The correct answer is option (A). The theoretical yield of hydrogen (H₂) is approximately 1.11 g.
To find the theoretical yield of hydrogen gas (H₂) produced in this reaction, follow these steps:
1. Determine the molar mass of HCl:
- The molar mass of HCl = 1.01 g/mol (for H) + 35.45 g/mol (for Cl) = 36.46 g/mol.
2. Calculate the number of moles of HCl in 40.0 g:
[tex]\text{moles of HCl} = \frac{40.0 \, \text{g}}{36.46 \, \text{g/mol}} = 1.095 \ moles[/tex]
3. Using the stoichiometry of the balanced equation:
For every 2 moles of HCl, 1 mole of H₂ is produced.
Therefore, moles of H₂ produced = [tex]\frac{1.095 \, \text{moles of HCl}}{2} = 0.5475 \ moles \ of \ H_2[/tex].
4. Determine the molar mass of H₂:
- The molar mass of H₂ = 2.016 g/mol.
5. Calculate the theoretical yield of H₂ in grams:
[tex]{mass\ of {H_2}} = 0.5475 \times 2.016 = 1.103824 g[/tex]
6. Round to the nearest gram: - 1.11 g
So, the theoretical yield of hydrogen gas is approximately: A) 1.11 g
The complete question is:
Consider the balanced equation. [tex]2HCl + Mg \rightarrow MgCl_2 + H_2[/tex] if 40.0 g of HCl react with an excess of magnesium metal, what is the theoretical yield of hydrogen?
A) 1.11 g
B) 2.22 g
C) 52.2 g 1
D) 104 g
How many liters of a 0.30M solution are needed to give 2.7 moles of solute?
Final answer:
To find the volume of a 0.30M solution needed for 2.7 moles of solute, use the formula Volume = moles / Molarity. The result is 9 liters.
Explanation:
The question asks to calculate the volume of a 0.30M solution required to obtain 2.7 moles of solute. Using the formula for molarity (M = moles of solute / liters of solution), we rearrange the formula to solve for the volume (liters) of the solution:
Volume (L) = moles of solute / Molarity (M)
Plugging into the formula:
Volume (L) = 2.7 moles / 0.30M
This gives us:
Volume (L) = 9 Liters
To verify, we multiply the calculated volume by the given molarity:
2.7 moles = 9 Liters * 0.30M
The calculation confirms that 9 Liters of a 0.30M solution contains 2.7 moles of solute, so the answer is correct.
What is the molality of a solution that contains 75.2 grams of AgClO4 in 885 grams of benzene?
A.) 0.41 m
B.) 8.20 m
C.) 4.10 m
D.) 0.83 m
Final answer:
The molality of a solution containing 75.2 grams of AgClO₄ in 885 grams of benzene is approximately 0.41 m, following calculations based on molar mass and the definition of molality.
Explanation:
To find the molality of a solution that contains 75.2 grams of AgClO₄ in 885 grams of benzene, one must first calculate the number of moles of AgClO₄ present.
The molar mass of AgClO₄ (Ag=107.87, Cl=35.45, O=16.00) is approximately 207.87 g/mol. Therefore, the moles of AgClO₄ are 75.2 g / 207.87 g/mol = 0.362 moles.
Since molality (m) is defined as moles of solute per kilogram of solvent, and the mass of benzene is given in grams, we must convert this to kilograms (885 g = 0.885 kg).
Thus, molality = 0.362 moles / 0.885 kg = 0.409 m, which rounds off to approximately 0.41 m, option A).
The molality of a solution with 75.2 grams of AgClO4 in 885 grams of benzene is calculated to be approximately 0.383 m. The answer closest to the calculation is 0.41 m, which is choice A.
Explanation:Calculating Molality
To find the molality of a solution containing 75.2 grams of AgClO4 in 885 grams of benzene, we need to use the formula:
molality (m) = moles of solute / kilograms of solventFirst, calculate the number of moles of AgClO4 by using its molar mass:
Molar mass of AgClO4 = 143.321 (Ag) + 35.453 (Cl) + 4*(15.999 (O)) = 221.722 g/mol
Moles of AgClO4 = 75.2 g / 221.722 g/mol = 0.339 moles
Next, convert the mass of the benzene solvent into kilograms:
885 g = 0.885 kg
Now, divide the moles of AgClO4 by the kilograms of benzene:
Molality = 0.339 moles / 0.885 kg = 0.383 m
Looking at the answer choices, the closest value is 0.41 m, which is choice A. Therefore, the correct answer to the student's question is A.) 0.41 m.
