0.5 moles of sodium chloride is dissolved to make 0.05 liters of solution

Answer:

True

Explanation:

Electromagnetic waves differ from mechanical waves in that they do not require a medium to propagate.

Waves that require medium through which to travel are “electromagnetic waves”? Yes this is “TRUE”

Answer:warm

Explanation: because it is in the southern hemisphere so in the winter while the northern hemisphere is in a cold winter the southern hemisphere is in a warm winter due to it being in the southern hemisphere where temperatures are really warm in the southern hemisphere.

Answer:the answer is warm

Explanation:

Ocean acidification is the process of ocean waters becoming more acidic due to the dissolution of carbon dioxide in the ocean. This decrease in pH negatively affects marine species and the availability of calcium carbonate. If CO2 concentrations continue to rise, coral reefs may become rare by 2050.

Ocean acidification is the process of ocean waters decreasing in pH. Oceans become more acidic as carbon dioxide (CO2) emissions in the atmosphere dissolve in the ocean. This change is measured on the pH scale, with lower values being more acidic. The pH level of the oceans has decreased by approximately 0.1 pH units since pre-industrial times, which is equivalent to a 25% increase in acidity. The pH level of the oceans is projected to decrease even more by the end of the century as CO2 concentrations are expected to increase for the foreseeable future. Ocean acidification adversely affects many marine species, including plankton, mollusks, shellfish, and corals. As ocean acidification increases, the availability of calcium carbonate will decline. Calcium carbonate is a key building block for the shells and skeletons of many marine organisms. If atmospheric CO2 concentrations double, coral calcification rates are projected to decline by more than 30%. If CO2 concentrations continue to rise at their current rate, corals could become rare on tropical and subtropical reefs by 2050.

Final answer:

Ocean acidification, caused by the absorption of atmospheric CO2 into ocean waters forming carbonic acid, is the biological process leading to decreased pH in water surrounding organisms, threatening marine biodiversity and ecosystems.

Explanation:

The biological process that causes the pH of water surrounding an organism to decrease is known as ocean acidification. This process occurs when carbon dioxide (CO2) emitted into the atmosphere dissolves in ocean waters, forming carbonic acid which releases hydrogen ions (H*), thereby lowering the pH and increasing the acidity of the ocean. The ongoing rise in atmospheric CO2 due to activities such as burning fossil fuels and deforestation is accelerating this effect, leading to a significantly more acidic environment that can have detrimental effects on marine life, particularly organisms that rely on calcium carbonate for their shells and skeletons.

Ocean acidification is already having profound impacts on marine ecosystems, notably by reducing the availability of calcium carbonate which is vital for many marine species, including plankton, mollusks, shellfish, and corals. As CO2 levels continue to rise, the pH of the ocean is expected to drop further, endangering the health of coral reefs and the broader marine biodiversity.

Molarity is defined as the number of moles of solutions divided by the volume of the solution in liters

Answer:

Molarity is defined as the number of moles of solutions divided by the volume of the solution in liters

Explanation:

a solution is two substances that are evenly mixed together. One of them is called the solute and the other is the solvent. A solute is the substance to be dissolved (ex: sugar). The solvent is the one doing the dissolving (ex: water).

i learned this in science last year i hope this helped :)

Answer: A solution is made when one substance called the solute “dissolves” into another substance called the solvent.

Explanation:

Dissolving is when the solute breaks up from a larger crystal of molecules into much smaller groups or individual molecules. They do this by pulling away the ions and then surrounding the salt molecules.

Answer:

1.5 moles of H₂SO₄ needs 3.0 moles pf KOH to be neutralized.​

Explanation:

KOH → K⁺ + OH⁻.

H₂SO₄ → 2H⁺ + SO₄²⁻.

So, every 1.0 mole of KOH produces 1.0 mol of OH⁻.

While, every 1.0 mole of H₂SO₄ produces 1.0 mol of H⁺.

Thus, every mol of H₂SO₄ needs 2.0 moles of KOH to be neutralized.

So, 1.5 moles of H₂SO₄ needs (2 x 1.5 mol) = 3.0 moles pf KOH to be neutralized.​

The muddy water and dead fish can be due to soil erosion or sediment runoff, changes in photosynthesis due to excess organic material causing eutrophication, or changes in habitat conditions due to clear-cutting of forests.

The muddiness of the stream and the presence of dead fish could be signs of a phenomenon called soil erosion or sediment runoff. This is where heavy rain washes soil, which can contain toxins or pollutants, into a water source such as a stream. The influx of silt can make the water muddy and unhealthy for aquatic life, leading to the death of fish. Changes or disruptions in the ecosystem such as clear-cutting of forests increase the risk of this erosion since trees and vegetation help to hold the soil in place and buffer waterways.

Another possibility is the change in the stream's photosynthesis processes due to the debris and excess organic materials like leaves being washed into the stream. The increase in organic material can lead to a process called eutrophication, where the decomposition of organic material uses up oxygen in the water, thus suffocating fish and other aquatic species.

The death of fish might also be due to changes in their habitat. Clearing of trees could have changed the temperature of the water as shadows from the tree cover, which kept temperatures lower, no longer exist. Aquatic life such as leeches, trout and other species that have adapted to the previous temperature conditions of the fast-moving water may not survive in the warmer, slower moving water.

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Increased sedimentation from soil erosion due to clear-cutting and heavy rainstorms can lead to murky water, which suffocates fish and disrupts the aquatic food web by reducing visibility needed for predators to find food.

