Answer: The mass in grams is 290g.
Explanation: In order to find the mass you need to multiply the number of moles given by the molar mass of the compound.
You find the molar mass by adding all the atomic masses of each atom in the compound.
Since 0.75 has 2 significant figures, your final answer also needs to have 2 sig figs.
An atom with 5 protons, 10 neutrons, and 10 electrons is
stable, +5 charge
unstable, -5 charge
unstable, +5 charge
unstable, -10 charge
An anatom with 5 protons, 10 neutrons, and 10 electrons is unstable and has a charge of +5. This is because the number of protons (positive charge) in the nucleus is greater than the number of electrons (negative charge) in the outer shell,resulting in a net positive charge. The excess positive charge makes the atom unstable and more likely to react with other atomsbor lose electrons to become a positively charged ion.
If a high altitude balloon is filled with 14,100 L of hydrogen at a temperature of 21 degrees celsius and a pressure of 0.98 atm. What's the volume of the balloon at a height of 20 km, where the temperature is -48 degrees celsius and the pressure is 0.08 atm?
The volume of the balloon at a height of 20 km is approximately 296,837 L.
To find the new volume of the balloon, we can use the combined gas law equation:
(P1V1/T1) = (P2V2/T2)
Where P1 is the initial pressure, V1 is the initial volume, T1 is the initial temperature, P2 is the final pressure, V2 is the final volume, and T2 is the final temperature.
Substituting the given values:
(P1) (V1) / (T1) = (P2) (V2) / (T2)
(0.98 atm) (14,100 L) / (294 K) = (0.08 atm) (V2) / (225 K)
Simplifying:
V2 = [(0.98 atm) (14,100 L) (225 K)] / [(0.08 atm) (294 K)]
V2 ≈ 296,837 L
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A is a solution of 0.1mol/dm³ and B contains 5.0gram anhydrous X₂CO₃/dm³ of solution. if 25.50cm³ of acid is used to neutralize 25cm³ of solution B. Calculate; 1. the molar concentration of solution B 2. the relative molar mass of X₂CO₃ 3. the atomic mass of the element X
the molar concentration of solution B is 0.102 mol/dm³, the relative molar mass of X₂CO₃ is approximately 106 g/mol, and the atomic mass of the element X is approximately 24 g/mol.
How to solve the question?
To solve this problem, we will use the concept of neutralization reaction. In a neutralization reaction, an acid reacts with a base to form a salt and water. The balanced equation for the reaction between an acid and a carbonate is:
H₂SO₄ + X₂CO₃ → X₂(SO₄) + CO₂ + H₂O
where H₂SO₄ is the acid and X₂CO₃ is the carbonate.
We are given that 25.50 cm³ of the acid solution reacts with 25 cm³ of the carbonate solution B. From this, we can calculate the moles of acid used:
Moles of acid = concentration × volume = 0.1 mol/dm³ × 0.02550 dm³ = 0.00255 mol
Since the acid reacts with the carbonate in a 1:1 ratio, we know that 0.00255 mol of X₂CO₃ were present in the 25 cm³ of solution B. We can use this information to find the molar concentration of solution B:
Molar concentration of solution B = moles of X₂CO₃ / volume of solution B
= 0.00255 mol / 0.025 dm³ = 0.102 mol/dm³
To find the relative molar mass of X₂CO₃, we need to know its molecular formula. X₂CO₃ is a binary compound containing two atoms of X, one atom of carbon, and three atoms of oxygen. The relative molecular mass of X₂CO₃ can be calculated as follows:
Relative molecular mass of X₂CO₃ = 2 × relative atomic mass of X + relative atomic mass of C + 3 × relative atomic mass of O
= 2X + 12 + 3(16)
= 2X + 60
To find the atomic mass of X, we need to solve for X in the equation above. We can do this by rearranging the equation:
2X + 60 = relative molecular mass of X₂CO₃
2X = relative molecular mass of X₂CO₃ - 60
X = (relative molecular mass of X₂CO₃ - 60) / 2
Substituting the given value for the relative molecular mass of X₂CO₃, we get:
X = (2 × 105.99 - 60) / 2 = 23.995
Therefore, the atomic mass of the element X is approximately 24 g/mol.
In summary, the molar concentration of solution B is 0.102 mol/dm³, the relative molar mass of X₂CO₃ is approximately 106 g/mol, and the atomic mass of the element X is approximately 24 g/mol.
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A compound containing only sulfur and phosphorus is 50.9% S by mass; the molar mass is 252 g/mol. What are the empirical and molecular formulas of the compound?
There are 4 sulfur atoms and 2 phosphorus atoms in the compound. The molecular formula is then S4P2.
What is sulfur?Sulfur is a nonmetallic element that is essential for life. It is found in nature in several forms and has a variety of uses. Sulfur is an essential component of proteins and is found in all living organisms. It is also present in the cells of plants, animals, and humans, and is important for the functioning of enzymes and hormones.