What id the volume if a gas if I have 0.215 moles if gas at a temperature of 75 K and a pressure if 182.34KPa?
According to the concept of the tragedy of the commons, what happens to shared resources over time?
A. They are safeguarded.
B. They are sold for profit.
C. They are protected from degradation.
D. They are depleted.
According to the concept of the Tragedy of the Commons, shared resources over time: D. would become depleted.
What is Tragedy of the Commons?Tragedy of the Commons refers to an economic situation in which individuals with access to a shared resource act in their own selfish interest while retroactively depleting this resource.
This ultimately implies that, the Tragedy of the Commons is an economic problem which is caused due to overconsumption by individuals sharing a common resource and it eventually leads to the depletion of the resource.
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How many oxygen atoms are there in 6.00 g of sodium dichromate, na2cr2o7?
Final answer:
approximately 9.69 × 10^23 oxygen atoms in 6.00 g of sodium dichromate.
Explanation:
to calculate the number of moles of Na2Cr2O7 in 6.00 g and then use this information to find the number of oxygen atoms. First, calculate the molar mass of Na2Cr2O7. Sodium (Na) has an atomic mass of about 23.0 g/mol, chromium (Cr) is roughly 52.0 g/mol, and oxygen (O) is 16.0 g/mol. Therefore, the molar mass of Na2Cr2O7 is (2×23.0) + (2×52.0) + (7×16.0) = 262.0 g/mol. To find the moles of Na2Cr2O7 in 6.00 g, use the formula: Moles = mass (g) / molar mass (g/mol), which gives us 6.00 g / 262.0 g/mol = 0.0229 mol.
Since Na2Cr2O7 contains 7 oxygen atoms per formula unit, the total number of oxygen atoms in 6.00 g of Na2Cr2O7 is 0.0229 mol × (7 atoms/mol) × (6.022 × 1023 atoms/mol) = 9.69 × 1023 oxygen atoms.
How much caco3 is produced if 47.5 moles nh3 are produced?
Final answer:
When 47.5 moles of NH₃ are produced in the given reaction, 23.75 moles of CaCO₃ are produced; when calculating the mass, it equates to 2375 grams of CaCO₃, which is approximately option 6, 2380 g, after rounding.
Explanation:
To calculate how much CaCO₃ is produced if 47.5 moles of NH₃ are produced, we need to use the stoichiometry of the balanced chemical equation: CaCN₂ + 3 H₂O → CaCO₃ + 2 NH₃.
According to the equation, the production of 2 moles of NH₃ corresponds to the production of 1 mole of CaCO₃. To find the amount of CaCO₃ produced from 47.5 moles of NH₃, we perform the following steps:
Divide 47.5 moles of NH₃ by 2 to get the corresponding moles of CaCO₃: 47.5 mol NH₃ ÷ 2 = 23.75 mol CaCO₃.Using the molar mass of CaCO₃ (100 g/mol), we convert the moles of CaCO₃ to grams: 23.75 mol CaCO₃ × 100 g/mol = 2375 g.Therefore, the amount of CaCO₃ produced is 2375 grams, which corresponds to option 6, 2380 g (rounded to the nearest ten due to significant figures).
CHEMISTRY HELP!:
Neon has an average atomic mass of 20.2 g/mol, whereas argon has an average atomic mass of 40.0 g/mol. How would the number of atoms in a 1.0 mol sample of neon compare to the number of atoms in a 4.0 mol sample of argon? (2 points)
A. The argon sample would have the same number of atoms as the neon sample.
B. The argon sample would have twice as many atoms as the neon sample.
C. The argon sample would have four times as many atoms as the neon sample.
D. The argon sample would have eight times as many atoms as the neon sample.
Answer: C. The argon sample would have four times as many atoms as the neon sample.
Explanation:
According to avogadro's law, 1 mole of every substance weighs equal to the molecular mass and contains avogadro's number [tex]6.023\times 10^{23}[/tex] of particles.
1 mole of neon [tex]Ne[/tex] contains=[tex]6.022\times 10^{23[/tex] atoms
1 mole of argon [tex]Ar[/tex] contains=[tex]6.022\times 10^{23[/tex] atoms
Thus 4 moles of argon [tex]Ar[/tex] contains=[tex]\frac{6.022\times 10^{23}}{1}\times 4=24.09\times 10^{23}[/tex] atoms
Thus the argon sample would have four times as many atoms as the neon sample.
Why is sunlight considered a renewable resource?
A colorless, toxic, radioactive gas is called what
Radon is an invisible, odorless noble gas that is released from the ground, emerging from the decay of uranium and thorium in soils. It is chemically inert but radioactively harmful, being a leading cause of lung cancer behind smoking. Radon typically infiltrates buildings through structural openings and can accumulate in enclosed spaces.
