14.01 g/mol) + 8(1.01 g/mol) + 32.06 g/mol + 4(16.00 g/mol)= 28.02 g/mol + 8.08 g/mol + 32.06 g/mol + 64.00 g/mol[/tex]
= 132.16 g/mol. The molar mass of a substance is the mass in grams of one mole of the substance. It is expressed in units of grams per mole (g/mol). The molar mass is calculated by adding up the atomic masses of all the atoms present in the chemical formula of the compound.
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110. Hydrogen chloride gas can be prepared by the following reaction:2NaCl(s) + H2SO4(aq) ® 2HCl(g) + Na2SO4(s)How many grams of HCl can be prepared from 2.00 mol H2SO4 and 2.56 mol NaCl?A) 7.30 g B) 93.3 g C) 146 g D) 150 g E) 196 g
Option C is Correct. 146 g Hydrogen chloride gas can be prepared. Chemistry's use of relationships between products and/or reactants in a specific chemical process to obtain desired quantitative data is known as stoichiometry.
To solve this problem, we need to use stoichiometry and convert the given amounts of H2SO4 and NaCl to the amount of HCl that can be produced.
First, let's write the balanced chemical equation:
2NaCl(s) + H₂SO₄(aq) ⇒ 2HCl(g) + Na₂SO₄(s)
According to the equation, 2 moles of NaCl reacts with 1 mole of H2SO4 to produce 2 moles of HCl. Therefore, we can use the following ratios:
2 mol NaCl : 1 mol H₂SO₄ : 2 mol HCl
Now we can use these ratios to calculate the amount of HCl produced:
2.56 mol NaCl × (1 mol H₂SO₄ / 2 mol NaCl) × (2 mol HCl / 1 mol H₂SO₄) = 2.56 mol HCl
2.00 mol H₂SO₄ × (2 mol HCl / 1 mol H₂SO₄) = 4.00 mol HCl
The limiting reactant is H₂SO₄, since it produces less HCl than NaCl. Therefore, we need to use the amount of H₂SO₄ to calculate the mass of HCl produced:
4.00 mol HCl × 36.46 g/mol = 146 g
Therefore, 146 g of HCl can be prepared from 2.00 mol H₂SO₄ and 2.56 mol NaCl.
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Question 46
The increase of dissolved solids due to evaporation in whirlpools, hot tubs and spas is indicated by
a. increased water temperature
b. condensation
c. cloudy water
d. foamy water
The increase of dissolved solids due to evaporation in whirlpools, hot tubs and spas is indicated by increased water temperature. The correct answer is option a.
When water evaporates from whirlpools, hot tubs, and spas, the concentration of dissolved solids in the water increases. This happens because the water evaporates, leaving behind the minerals and other substances that were dissolved in it. As a result, the water becomes more concentrated, and the temperature of the remaining water increases as well.
This increase in dissolved solids can lead to several problems, including cloudiness and foaming of the water. Cloudy water occurs when the dissolved solids in the water reach a level where they become visible to the exposed eye. Foaming can occur when the water contains high levels of detergents or other substances that cause suds to form.
To prevent these problems, it is important to monitor the water in whirlpools, hot tubs, and spas regularly and add chemicals as needed to maintain the proper balance of dissolved solids. Regular maintenance and cleaning can also help keep the water clean and clear.
Therefore, option a is correct.
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Calculate the number of liters of carbon dioxide measured at STP that could be produced from 6.71 g of propane.
The number of liters of carbon dioxide measured at STP that could be produced from 6.71 g of propane is 15.5 L.
When propane (C3H8) is burned completely with oxygen (O2), it produces carbon dioxide (CO2) and water vapor (H2O). The balanced chemical equation for the reaction is: C3H8 + 5O2 → 3CO2 + 4H2O
From the balanced equation, we can see that 1 mole reacts with 5 moles of oxygen to produce 3 moles of carbon dioxide. Its molar mass is 44.1 g/mol, so 6.71 g of propane is equivalent to 0.152 moles. Therefore, the amount of carbon dioxide produced would be 0.456 moles (3 moles CO2 per 1 mole C3H8). At STP (standard temperature and pressure), 1 mole of any gas occupies 22.4 L of volume. Therefore, the volume of carbon dioxide produced at STP would be:
V = nRT/P = (0.456 mol) (0.0821 L·atm/mol·K) (273 K) / (1 atm) = 15.5 L
Thus, the number of liters of carbon dioxide measured at STP that could be produced from 6.71 g of propane is 15.5 L.
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a compound containing lithium and sulfur reacts with a compound containing aluminum and iodine.which best describes the elements present in the products of this reaction?
The reaction between lithium and sulfur forms lithium sulfide (Li₂S) while the reaction between aluminum and iodine forms aluminum iodide (AlI₃). When the two compounds react, a double replacement reaction occurs resulting in the formation of lithium iodide (LiI) and aluminum sulfide (Al₂S₃).
The products of this reaction are thus lithium, aluminum, sulfur, and iodine. However, since lithium and iodine form a stable ionic compound, LiI, it is not present in its elemental form in the products. Therefore, the products contain aluminum, sulfur, and lithium ions (Li⁺) in the form of aluminum sulfide (Al₂S₃) and lithium iodide (LiI).
In summary, the products of the reaction between a compound containing lithium and sulfur and a compound containing aluminum and iodine are aluminum sulfide and lithium iodide. The elements present in the products are aluminum, sulfur, and lithium ions (Li⁺).
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A magnesium ion, Mg2+, hasA) 12 protons and 13 electrons. D) 24 protons and 22 electrons.B) 24 protons and 26 electrons. E) 12 protons and 14 electrons.C) 12 protons and 10 electrons.
A magnesium ion, Mg2+, has correct answer is option E) 12 protons and 14 electrons.
The correct answer is option E) 12 protons and 14 electrons. This is because the atomic number of magnesium, which is the number of protons in its nucleus, is 12. When it loses two electrons to become an ion, it still has 12 protons but now only 10 electrons. Therefore, the charge on the ion is 2+ (written as Mg2+). Options A, B, C, and D have incorrect numbers of protons and electrons for a magnesium ion.
Mg2+, an ion of magnesium, contains 12 protons and 14 electrons. This is so because magnesium has 12 protons, or its atomic number, in its nucleus. It still has 12 protons but only 10 electrons when it loses two electrons to become an ion. As a result, the ion has a 2+ charge, represented by the symbol Mg2+. For a magnesium ion, the protons and electrons in Options A, B, C, and D are in the wrong proportions.
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Question 16
Swimming pool water that is brownish black in color may be due to:
a. H2S
b. Mg
c. Mn
d. Fe
Swimming pool water that is brownish-black in color may be due to iron (Fe) contamination. option (d)
Iron can enter swimming pool water through a variety of sources, including source water, metal pipes, or iron-containing pool equipment. When the pH level of the pool water is too low, the iron can react with the chlorine to form insoluble iron compounds, resulting in a brownish-black color.
This can be a cosmetic issue, as well as a potential health hazard. To treat the problem, the pH level of the pool water can be raised to prevent the formation of insoluble iron compounds, and a sequestrant can be added to help keep the iron in the solution.
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