The empirical formula of the compound is S2P. This is found by taking the mass of each element and dividing it by the atomic mass of the element, and then dividing that result by the smallest value. So, for sulfur, we divide 50.9% by 32.065 (the atomic mass of sulfur) to get 1.58, which is then divided by 1.58 to get 1. For phosphorus, we divide 49.1% by 30.9737 (the atomic mass of phosphorus) to get 1.58, which is then divided by 1.58 to get 1. The molecular formula of the compound is S4P2. This is found by taking the molar mass of the compound (252 g/mol) and dividing it by the molar mass of the empirical formula (2 x 32.065 + 1 x 30.9737) to get 4. This means there are 4 sulfur atoms and 2 phosphorus atoms in the compound. The molecular formula is then S4P2.
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In order to understand how digestion of nutrients occurs, or how nutrients are used to provide cellular energy, it is necessary to understand
Multiple Choice
anatomy
radioactivity
chemistry
cytology
In order to understand how digestion of nutrients occurs, or how nutrients are used to provide cellular energy, it is necessary to understand C. chemistry.
What is chemistry ?Chemistry is the branch of science that deals with the composition, properties, and interactions of matter. In the context of digestion and cellular energy, chemistry is essential because it provides the foundation for understanding the chemical reactions that occur within the body.
For example, the digestion of nutrients involves the breakdown of complex molecules such as carbohydrates, proteins, and fats into simpler molecules that can be absorbed and utilized by the body.
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How many aluminum atoms are in 25g of aluminum
Answer: 5.58x10^23 atoms of Al
Explanation:
Here's the math:
I converted grams to mols then mols to atoms.
750mL of water (initially at 20°C) is mixed with an unknown mass of iron (initially at 120°C). When thermal equilibrium is reached, the system has a temperature of 30°C. Find the mass of the iron. Heat capacity of iron is 0.46 J/g°C.
The mass of the iron is 17.64 kg.
To solve this problem, we need to use the principle of heat transfer, which states that the total heat gained by one object must be equal to the total heat lost by the other object when they are in thermal equilibrium.
Let's start by calculating the heat lost by the iron and the heat gained by the water. We can use the following formula:
Q = m×c×ΔT
where Q is the heat transferred, m is the mass of the object, c is its specific heat capacity, and ΔT is the temperature change.
Heat lost by iron = Heat gained by the water
[tex]m_{iron}[/tex] x [tex]c_{iron}[/tex] x ( [tex]T_{f}[/tex] - [tex]T_{i}[/tex] ) = [tex]m_{water}[/tex] x [tex]c_{water}[/tex] x ( [tex]T_{f}[/tex] - [tex]T_{i}[/tex] )
where [tex]T_{f}[/tex] is the final temperature of the system (30°C), [tex]T_{i}[/tex] is the initial temperature of each substance (120°C for the iron and 20°C for the water), [tex]c_{iron}[/tex] and [tex]c_{water}[/tex] are the specific heat capacities of iron and water, respectively.
We need to solve for [tex]m_{iron}[/tex], which is the unknown mass of iron. Rearranging the equation, we get:
[tex]m_{iron}[/tex] = ([tex]m_{water}[/tex] x [tex]c_{water}[/tex] x ([tex]T_{f}[/tex] - [tex]T_{i}[/tex] )) / ([tex]c_{iron}[/tex] x ([tex]T_{i}[/tex] - [tex]T_{f}[/tex] ))
Substituting the given values, we get:
[tex]m_{iron}[/tex]= (750g x 4.18 J/g°C x (30°C - 20°C)) / (0.45 J/g°C x (120°C - 30°C))
[tex]m_{iron}[/tex]= 17,640 g = 17.64 kg (to two decimal places)
Therefore, the mass of the iron is 17.64 kg.
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The equilibrium molarity of (SO4)2- ion is 0.00051 M.
The equilibrium molarityThe sulfuric acid (H2SO4) dissociates in water as follows:H2SO4 + H2O ⇌ H3O+ + HSO4-HSO4- ⇌ H+ + SO42-
Therefore, the equilibrium molarity of (SO4)2- ion can be determined by first calculating the concentration of H+ ions formed in the solution due to the dissociation of H2SO4.
For the given solution with a concentration of 0.043 M sulfuric acid, the initial concentration of H2SO4 is also 0.043 M.
Using the first dissociation equation:
[H2SO4] = [H3O+] + [HSO4-]
At equilibrium, assuming x moles of H+ ions and HSO4- ions are formed:
[H2SO4] = (0.043 - x) M[H3O+] = x M[HSO4-] = (0.043 - x) M
Using the second dissociation equation:[HSO4-] = [H+] * [SO42-] / Ka2
where Ka2 is the dissociation constant for the second dissociation of sulfuric acid.
