Answer:
3: Atoms X and Y will have a smaller atomic mass than atom Z
7: Fissile
8: It is used in nuclear power plants
Explanation:
3
The process of nuclear fission is where one unstable atom (in this case atom Z) splits into two smaller atoms (atoms X and Y) and releases energy in the form of radiation.
Hence, the combined atomic mass of X and Y cannot be grater than the mass of atom Z, fission does not need to be at high temperatures to take place, and the mass of element X will never equal the mass of element Z.
7
In nuclear fission, the energy is produced by the decay of radioactive elements, and that energy can not be obtained by combustion. Stable elements will not undergo fission, and low mass elements tend to be very stable too.
8
The energy produced from nuclear fission is not always controllable, that is why disasters such as nuclear meltdowns happen, because the energy output cannot be controlled. The atoms in the sun undergo fusion, and not fission. Once again, nuclear fission does not require high temperatures (nuclear fusion does, hence why the sun has such a high temperature).
Based on the entries in the following table, which element is most commonly bonded to the acidic hydrogen? table some weak acids in water at 25 ∘c
Final answer:
Hydrogen bonding in acids, solvation energy terms, and the impact of strong acids on conjugate bases are crucial concepts in understanding acid dissociation and acid-base behavior in solution.
Explanation:
Hydrogen bonding occurs when a hydrogen atom, part of a polar covalent bond, is bonded to a more electronegative atom. In the case of acids, hydrogen bonds form between the hydrogen atom of the acid (H-A) and water molecules. This results in the acid dissociation process, where the acid molecule becomes an anion.
Solvation energy terms play a crucial role in driving hydrogen ion transfer in solution. Despite thermodynamic considerations indicating that most strong Brønsted acids should not act as acids towards water, solvation energy terms, aided by entropic effects, drive hydrogen ion transfer in solution.
In general, strong acids form very weak conjugate bases, while weak acids form stronger conjugate bases. Water has a leveling effect on dissolved acids, generating hydronium and hydroxide ions, the strongest acid and base in water.
What is the estimated effective nuclear charge, Z eff, experienced by an electron in a 3p orbital of a chlorine atom?
a. -1
b. 5
c. 7
d. 17,
The estimated effective nuclear charge (Zeff) experienced by an electron in the 3p orbital of a chlorine atom is approximately 7, as inner electrons shield the nucleus' full charge of 17. This is derived from considering the electron configuration of chlorine and the shielding effects provided by inner electrons.
Explanation:The question is asking about the effective nuclear charge (Zeff) experienced by an electron in the 3p orbital of a chlorine atom. The effective nuclear charge is the net positive charge an electron feels after accounting for the shielding effect of the other electrons. A neutral chlorine atom has an atomic number of 17, which means there are 17 protons in the nucleus. However, the effective nuclear charge felt by an electron in the 3p orbital is not the full charge of 17 due to the shielding of the electrons in closer orbitals.
The electron configuration of a neutral chlorine atom is 1s22s22p63s23p5. The 10 electrons in the 1s, 2s, and 2p orbitals shield the 3p electrons from the full nuclear charge. Using Slater's rules, one can estimate the effective nuclear charge felt by a 3p electron. The value of Zeff is typically between 1 and the actual nuclear charge (Z), which is 17 for chlorine. The exact Zeff would require taking into account the actual amount of shielding provided by the inner electrons, which tends to be a complex calculation considering electron-electron interactions and the distribution of electron density.
However, based on Slater's rules and shielding effects, a rough estimate for the Zeff would be closer to the chlorine's atomic number (17) than to 1, making options a (-1) and b (5) incorrect. Since the 10 inner electrons shield the nuclear charge, a reasonable estimate for Zeff for a 3p electron in chlorine might be around 7 (17 nuclear charge - 10 shielding electrons), but advanced calculations are required for a precise value. Therefore, answer choice c (7) seems to be the most appropriate estimate based on basic principles.
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According to Ampere, which of the following sets of current-carrying wires would repel each other? The arrow point indicates the direction of the current in each wire.
Answer: Option (c) is the correct answer.
Explanation:
When current passes through a wire then a magnetic field is formed. Therefore, when two wires carry current in the same direction then both the wires with have respective magnetic fields in the same direction and their total magnetic field will be large.
But when current between two wires flow in opposite direction then the magnetic field produced will also be in opposite direction. Therefore, both the magnetic fields cancel each other out. Thus, total magnetic field will be small.
As a result, wires which carry current in the opposite direction repel each other.
Which best describes the reducing agent in the reaction below?
Cl2(aq)+2Br-(aq)-------->2Cl-(aq)+Br2(aq)
A.Bromine (Br) loses an electron, so it is the reducing agent.
B.Bromine (Br) gains an electron, so it is the reducing agent.
C.Chlorine (Cl) loses an electron, so it is the reducing agent.