Radon is a naturally-occurring, colorless, odorless, and toxic noble gas that is the subject of the question. It emerges from the decay of uranium and thorium found in various soils and can accumulate in indoor environments such as homes. Radon is radioactively unstable and breaks down into other radioactive elements that can damage lung tissue and potentially lead to lung cancer, making it a significant health concern.
Radon is the primary source of indoor air pollution and the second leading cause of lung cancer in the U.S., particularly among nonsmokers. The gas usually enters buildings through cracks in foundations, walls, and floors, and can even be emitted from building materials or water from wells.
It was discovered in 1900 by Friedrich Earns Dorn and originally named niton. The most stable isotope of radon, Radon-222, is an alpha decay product of Radium-226 and is part of the uranium-238 decay chain.
Ionic bonds, such as in sodium chloride, __________.
Explain, in detail, how you convert grams of one substance to grams of something else. Be specific and include each step.
Explanation:
First, I will assume you are asking the procedure to get mass of a substance, after we initiate a chemical reaction. If this is the case, then, let's explain it with an example:
Let's suppose we have the following reaction:
Zn + 2HCl -------> ZnCl₂ + H₂
And we part with 4.55 g of Zinc (Zn). We want to know the mass produced of ZnCl₂.
This is a simple reaction, where we only do conservation of mass. So, to get the mass of ZnCl2, we need to begin with the Zinc first, because we start with that given mass.
the mass of Zinc is 4.55 g. Chemicals reactions are better worked in moles rather than mass, because coefficients in the chemical reaction are in moles. So, in the case of the reaction (Which is already balanced):
Zn + 2HCl -------> ZnCl₂ + H₂
The number 2 that it's behind the HCl represents the theorical moles of that substance, in this case, we need 2 moles of HCl to react with only 1 mole of Zinc. It's 1 mole of Zinc because there are no numbers there, so, we always assume there's a 1 in there.
Now that we know this, let's calculate the moles of Zinc. To do that, we need the molar mass of Zinc. This can be obtained in the exercise or look the periodic table, and search for the Zinc. In this case, the molar mass of Zinc is 65.38 g/mol. So to get the moles:
n = m/MM
Replacing the data:
n = 4.55 g / 65.38 g/mol = 0.0695 moles
These are the moles of Zn reacting in the chemical reaction. Now, we should do some stechiometry. In this case, we can see that, 1 mole of zinc (In the reaction) produces 1 mole of ZnCl2, therefore the moles of Zn obtained, will be the same moles produced of ZnCl2, thus:
moles ZnCl2 = moles Zn = 0.0695 moles
Finally, with the molar mass of ZnCl2, we can calculate the mass. the molar mass of ZnCl2 is 132.29 g/mol so:
m = n * MM
Replacing:
m = 0.0695 * 132.29
m = 9.19 g of ZnCl2
And this is the simple way to obtain the mass of a substance in a reaction
How many moles of H2So4 are in 2.50 L of 4.25 M aqueous solution?
When you burn a log in your fireplace you are converting ________?
Burning a log in a fireplace converts the chemical energy stored in the wood into thermal energy and light, through a process called combustion. Wood stoves and fireplace inserts can offer more efficient and less polluting heating options by releasing fewer particulates.
When you burn a log in your fireplace, you are converting the chemical energy stored in the wood into thermal energy and light. This process is known as combustion, and during combustion, the carbon in wood combines with oxygen in the air to form carbon dioxide. Along with carbon dioxide, water vapor, and other gases, a significant amount of thermal energy is released, which provides heat to your home.
The burning of wood for home heating is a form of energy transformation where the potential energy stored within the wood's molecular bonds is released. Modern wood stoves and fireplace inserts are designed to burn wood efficiently and release fewer particulates, resulting in a more efficient and less polluting way of heating. However, with traditional fireplaces, much of the heat is lost through the chimney, making them less efficient as a heating source.
Furthermore, as the wood burns and breaks down, it leaves behind hot embers that radiate heat. The glow of these embers is an example of blackbody radiation, where the emitted light and heat are directly related to their temperature. This radiant energy contributes to the warming effect of a fire.
How would an increase in total expenditures affect the nation's economy? A. It would cause an expansion. B. It would cause stagnation. C. It would cause a recession. D. It would cause a trade surplus.
Answer:
A. It would cause an expansion
Explanation:
Study Island told me the answer ;)
An increase in total expenditures affect the nation's economy as It would cause an expansion. Hence , Option (A) is correct.