From the ALEKS Data resource, Ka2 for sulfuric acid is
1.2 × 10^-2.
Substituting the values:
(0.043 - x) = x * [SO42-] / Ka2
Rearranging:
[SO42-] = (0.043 - x) * Ka2 / x
At equilibrium, the concentration of (SO4)2- ion is given by:[SO42-] = (0.043 - x) * Ka2 / x
Substituting the equation from the first dissociation:
[SO42-] = (0.043 - x) * Ka2 / x
[SO42-] = (0.043 - x) * 1.2 × 10^-2 / x
Simplifying:[SO42-] = 0.000516 - 0.012x
To solve for x, the quadratic equation:
x^2 + Ka2x - Ka2[HSO4-]initial = 0 can be used,
where [HSO4-]initial is the initial concentration of HSO4- ions, which is 0.043 M.
Solving the quadratic equation gives x = 4.4 × 10^-4 M.
Therefore, the equilibrium concentration of (SO4)2- ion is:
[SO42-] = 0.000516 - 0.012x
[SO42-] = 0.000516 - 0.012(4.4 × 10^-4)
[SO42-] = 0.000510 M
Rounding off to 2 significant figures, the equilibrium molarity of (SO4)2- ion is 0.00051 M.
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In the first order "A -> products" reaction, initially [A] = 0.816 M, after 16.0 minutes it is [A] = 0.632 M. rate constant , what is the value of k ?
The first order reaction is defined by the rate law:
rate = k[A]
where k is the rate constant and [A] is the concentration of the reactant.
If we integrate this rate law, we get:
ln([A]_t/[A]_0) = -kt
where [A]_t is the concentration of A at time t, [A]_0 is the initial concentration of A, k is the rate constant, and t is time.
We can use this equation to solve for k given the initial and final concentrations of A and the time interval.
In this case, we have:
[A]_t = 0.632 M
[A]_0 = 0.816 M
t = 16.0 min
Substituting these values into the equation above, we get:
ln(0.632/0.816) = -k(16.0)
Solving for k, we get:
k = (1/16.0) * ln(0.816/0.632) = 0.0316 min^-1
Therefore, the value of the rate constant k for this first order reaction is 0.0316 min^-1.
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Standard temperature and pressure (STP) is a standard set of conditions used for comparing properties of different gases and corresponds to a temperature of 0°C and approximately atmospheric pressure at sea level (100 kPa)
true or false
True. Standard temperature and pressure (STP) is a standard set of conditions used for comparing properties of different gases.
How is the above statement true?A set of standardized settings known as standard temperature and pressure (STP) is used to compare the characteristics of various gases. The standard pressure is approximately atmospheric pressure at sea level, which is equal to 101.325 kPa or 1 atmosphere, while the standard temperature is 0°C or 273.15 K. (atm). When comparing the physical characteristics of various gases, such as molar volume, density, and compressibility, STP is frequently used in physics and chemistry to determine how gases behave under normal conditions. It is crucial to remember that STP is not a set of rigid requirements, and various companies may specify STP using slightly varying numbers for temperature and pressure.
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A researcher is studying gold complexes. She makes a 125mL solution of gold (III) chloride by dissolving 0.144 moles of the solute into water. Which of the following would cause the concentration of the solution to increase?
A additional gold (III) chloride is added to the baker
B part of the solution is poured into the chemical waste.
C water is added to the beaker
D we do not have enough information to answer this question.
Adding more gold (III) chloride to the beaker would increase the number of moles of solute in the solution while keeping the volume of the solution constant, option A is correct.
Adding more solute (gold (III) chloride) to a fixed volume of solvent (water) increases the concentration of the solution would result in an increase in the concentration of the solution.
The concentration of a solution is defined as the amount of solute dissolved in a given amount of solvent. When more solute is added to the solution, the amount of solute per unit volume of the solution increases, leading to an increase in concentration, option A is correct.
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Even though plutonium−239 (t1/2 = 2.41 × 104 yr) is one of the main fission fuels, it is still a radiation hazard present in spent uranium fuel from nuclear power plants. How many years does it take for 95% of the plutonium−239 in spent fuel to decay?
It takes about 1.41 × 10⁵ years for 95% of the Plutonium-239 (Pu-239) in spent fuel to decay.
To calculate the time it takes for 95% of Plutonium-239 (Pu-239) to decay, we can use the formula for radioactive decay:
[tex]N_{t} =N_{o}[/tex] × e^(-λt)
where [tex]N_{t}[/tex] is the amount of radioactive material remaining after time t, [tex]N_{o}[/tex] is the initial amount of radioactive material, λ is the decay constant, and e is the mathematical constant equal to about 2.718.