D.Chlorine (Cl) gains an electron, so it is the reducing agent.
Answer:
A on edg is the correct answer
Explanation:
what astronomical equiptment did hypatia use?
What's the difference between cracking and pyrolysis? (in organic chemistry).,
Many manufacturing processes involve chemical reactions that reach equilibrium. Why would chemists adjust conditions to favor the forward reaction in a process
Which is an advantage of using chemical indicators?
A. They are inexpensive to use.
B. They have very limited use.
C. They require the use of electricity.
D. They change color at specific temperatures.,
Answer: The answer is A....... they are inexpensive to use
Explanation: got it right on Edge
Among teenagers, what is the most commonly used substance?
0 ml of a 1.20 m solution is diluted to a total volume of 228 ml. a 114-ml portion of that solution is diluted by adding 111 ml of water. what is the final concentration? assume the volumes are additive.
The final concentration of the solution after the described dilution process is approximately 0.00855 M.
Let's first ascertain the original dilution's concentration. Using the dilution equation:
[tex]C_1V_1 = C_2V_2[/tex]Where:
C₁ = 1.20 M (initial concentration)V₁ = 0 mlV₂ = 228 mlC₂ = final concentration after the first dilutionSince 0 ml is a typo, let us assume the starting volume V₁ is enough such as 1 mL. Plugging in the values:
(1.20 M)(1 ml) = (C₂)(228 ml)C₂ = 1.20 / 228Now, calculate the concentration after the second dilution:
V₁ = 114 mlV₂ = 114 ml + 111 ml = 225 mlUsing the intermediate solution:
[tex]C_1V_1 = C_2V_2[/tex]
The final concentration after the second dilution is about 0.00855 M.
Consider the following reaction. 2Fe2O3 --> 4Fe + 3O2 deltaH = +824.2KJ The formation of 42.0 g of O2 results in? 1) the absorption of 361 kJ of heat. 2) the absorption of 11500 kJ of heat. 3) the absorption of 1080 kJ of heat.
The formation of oxygen in the reaction, the absorption of 361 kJ of heat takes place.
The heat of formation of oxygen will be
[tex]\rm \Delta H[/tex] is +824.2 kJ.
The positive sign of H denotes that the reaction accepts energy from the surroundings. It is an endothermic reaction.
In the reaction the % formation of Oxygen is :
Total product formed = 7 moles
Oxygen formed = 3 moles
% Oxygen formed = [tex]\rm \frac{3}{7}\;\times\;100[/tex]
% oxygen formed = 42.85 %
The total enthalpy for the formation of product is +824.2 kJ.
The enthalpy for the formation of 42.85 % Oxygen = +824.2 [tex]\times[/tex] 42.85 / 100 kJ.
The enthalpy of the formation of oxygen in the reaction will be 353.22 kJ.
The closest is 361 kJ.
So, for the formation of oxygen in the reaction, the absorption of 361 kJ of heat takes place.
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Who wants a metal?
Which best compares 1 mol of sodium chloride to 1 mol of aluminum chloride?
Both have the same molar mass.
Both have the same number of ions.
Both are made up of 6.02 x 10^23 molecules.
Both are made up of 6.02 x 10^23 formula units.,
Which best compares 1 mol of sodium chloride to 1 mol of aluminum chloride?
A. Both have the same molar mass.
B. Both have the same number of ions.
C. Both are made up of 6.02 mc014-1 1023 molecules.
D. Both are made up of 6.02 mc014-2 1023 formula units.
The correct answer on E.D.G is ---Both are made up of 6.02 mc014-2 1023 formula units. D
Answer: Option (d) is the correct answer.
Explanation:
A formula unit is basically empirical formula of a compound which tells us how many atoms of one element are combining with how many atoms of another element.
For example, empirical formula of sodium chloride is NaCl. So, basically it shows that one atom of sodium is reacting with one atom of chlorine.
Also according to Avogadro, there are [tex]6.022 \times 10^{23}[/tex] atoms present in 1 mole of each substance.
Thus, we can conclude that both are made up of [tex]6.022 \times 10^{23}[/tex] formula units best compares 1 mol of sodium chloride to 1 mol of aluminum chloride.
For which of the following reactions is ΔH∘rxn equal to ΔH∘f of the product(s)?
You do not need to look up any values to answer this question.
Check all that apply.
Check all that apply.
C(s,graphite)+O2(g)→CO2(g)
Li(s)+12F2(l)→LiF(s)
CO(g)+12O2(g)→CO2(g)
BaCO3(s)→BaO(s)+CO2(g)
2Li(s)+F2(g)→2LiF(s)
Li(s)+12F2(g)→LiF(s)
inal answer:
The reaction C(s, graphite) + O2(g) → CO2(g) is the one where ΔH°rxn equals the ΔH°f of the product, CO2(g), because it forms carbon dioxide from its constituent elements in their standard states. Option A
Explanation:
For an element or compound, the enthalpy change (ΔH) of a reaction that forms it from its elements in their standard states is called the standard enthalpy of formation (ΔH°f).