What is Total Expenditure ?
Total Expenditure is the sum of the price paid for one or more products or services multiplied by the amount of each item purchased.
Expansion of total expenditure is that extends the capacity of an existing asset to provide benefits to new users at the same standard as is provided to existing beneficiaries.
Therefore, An increase in total expenditures affect the nation's economy as It would cause an expansion. Hence , Option (A) is correct.
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How much solar radiation is reflected back by clouds? 5 percent
10 percent
19 percent
30 percent
for acidic solutions, which element is added to balance half-reactions
When substances are different from the starting substances, ______ has occurred. a physical change a chemical change no change a mass change
Answer : The correct option is, Chemical change.
Explanation :
Physical change : It is a change in which there is no new compound or substance is formed. In this, changes occurs only in the phase. This change is reversible in nature.
For example : Water boiled : It is a physical change because in this process only phase changes from liquid state to gaseous state.
Chemical change : It is a change in which a new or different compound or substance is formed and releases some amount of energy. There is no changes occurs in the phase. This change is irreversible in nature.
For example : Marshmallows browned : It is a chemical change due to the burning of sugar. In the sugar burning process, sugar react with oxygen to give carbon dioxide and water as a product.
As per question, when the substances are different from the starting substances, chemical change has occurred.
Hence, the correct option is, Chemical change.
can you help me with this one as well. Owning a swimming pool requires making sure that the pH of the pool water is between 7.0 and 7.6, because it is the optimal pH for swimmers health. Which factors might cause the pH of the water to change
Your mass on the moon would be __________________________________ it is on the earth.
greater than
less than
the same as
it would remain the same as
Which term is defined as the change in the direction of light when it goes from one medium into a different medium?
Question options:
Reflection
Refraction
Diffraction
Absorption
it is b refraction bro.
I looked in science book.
TRUST ME.
The following reaction is balanced, True or False? P4 + 2 O2 → 2 P2O3 True False
Watersheds are sloped areas of land that ?
A. Channel precipitation runoff into bodies of water
B. Do not allow water to soak into the ground
C. Allow the aquifers to be recharged
Lead has more valence electrons than carbon.
A- True
B- False
The statement "Lead has more valence electrons than carbon" is absolutely false.
What are Valence electrons?Valence electrons may be defined as the number of electrons that are present in the outermost shell of any atom. These electrons actively take part in the formation of chemical bonds.
For example, Sodium has atomic number 11. Its electronic configuration is 2, 8, 1. One electron is significantly present in the outermost shell, so the number of valence electrons in a sodium atom is 1.
Lead is an element that belongs to group number 4A. Though it is a member of group 4A, it has four valence electrons. Carbon has an atomic number of 6, its electrons are distributed like 2 electrons in K-shell and 4 electrons in the L-shell. L-shell is an outermost shell. Therefore, carbon also possesses the number of valence electrons four.
Therefore, the statement "Lead has more valence electrons than carbon" is absolutely false.
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Suppose a salt and a glucose solution are separated by a membrane that is permeable to water but not to the solutes. the nacl solution has a concentration of 1.95 g per 250 ml of water (molecular weight = 58.5). the glucose solution has a concentration of 9.0 g per 250 ml of water (molecular weight = 180). calculate the molality, millimolality, and milliosmolality of both solutions. state whether osmosis will occur and, if it will, in which direction. explain your answer.
The molality, millimolality, and milliosmolality of the solutions are calculated. Osmosis will occur between the solutions, with water moving from the glucose solution to the NaCl solution.
Explanation:To calculate the molality, millimolality, and milliosmolality of the solutions, we will use the formulas:
Molality (m) = moles of solute / mass of solvent in kg
Millimolality (mm) = millimoles of solute / mass of solvent in kg
Milliosmolality (mOsm) = milliosmoles of solute / mass of solvent in kg
For the NaCl solution:
Molality = 1.95 g / (250 g + 9.0 g) = 1.95 g / 259 g = 0.00752 mMillimolality = (1.95 g / 58.5 g/mol) / (250 g + 9.0 g) = 0.0334 mmMilliosmolality = (1.95 g / 58.5 g/mol) / (250 g + 9.0 g) = 33.4 mOsmFor the glucose solution:
Molality = 9.0 g / (250 g + 1.95 g) = 9.0 g / 251.95 g = 0.0357 mMillimolality = (9.0 g / 180 g/mol) / (250 g + 1.95 g) = 0.0357 mmMilliosmolality = (9.0 g / 180 g/mol) / (250 g + 1.95 g) = 35.7 mOsmOsmosis will occur between the solutions since there is a difference in solute concentrations. Water molecules will move from the region of lower solute concentration (higher water concentration) to the region of higher solute concentration (lower water concentration). In this case, water will move from the glucose solution to the NaCl solution.