We can solve for t when [tex]N_{t}[/tex] is 0.05N0 (95% decay) and substitute the values for λ and the half-life of Pu-239:
0.05N0 = N × [tex]e^{(-0.693/t1/2 * t)}[/tex]
0.05 = [tex]e^{(-0.693/2.41 * 10^4 * t)}[/tex]
ln(0.05) = -0.693/2.41 × 10⁴ × t
t = 1.41 × 10⁵ years
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PLS HELP!!!!!
Convert the following measurements. Show all work, including units that cancel.
8.5x10^24 molecules NO2 -> mol
Answer:
Explanation:
8.5x10^24molecules x[tex]\frac{1 mol}{6.022x10^2^3 molecules}[/tex] = 14.1 moles NO2
Original unit of molecules cancels with the conversion unit of molecules = moles and you are left with moles as your final unit.
The following reaction take place in a container where CONDITIONS ARE NOT STP! Calculate the volume nitogen dioxide that will be produced when 4,86 dm3 N2O5 decompose. 2N2O5(g) → 4NO2(g) + O2(g)
9.77 litres of NO2 are generated on average.
Calculation-The balanced equation for the breakdown of N2O5 is as follows:
[tex]2N_2O_5(g) -- > 4NO_2(g) + O_2(g)[/tex]
determine how many moles of N2O5 decompose:
[tex]V(N_2O_5) / Vm = n(N_2O_5)(N_2O_5)[/tex]
where V(N2O5) = 4.86 dm3 is N2O5's volume and Vm(N2O5) is N2O5's molar volume under the circumstances stated in the ideal gas law:
[tex](R*T)/P = Vm = V/n[/tex]
when the gas constant R is used.
the kelvin scale of temperature, T
The pressure is P.
The ideal gas law:
[tex]n(N_2O_5) = V(N2O5) / Vm(N_2O_5) = 4.86 dm3 / (24.46 L/mol) = 0.1982 mol[/tex]
the number of moles of NO2 is:
[tex]n(NO_2 = 4/2 * n(N_2O_5) = 0.3964 mol[/tex]
then,
[tex]n(NO_2 = 4/2 * n(N_2O_5) = 0.3964 mol[/tex]
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The solubility of PbBr2 is 0.427 g per 100 mL of solution at 25°C. Determine the value of the solubility product constant for this strong electrolyte. Lead(II) bromide does not react with water.
The value of the solubility product constant for PbBr2 at 25°C is 6.70 × [tex]10^-^6[/tex]. It is important to note that lead (II) bromide does not react with water because it is a strong electrolyte.
PbBr2 (s) ⇌ Pb2+ (aq) + 2Br- (aq)
The solubility of (lead)PbBr2 is given as 0.427 g per 100 mL of solution at 25°C. One can convert this to moles per liter using the molar mass of PbBr2, which is 367.01 g/mol:
0.427 g PbBr2 × (1 mol PbBr2 / 367.01 g PbBr2) × (10 / 1 L) = 0.0116 mol/L
[Pb2+] = 0.0116 mol/L
[Br-] = 2 × 0.0116 mol/L = 0.0232 mol/L
Substituting these values into the expression for Ksp
Ksp = [Pb2+][Br-]2
= (0.0116 mol/L)(0.0232 mol/L)2
= 6.70 × [tex]10^-^6[/tex]
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6) Apply the rules for canceling complex units to simplify and find the units in an answer:
a)
=
atm / mol • (atm •L/
mol • K)
b) (mol • (atm•L / mol • K) • K ) / L
Cancelling units, also referred to to be "unit analysis" as well as "dimensional analysis," atm / mol × (atm ×L/mol × K) = atm / (atm ×L/ K)
A conversion factor (described in the form of a fractions, ) is considered as possessing a value of "1" for the purposes of transforming between units. Cancelling units, also referred to to be "unit analysis" as well as "dimensional analysis," depends on the principles that multiplying a thing by "1" does not alter the value, that any amount divided through a single value equals "1," and that any value allocated by itself.
A) atm / mol × (atm ×L/mol × K)
cancel the mole by mole
atm / (atm ×L/ K)
B) (mol × (atm×L / mol × K) × K ) / L
cancel the mole by mole
(atm×L / K) × K ) / L
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A compound containing only sulfur and phosphorus is 50.9% S by mass; the molar mass is 252 g/mol. What are the empirical and molecular formulas of the compound?
The empirical formula of the compound is S₁P₁, and the molecular formula is S₄P₄.
What is the difference between empirical and molecular formulas?The empirical formula gives the simplest whole-number ratio of atoms in a compound, whereas the molecular formula gives the actual number of atoms of each element in a molecule of the compound.
How did you determine the molecular formula of the compound from the empirical formula and molar mass?The molecular formula can be found by dividing the molar mass of the compound by the empirical formula mass and rounding the result to the nearest whole number. The resulting number gives the subscript in the molecular formula.