Therefore, ΔH°rxn is equal to ΔH°f for a reaction that produces a compound directly from its constituent elements in their most stable forms at 1 atm pressure and 25°C (298 K). Examining the provided reactions, the one that fits this description is:
C(s, graphite) + O2(g) → CO2(g)
This reaction forms carbon dioxide (CO2) directly from its elements, carbon in the form of graphite (the most stable form of carbon at standard conditions) and oxygen gas, both of which are in their standard states. Thus, ΔH°rxn for this reaction is equivalent to the ΔH°f of carbon dioxide.
Other reactions listed may be formation reactions, but they introduce compounds like fluorine in liquid form (F2(l)), which is not the standard state of fluorine at 25°C; hence, they do not meet the criteria. Option A
Covalent bonds form between hydrogen and oxygen atoms in a water molecule as a result of:
When writing 6,020,000 in scientific notation, it is correctly written as: 6.02 x 106 6.02 x 10-6 602. x 106 0.602 x 10-8
6.02 x 10^6 is correct it's not negative because youre moving in the positive direction in terms of sci not.
An atom of potassium loses one electron. what does it become a negative potassium, positive potassium
why are more massive atoms smaller?
SHOW WORK!!!!!!!
a) how many meters are there in 5 kilometers.
b) Find the number of milligrams in 0.5 kilograms.
c) Convert 5 meters to kilometers.
d) Find the number of millimeters in 6.98 centimeters.
e) how many meters are equal to 2700. millimeters.
A mothball, composed of naphthalene (c10h8), has a mass of 1.64 g . part a how many naphthalene molecules does it contain?
A balloon contains 0.158 mol of gas and has a volume of 2.46 l. if an additional 0.113 mol of gas is added to the balloon (at the same temperature and pressure), what is its final volume?
Answer is: final volume is 4.21 liters.
Use Avogadro's Law (the Volume Amount Law): If the amount of gas in a container is increased, the volume increases.
The volume-amount fraction will always be the same value if the pressure and temperature remain constant.
V₁ / n₁ = V₂ / n₂.
2.46 l / 0.158 mol = V₂ / 0.271 mol.
V₂ = 4.21 l.
To find the final volume of the balloon, we can use the combined gas law equation. The initial pressure is calculated using the number of moles and volume. This pressure, along with the final number of moles, initial volume, and constant temperature, can be used to find the final volume.
Explanation:To solve this problem, we can use the combined gas law equation (P1V1/T1 = P2V2/T2) which relates the pressure, volume, and temperature of a gas. Since the temperature and pressure remain constant, we can use the equation to find the final volume. First, calculate the initial pressure by dividing the number of moles by the volume. Then substitute the initial pressure, final number of moles, and initial volume into the equation, and solve for the final volume.
Given:
N1 = 0.158 mol
N2 = 0.113 mol
V1 = 2.46 L
V2 = ?
P1 = N1/V1
Substituting the values:
P1 = 0.158 mol / 2.46 L = 0.0642 atm
Now, substitute the values into the combined gas law equation:
P1V1/T1 = P2V2/T2
Solving for V2:
V2 = (P1V1T2) / (P2T1)
Since the temperature and pressure remain constant, we can write the equation as:
V2 = (P1V1) / P2
Substituting the values:
V2 = (0.0642 atm * 2.46 L) / (0.113 mol) = 1.396 L
The final volume of the balloon is 1.396 L.
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Dissolving 25.00 g cucl2 in enough water to make 250 ml of solution gives a solution concentration equal to
The concentration of the solution made by dissolving 25.00 g of CuCl2 in enough water to make 250 mL of solution is 0.74 M.
Explanation:In this question, we are dealing with molarity calculation. The molarity of a solution is determined by the formula: Molarity (M) = moles of solute/volume of solution in liters. But first, we need to convert the mass of CuCl2 into moles. CuCl2 has a molar mass of about 134.45 g/mol. So, we divide 25.00 g CuCl2 by 134.45 g/mol which equals 0.185 moles. The volume of the solution is 250 mL, which we convert to liters to match the units in the molarity formula. This gives us 0.250 L. We now substitute these values into the molarity formula - M = 0.185 moles/0.250 L = 0.74 M. Therefore, the concentration of the solution is 0.74 M.
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If a solid line represents a covalent bond and a dotted line represents intermolecular attraction, which of these choices shows a hydrogen bond?
-O...H-C-
-N...H-O-
-C...H-F-
H-H
The correct option that shows a hydrogen bond is -N...H-O-, as it fits the criterion of hydrogen being covalently bonded to a highly electronegative atom (N) and attracted to a lone pair on another electronegative atom (O) in a neighboring molecule.