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In the reaction below, hydrogen peroxide decomposes to water. MM H2O2 = 34.02 g/mol MM H2O = 18.02 g/mol MM O2 = 32 g/mol 2H2O2 → 2H2O + O2 If 14.3 moles of H2O2 is decomposed, how many grams of oxygen gas are produced? Show ALL your work to get full credit.
A supersaturated solution ________. a supersaturated solution ________. has the capacity to dissolve more solute contains no double bonds will rapidly precipitate if a seed crystal is added cannot be attained contains dissolved solute in equilibrium with undissolved solute
Final answer:
A supersaturated solution is a solution that contains more solute than can normally be dissolved at a given temperature. When a seed crystal is added, the excess solute in the supersaturated solution can recrystallize.
Explanation:
A supersaturated solution is a solution that contains more than the maximum amount of solute that is capable of being dissolved at a given temperature. When a seed crystal is added to the solution, a supersaturated solution can recrystallize.
Which state of matter has a definite volume and takes the shape of its container
Answer:
Liquid
Explanation:
Solids have definite shape and definite volume. Since, they have a definite shape, they do not take the shape of the container they are kept in.
Liquids do not have a definite shape but have a definite volume. So, they take the shape of the container they are kept in. You can pour them into a bottle, a glass, or even a polybag. They will take the shape of the container they are kept in.
Gasses neither have a definite shape or a definite volume. So, they also take the shape of the container they are kept in but they do not have a definite volume either.
Therefore, the answer is "Liquid".
If one has a solution of 0.10 m silver nitrate and it is diluted by a factor of two, what is the new concentration
Final answer:
When a 0.10 M silver nitrate solution is diluted by a factor of two, the new concentration becomes 0.05 M. This is calculated by halving the original concentration because the volume of the solution has doubled.
Explanation:
If one starts with a solution of 0.10 M silver nitrate (AgNO3) and it is diluted by a factor of two, the process of dilution reduces the concentration of the solution by half. Therefore, the new concentration of the silver nitrate solution after dilution will be 0.05 M. This is because when the volume of a solution is doubled (which is what happens when a solution is diluted by a factor of two), the concentration is halved assuming that the amount of solute remains constant.
To calculate the new concentration after dilution, one could use the equation C1V1 = C2V2, where C1 and V1 are the original concentration and volume respectively, and C2 and V2 are the concentration and volume of the diluted solution respectively. Since the volume is doubled, V2 = 2V1, thus the equation can be simplified to C1 = 2C2, leading to the new concentration C2 = C1/2.
The initial concentration of 0.10 M silver nitrate is diluted by a factor of two, resulting in a new concentration of 0.05 M.
In order to find the new concentration after dilution, you can use the dilution formula: C1V1 = C2V2Where C1 is the initial concentration (0.10 M), V1 is the initial volume, C2 is the final concentration, and V2 is the final volume. Because the solution is diluted by a factor of two, V2 is twice V1. Therefore, we can simplify the problem: C2 = C1 / 2
Substituting the given values:
C2 = 0.10 M / 2 = 0.05 M
So, the new concentration of the silver nitrate solution after dilution is 0.05 M.
When atoms are split, from which part of the atom is the energy released?
nucleus
electrons
isotopes
Answer- Answer for this is nucleus.
Explanation- Reaction called fission reaction is done to split the atom. When an atom splits due to this reaction a lot of energy is generated from the nucleus of the atom.
The nucleus contains protons and neutrons and when the atom is bombarded with particles the electrons, neutrons, and protons present in an atom split and the nucleus of the atom produces a large amount of energy that is in the form of heat. Some more particles are formed during this process which needs to be disposed properly.
Answer:
nucleus
Explanation:
In 2015, a panel found that labeling the country of origin on meat products gives an unfair advantage to products made in the United States over those coming from another country. This panel was probably from which of the following?
A. The Convention on International Trade in Endangered Species
B. The Convention on Biological Diversity
C. The Ramsar Convention
D. The World Trade Organization
Answer:
D. The World Trade Organization
Explanation:
The purpose of the World Trade Organization is to establish a common institutional framework to regulate trade relations between its various Members, to establish a mechanism for the peaceful settlement of trade disputes on the basis of the trade agreements currently in force and to create an environment negotiation of new trade agreements between Members.
Thus, we can conclude that if a country is producing packaging of a commercial product that is taking advantage of the product of other countries, this should be discussed at a meeting of the World Trade Organization.