To determine the empirical formula of the compound, we need to convert the mass percentages into mole ratios.
Assuming a 100 g sample of the compound, there would be 50.9 g of sulfur and 49.1 g of phosphorus.
The moles of sulfur can be calculated as: moles of S = (50.9 g S) / (32.06 g/mol S) = 1.588 mol S
The moles of phosphorus can be calculated as: moles of P = (49.1 g P) / (30.97 g/mol P) = 1.585 mol P
To find the empirical formula, we need to divide both the number of moles of sulfur and phosphorus by the smallest of the two.
So, the empirical formula is: S₁P₁
To determine the molecular formula, we need to know the molar mass of the compound. The given molar mass is 252 g/mol.
The empirical formula mass can be calculated as:
S₁P₁ = 1 x 32.06 g/mol S + 1 x 30.97 g/mol P = 63.03 g/mol
To find the molecular formula, we need to divide the molar mass of the compound by the empirical formula mass:
molecular formula mass / empirical formula mass = n
252 g/mol / 63.03 g/mol = 3.993
Round this to the nearest whole number to get the subscript in the molecular formula: S₄P₄
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What is the name of the covalent compound Cl₂ O?
Answer:
The name of the covalent compound Cl₂O is dichlorine monoxide.
Hope this helps!
The deltaG for the reaction below implies that the decomposition of H2O2 is thermodynamically favorable. However, H2O2 is typically stable for up to a year when stored in a dark bottle at 298K. The best explanation for this observation is the decomposition reaction
2H2O2 (aq) ⇒2H2O (l) +O2 (g) ΔG°= -234 KJ/molrxn
A. is only thermodynamically favored in the presence of a catalyst
B. occurs with an increase in entropy because O2 is a product
C. is reversible and H2O2 is produced almost as fast as it decomposes
D. has a slow rate at 298 K because the activation energy is relatively high
the stability of hydrogen peroxide under normal storage conditions despite its negative ΔG° for decomposition can be attributed to the relatively high activation energy required for the reaction to occur.
How to solve the question?
The fact that the ΔG° for the decomposition of hydrogen peroxide (H2O2) is negative (-234 KJ/molrxn) indicates that the reaction is thermodynamically favorable, meaning that the products (water and oxygen gas) are more stable than the reactant (hydrogen peroxide). However, as mentioned in the question, hydrogen peroxide is typically stable for up to a year when stored in a dark bottle at 298K, which seems to contradict the thermodynamic prediction.
The best explanation for this observation is option D: the decomposition of hydrogen peroxide has a slow rate at 298 K because the activation energy is relatively high. Even though the reaction is thermodynamically favorable, it may not occur spontaneously at room temperature because the activation energy required to break the O-O bond in hydrogen peroxide is relatively high. This means that a significant amount of energy is needed to initiate the reaction and form the products, and at room temperature, the rate of the reaction is too slow for any significant decomposition to occur over a period of one year.
Additionally, the reaction is not reversible (option C) because the entropy of the system decreases due to the formation of liquid water from hydrogen peroxide and the release of oxygen gas. Option A is also incorrect because the decomposition of hydrogen peroxide does not require a catalyst to occur, although a catalyst can increase the rate of the reaction by lowering the activation energy.
In summary, the stability of hydrogen peroxide under normal storage conditions despite its negative ΔG° for decomposition can be attributed to the relatively high activation energy required for the reaction to occur.
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Exercise 4. Some diamonds appear yellow because they contain nitrogenous compounds
that absorb purple light of frequency 7.23×1014 s–1
. Calculate the wavelength (in nm) of
the absorbed light. 2. The FM station broadcasts traditional music at 102 MHz on your
radio. Units for FM frequencies are given in megahertz (MHz). Find the wavelength of
these radio waves in meters (m), nanometers (nm), and angstrom (Å).
Purple light that is absorbed has a frequency of 7.23 1014 s-1.
What is the wavelength (in nm) of the absorbed light?1. The wavelength of the absorbed light can be determined using the equation c = v, where c is the speed of light, is the wavelength, and v is the frequency. We arrive at = c/v by rearranging the equation to account for. By substituting the values, we arrive at = 4.14 10-7 m, or 414 nm.
2. The FM station's frequency is 102 MHz, or 102 106 Hz. The wavelength of the radio waves can be determined using the equation v = f, where v is the speed of light, f is the frequency, and is the wavelength. We arrive at = v/f by rearranging the equation to account for. When the values are substituted, we obtain = 2.94 m, 2.94 109 nm, or 29400.
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How many moles of methane gas will combust to produce 330 grams of water? Answer should be rounded to the appropriate number of significant figures and have the correct unit.
Answer:
The balanced chemical equation for the combustion of methane gas (CH4) is:
CH4 + 2O2 → CO2 + 2H2O
From the equation, we can see that for every mole of methane gas that reacts, 2 moles of water are produced.