Explanation:If a solid line represents a covalent bond and a dotted line represents intermolecular attraction, the choice that shows a hydrogen bond is -N...H-O-. This is because hydrogen bonds are a type of dipole-dipole interaction that occurs when a hydrogen atom is covalently bonded to a highly electronegative atom, such as nitrogen (N), oxygen (O), or fluorine (F), and is attracted to a lone pair of electrons on an atom in a neighboring molecule.
Hydrogen bonds are particularly strong among dipole-dipole interactions, although they are much weaker compared to a covalent bond. Therefore, the correct answer is the one where hydrogen is bonded to nitrogen (which is highly electronegative) and is attracted to oxygen from another molecule, hence forming a hydrogen bond.
When copper (ii) carbonate is heated if forms copper (ii) oxide and carbon dioxide?
Which compound will form an acidic solution when dissolved in water? which compound will form an acidic solution when dissolved in water? nano2 khso4 kbr ba(no3)2?
Among the compounds NaNO2, KHSO4, KBr, and Ba(NO3)2, KHSO4 forms an acidic solution when dissolved in water. It can donate a proton, subsequently increasing the concentration of hydronium ions. The other compounds do not result in an increased concentration of hydronium ions and thus, do not form acidic solutions.
Explanation:When you're determining which of these compounds--NaNO2, KHSO4, KBr, Ba(NO3)2--forms an acidic solution when dissolved in water, it's important to understand how compounds behave in water. Most notably, you should know that an acidic solution contains a greater concentration of hydronium ions (H3O+) than hydroxide ions (OH-).
Sulfuric acid is a diprotic acid, which means it can donate two protons. It forms both sulfates and hydrogen sulfates in solution, and most of these compounds moderate the pH when dissolved in water. Consequently, KHSO4 is the compound that will result in an acidic solution, since upon dissolution, it can donate a proton and thereby increase the concentration of H3O+ ions.
As a note, the other compounds listed (NaNO2, KBr, Ba(NO3)2) do not increase the concentration of H3O+ ions; thus, they won't form acidic solutions. For instance, Ba(NO3)2 in a neutralization reaction with water will form a neutral salt and water.
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Can someone help me please?
If 75.0 g of silderite ore (FeCO3) is heated with an excess of oxygen, 45.0 g of ferric oxide (Fe2O3) is produced.
4feCO3(s) + O2(g) -> 2fe2O3(s) + 4CO2(g)
what is the percent of yield of this reaction?,
Write a formula for the compound that forms from potassium and chromate.
The formula for the compound that forms from potassium and chromate is K2CrO4, and the balanced equation for its dissolution in water is K2CrO4(s) → 2K+(aq) + CrO42-(aq) with the solubility product expression as Ksp = [K+]2 × [CrO42-].
Explanation:The compound that forms from potassium and chromate has the formula K2CrO4. When this compound dissolves in water, it dissociates into ions. The balanced chemical equation representing the dissolution of potassium chromate is:
K2CrO4(s) → 2K+(aq) + CrO42-(aq)
The solubility product expression (Ksp) for this dissolution can be written as follows:
Ksp = [K+]2 × [CrO42-]
The relationship signifies the product of the squared concentration of potassium ions and the concentration of chromate ions is constant at a given temperature. This equilibrium expression is vital in predicting the solubility behavior of the compound in aqueous environments, guiding our understanding of its potential to form precipitates based on ion concentrations in solution.
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If 3.0 moles of x and 4.0 moles of y react according to the hypothetical reaction below, how many moles of the excess reactant will be left over at the end of the reaction? x + 2 y yields xy2
Calculate the mass of water produced when 6.97 g of butane reacts with excess oxygen
what type of rock is sandstone
Sandstone is a type of sedimentary rock. It is formed when sand particles are compacted and cemented together over time. These processes typically occur in sedimentary basins where sand accumulates through various natural actions such as water or wind transportation.
Sandstone forms through a geological process known as lithification. Initially, sand grains are deposited in a variety of earth environments, such as beaches, deserts, or the beds of rivers and oceans. Over time, these grains become buried under layers of more sediment. As the sediment builds up, the weight from the layers above exerts pressure, causing the sand grains to compact tightly. Meanwhile, minerals like silica or calcite present in the water flowing through the spaces between the grains can act as a natural cement, binding the particles together to form a solid rock. Thus, the unique characteristics of sandstone reflect the conditions in which it formed, including the size and composition of the sand grains, and the nature of the cement. Sandstones are particularly noteworthy as they can also serve as reservoirs for water, oil, and gas due to their porosity and permeability.
The mass of an object is found by _____.
comparison with standard mass units
weighing the object
displacing water
measuring the object
that's the answer comparison with standard mass units
Hello!
comparison with standard mass units
is your answer