The molar mass of water (H2O) is 18.01528 g/mol.
To determine the number of moles of water produced by 330 g of water, we can use the following equation:
moles = mass/molar mass
moles of water = 330 g / 18.01528 g/mol = 18.3276 mol
Since the ratio of methane to water in the balanced equation is 1:2, we know that for every mole of water produced, half a mole of methane is consumed.
moles of methane = 0.5 x moles of water = 0.5 x 18.3276 mol = 9.1638 mol
Therefore, 9.16 moles of methane gas will combust to produce 330 grams of water.
I NEED HELP! CHEMISTRY! PLEASE HELP ME!
Procedures:
Measure the mass of 2.5 mL of Lye (or ½ teaspoon of powdered lye)
If your scale is not accurate you can find the mass of a larger volume such as 25 mL and divide by 10.
Add 100.0 mL (½ cup) of vinegar to the calorimeter.
Measure the temperature of the vinegar (initial temperature)
Add 2.5 mL of Lye to the vinegar and record the highest temperature reached (final temperature).
Calculate the heat of this reaction, ∆H, using q = mc∆T (use the calculation steps below). ∆H = q
Determine the ∆H/mole of NaOH.
Your observations include the pertinent data and calculations from your experiment.
Record your observations here:
Specific heat of vinegar (c): 4.1 J/g oC
Density of vinegar: 0.99 g/mL
Mass of 2.5 mL (or ½ teaspoon) of lye:
Volume of vinegar:
Initial temperature of vinegar:
Final temperature of vinegar:
Energy gained by the contents of the calorimeter (q) = heat of the reaction (∆H)
q = mc∆T
Mass of 100.0 mL of vinegar (multiply by density of vinegar):
Mass of contents (vinegar + lye); this is m in our equation:
Change in temperature (Final – Initial), this is ∆T in our equation:
Energy gained by the calorimeter contents (this is q):
Moles of NaOH (assumes all of the lye is NaOH):
Value of ∆H in J/mole ( q / moles of NaOH):
To calculate the value of H in J/mole: H value in J/mole (q / moles NaOH): [q] / ([mass of 2.5 mL (or 12 teaspoon) lye] / 40.0 g/mol).
How to determine specific heat capacity?Based on the given procedures, record the following information:
Mass of 2.5 mL (or ½ teaspoon) of lye: [missing, needs to be measured]
Volume of vinegar: 100.0 mL
Initial temperature of vinegar: [measurement needed]
Final temperature of vinegar: [measurement needed]
Specific heat of vinegar (c): 4.1 J/g oC
Density of vinegar: 0.99 g/mL
To calculate the mass of 2.5 mL of lye, to measure it using a scale. Once we have that measurement, we can proceed with the calculations:
Mass of 2.5 mL (or ½ teaspoon) of lye: [measurement needed]
Volume of vinegar: 100.0 mL
Initial temperature of vinegar: [measurement needed]
Final temperature of vinegar: [measurement needed]
Specific heat of vinegar (c): 4.1 J/g oC
Density of vinegar: 0.99 g/mL
To calculate the energy gained by the contents of the calorimeter (q), we can use the formula q = mc∆T, where q is the energy gained, m is the mass of the contents (vinegar + lye), c is the specific heat capacity of vinegar, and ∆T is the change in temperature (final temperature - initial temperature):
Mass of 100.0 mL of vinegar (multiply by density of vinegar): 99.0 g
Mass of contents (vinegar + lye); this is m in our equation: 99.0 g + [mass of 2.5 mL (or ½ teaspoon) of lye]
Change in temperature (Final – Initial), this is ∆T in our equation: [Final temperature] - [Initial temperature]
Energy gained by the calorimeter contents (this is q): q = (99.0 g + [mass of 2.5 mL (or ½ teaspoon) of lye]) x 4.1 J/g oC x ([Final temperature] - [Initial temperature])
To calculate the moles of NaOH, we need to convert the mass of lye used to moles using the molar mass of NaOH (40.0 g/mol):
Moles of NaOH (assumes all of the lye is NaOH): [mass of 2.5 mL (or ½ teaspoon) of lye] / 40.0 g/mol
Finally, to determine the value of ∆H in J/mole, divide the energy gained by the calorimeter contents (q) by the moles of NaOH:
Value of ∆H in J/mole (q / moles of NaOH): [q] / ([mass of 2.5 mL (or ½ teaspoon) of lye] / 40.0 g/mol)
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CAN SOMEONE HELP WITH THE HESS'S LAW?
WHAT DO YOU THINK IS THE LARGEST SOURCE OF ERROR IN THE EXPERIMENT OF HESS'S LAW? EXPLAIN THE ANSWER
The largest source of error in the experiment of Hess's Law is human error.
What is experiment?An experiment is a procedure carried out to test a hypothesis, or an educated guess, in order to support or reject it. Experiments are conducted in order to explore new phenomena, or to verify and validate existing theories or laws. Experiments provide insight into cause-and-effect by demonstrating what outcome occurs when a particular factor is manipulated. Experiments vary greatly in goal and scale, but all share the same basic structure. They begin with a hypothesis, or an educated guess, that is then tested with an experiment. Results are measured and analyzed and conclusions are drawn, based on the results of the experiment.
This includes miscalculations when measuring, recording and interpreting data, making mistakes when setting up the experiment, or misreading the results. Also, inaccurate or faulty equipment used in the experiment can lead to errors. Another potential source of error is the presence of impurities in the reactants, which can alter the reaction enthalpies and thus the results of the experiment.
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What is the problems in contact process (sulphuric acids)
The problems in contact process are Catalyst Deactivation, Corrosion, Environmental Impact and Safety Concerns.
Explain the problems faced in contact process?The Contact Process is a widely-used method for producing sulfuric acid, which is one of the most important industrial chemicals. However, there are several problems associated with the Contact Process:
(1) Catalyst Deactivation: The Contact Process requires the use of a catalyst, typically vanadium pentoxide (V₂O₅), to increase the rate of the reaction. However, over time the catalyst can become deactivated due to impurities in the reactants or the formation of a coating on the catalyst surface. This can reduce the efficiency of the process and require expensive catalyst replacement.
(2) Corrosion: The reaction between sulfur dioxide (SO₂) and oxygen (O₂) to form sulfur trioxide (SO₃) is highly exothermic and produces heat, which can cause corrosion of the reaction vessel and associated equipment. This can lead to leaks, failures, and other safety hazards.
(3) Environmental Impact: The Contact Process produces large quantities of sulfur dioxide, which is a major contributor to acid rain and other environmental problems. In addition, the process consumes large amounts of energy and produces greenhouse gases, contributing to climate change.
(4) Safety Concerns: The Contact Process involves the handling of hazardous materials, including sulfur dioxide, sulfur trioxide, and sulfuric acid. These materials can pose significant health and safety risks to workers and the surrounding environment if not handled properly.
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WILL GIVE BRANLIEST + 25 POINTS
Balance [tex]Fe+ O_{2} =Fe_2O[/tex] and calculate how many molecules [tex]Fe_2O[/tex] has if given 3.5 g Fe or 2.28 g [tex]O_2[/tex] (do both).
If given 3.5 g Fe, 1.88 × 10²² molecules of Fe₂O₃ are produced, and if given 2.28 g O₂, 2.86 × 10²² molecules of Fe₂O₃ are produced.
Balanced chemical equation for the reaction between iron (Fe) and oxygen (O₂) to form iron oxide (Fe₂O) is;
4Fe + 3O₂ → 2Fe₂O₃
To calculate how many molecules of Fe₂O₃ are produced from 3.5 g Fe or 2.28 g O₂, we need to use the molar mass of Fe and O₂ and the stoichiometry of the balanced equation.
Molar mass of Fe = 55.85 g/mol
Molar mass of O₂ = 32 g/mol
Using these values, we can calculate the number of moles of Fe and O₂;
Number of moles of Fe = 3.5 g / 55.85 g/mol = 0.0626 mol
Number of moles of O₂ = 2.28 g / 32 g/mol = 0.0713 mol
Now we can use the balanced equation to determine the number of moles of Fe₂O₃ produced;
4Fe + 3O₂ → 2Fe₂O₃
4 moles Fe produces 2 moles Fe₂O₃
So, the number of moles of Fe₂O₃ produced from 3.5 g Fe is;
0.0626 mol Fe × (2 mol Fe₂O₃ / 4 mol Fe) = 0.0313 mol Fe2O3
And the number of moles of Fe₂O₃ produced from 2.28 g O₂ is;
0.0713 mol O₂ × (2 mol Fe₂O₃ / 3 mol O₂) = 0.0475 mol Fe₂O₃
To calculate the number of molecules of Fe₂O₃, we can use Avogadro's number;
1 mole = 6.022 × 10²³ molecules
So, the number of molecules of Fe₂O₃ produced from 3.5 g Fe is;
0.0313 mol Fe₂O₃ × 6.022 × 10²³ molecules/mol = 1.88 × 10²² molecules
And the number of molecules of Fe₂O₃ produced from 2.28 g O₂ is;
0.0475 mol Fe₂O₃ × 6.022 × 10²³ molecules/mol
= 2.86 × 10²²molecules
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Balance [tex]Fe + O_{2} = Fe_{2}O[/tex] and calculate how many molecules [tex]Fe_{2}O[/tex] has if given 3.5 g Fe or 2.28 g [tex]O_{2}[/tex] (do both).
Balancing equation [tex]Fe + O_2 = Fe_2O: 4 Fe + 3 O_2 = 2 Fe_2O_3[/tex]
The number of molecules of [tex]Fe_2O[/tex] produced from 3.5 g of Fe:
[tex]1.88 * 10^{22} molecules[/tex] and from 2.28 g [tex]O_2[/tex] is [tex]2.86 * 10^{22[/tex] molecules.
We need to first convert mass of Fe to moles, using its molar mass 55.85 g/mol:
moles of Fe [tex]= 3.5 g / 55.85 g/ mol = 0.0626\ mol[/tex]
We can see that 2 moles of [tex]Fe_2O[/tex] are produced for every 4 moles of Fe, or equivalently, 1 mole [tex]Fe_2O[/tex] is produced for every 2 moles Fe.
Therefore, the number of moles of [tex]Fe_2O[/tex] produced from 0.0626 mol of Fe is:
moles of [tex]Fe_2O[/tex] = 0.0626 mol / 2 = 0.0313 mol
We can use Avogadro's number:
[tex]1 mol = 6.022 * 10^{23}\ particles[/tex]
number of molecules [tex]Fe_2O[/tex] =[tex]0.0313\ mol * 6.022 * 10^{23[/tex]
molecules/mol = [tex]1.88 * 10^{22[/tex] molecules
Converting mass of [tex]O_2[/tex] to moles:
moles of [tex]O_2[/tex] =[tex]2.28 g / 32.00 g/mol = 0.0713 mol[/tex]
Number of moles of [tex]Fe_2O[/tex] produced from 0.0713 mol of [tex]O_2[/tex] is:
moles of [tex]Fe_2O[/tex] =[tex]2/3 * 0.0713\ mol = 0.0475\ mol[/tex]
number of molecules of [tex]Fe_2O[/tex] = [tex]0.0475\ mol * 6.022 * 10^{23[/tex]
molecules =[tex]2.86 * 10^{22} molecules[/tex]
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in the reaction
MnO2 + 4HCl -> MnCl2 + 2H2O + Cl
[a] name the substance oxidised
[b] name the oxidising agent
[c] name the substance reduced
[d] name the reducing agent
Write the balanced molecular chemical equation for the reaction in aqueous solution for sodium hydroxide and tin (IV) acetate. If no reaction occurs, simply write only NR.
Be sure to include the proper phases for all species within the reaction.
The balanced molecular chemical equation for the reaction in aqueous solution for sodium hydroxide and tin (IV) acetate is 4 NaOH (aq) + Sn (CH[tex]_3[/tex]COO) (aq) → Sn (OH)(s) + 4 CH[tex]_3[/tex]COONa (aq) .
An equation per a chemical reaction is said to be balanced if both the reactants plus the products have the same number of atoms and total charge for each component of the reaction. In other words, each component of the reaction have an equal balance of mass and charge. The balanced molecular chemical equation for the reaction in aqueous solution for sodium hydroxide and tin (IV) acetate is 4 NaOH (aq) + Sn (CH[tex]_3[/tex]COO) (aq) → Sn (OH)(s) + 4 CH[tex]_3[/tex]COONa (aq) .
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How would the percent yield of the reaction be affected (higher, lower or no change) if some sodium bicarbonate is left unreacted? Explain.
Answer:
Explanation:
Ah, the unpredictable nature of chemical reactions - always keeping us on our toes! If some sodium bicarbonate is left unreacted in a chemical reaction, it can certainly have an impact on the percent yield of the reaction.
Now, let's get a little bit technical. Percent yield is a measure of the efficiency of a chemical reaction, and it's calculated by comparing the actual yield of the reaction (i.e., the amount of product actually obtained) to the theoretical yield of the reaction (i.e., the amount of product that should be obtained based on stoichiometry). The formula for percent yield is:
Percent yield = (actual yield / theoretical yield) x 100%
If some sodium bicarbonate is left unreacted, it means that there was not enough reactant available to fully consume all of the other reactants and produce the maximum possible amount of product. As a result, the actual yield of the reaction will be lower than the theoretical yield, and the percent yield will also be lower.
In other words, if there is unreacted sodium bicarbonate in a reaction mixture, the percent yield of the reaction will be lower than it would be if all of the reactants were consumed completely. This is because the presence of unreacted sodium bicarbonate means that some of the other reactants did not have the opportunity to react fully and produce the maximum amount of product.
So, in short, if some sodium bicarbonate is left unreacted in a chemical reaction, the percent yield of the reaction will be lower. But hey, chemistry is all about experimentation and learning from our mistakes, so there's always room for improvement in the next reaction!
___________ is described as a metal, while __________ is described as a metalloid?
A) nitrogen, iron
B) fluorine, lithium
C) argon, sodium
D) strontium, silicon
Answer:
D) strontium, silicon
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