You are in a clear-cut section of forest and you notice a nearby stream is very muddy with many dead fish. This could be due to sedimentation resulting from the recent heavy rainstorm. The clear-cutting of trees can exacerbate soil erosion, leading to increased sediment in the water, which can suffocate fish by clogging their gills or destroying their habitat. This also disrupts the ecosystem, as sediment-laden water can make it difficult for predators such as waterfowl, frogs, and fishes to find food, which often depend on clearer water to hunt using visual cues or chemical cues.

The mudflows and flash flooding caused by the monsoon, further compounded by deforestation, often introduce a large amount of sediment and organic material into waterways, degrading the aquatic environment and affecting the entire aquatic food web.

Explanation:

It is known that atoms that have same number of valence electrons will show similar chemical properties.

So, when we move from left to right across a period there occurs increase in number of valence electrons of each element. But when we move down a group then number of valence electrons remain the same.

Hence, elements of same group will show similar chemical properties.

Therefore, we can conclude that elements marked as 2 and 3 will have similar chemical properties.

Answer : The correct location on the periodic table of two elements have similar characteristics is, two elements present in the second column of the left side

Explanation :

The elements have similar characteristics when they are belong to the same family or group this means that when they are placed in the same column of the periodic table.

The elements of similar characteristics have same number of valence electrons.

In the given periodic table of the elements, the two elements present in the second column of the left side have similar characteristics because these two elements belong to the same family or group. While the other elements have different characteristics.

A nuclear energy is the answer

The diagram above depicts an energy releasing process involving the uranium atom,Nuclear energy is the form of energy that the process depict.

Nuclear energy is the form of energy that depict from the time of above mentioned process.

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the anwer is sulfer since its the only one that bonds with an oxygen atom

Sulfur atom has twice as many protons in it as an oxygen atom. The smallest unit of matter that may be divided without producing electrically charged particles is the atom.

The smallest unit of matter that may be divided without producing electrically charged particles is the atom. It is also the smallest piece of substance with chemical element-like characteristics. As a result, the atom serves as the fundamental unit of chemistry.

Space makes up the majority of an atom. The rest is made up of a cloud of electrons that are negatively charged surrounding a positive charge nucleus made up of protons and neutrons. Compared to electrons, which have been the lightest positive ions in nature, the nucleus appears small but dense. Electric forces, which link electrons to a nucleus of atoms, cause them to be drawn to any positive charge. Sulfur atom has twice as many protons in it as an oxygen atom.

Therefore, Sulfur atom has twice as many protons in it as an oxygen atom.

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Answer:

463.0 g.

Explanation:

n = mass/molar mass.

where, n is the mass of copper(ii) fluoride​ (m = 4.56 mol),

mass of copper(ii) fluoride​ = ??? g.

molar mass of copper(ii) fluoride​ = 101.543 g/mol.

∴ mass of copper(ii) fluoride​ = (n)(molar mass) = (4.56 mol)(101.543 g/mol) = 463.0 g.

Answer:

3.0 mol.

Explanation:

Molaity (m) is defined as the no. of moles of solute per kg of solvent.

m = (no. of moles of solute Ca(NO₃)₂)/(kg of solvent).

∴ no. of moles of solute Ca(NO₃)₂ = (m)(kg of solvent) = (3.0 m)(1.0 kg) = 3.0 mol.

Answer:

C.) Jupiter

LOL ^_^

Explanation:

Answer: C) Jupiter

Explanation:

Answer:

fluorine

Explanation:

fluorine is considered the most electronegative element

Final answer:

The correct answer is "flourine". The most electronegative element is fluorine due to its position at the top right of the periodic table and its electron configuration which is one electron short of a full octet.

Explanation:

The most electronegative element is fluorine. Electronegativity is a measure of an atom's ability to attract and hold onto electrons. In the periodic table, electronegativity increases as you move from left to right across a period and decreases as you move down a group. Therefore, fluorine, which is positioned at the top right of the periodic table (aside from the noble gases), exhibits the highest electronegativity.

Fluorine's high electronegativity is attributed to its atomic electron configuration of 1s² 2s² 2p⁵, making it one electron short of a full octet. This drives its strong tendency to gain electrons from other elements, making it a very strong oxidizing agent. In comparison, hydrogen, while being more electronegative than many other elements, such as carbon, does not approach the electronegativity of fluorine.

Thus, the correct answer to the question is B. fluorine.

Answer:

[tex]\boxed{\text{-862 kJ/mol}}[/tex]

Explanation:

One way to calculate the lattice energy is to use Hess's Law.

The lattice energy U is the energy released when the gaseous ions combine to form a solid ionic crystal:

Li⁺(g) + Cl⁻(g) ⟶ LiCl(s); U = ?

We must generate this reaction rom the equations given.

(1)  Li(s) + ½Cl₂ (g) ⟶ LiCl(s);      ΔHf°     = -409 kJ·mol⁻¹

(2) Li(s) ⟶ Li(g);                          ΔHsub =    161 kJ·mol⁻¹

(3) Cl₂(g) ⟶ 2Cl(g)                     BE        =   243 kJ·mol⁻¹

(4) Li(g) ⟶Li⁺(g) +e⁻                   IE₁         =   520 kJ·mol⁻¹

(5) Cl(g) + e⁻ ⟶ Cl⁻(g)                EA₁       =  -349 kJ·mol⁻¹

Now, we put these equations together to get the lattice energy.

                                                E/kJ  

(5) Li⁺(g) +e⁻ ⟶ Li(g)                520

(6) Li(g) ⟶ Li(s)                         -161

(7) Li(s) + ½Cl₂(g) ⟶ LiCl(s)     -409

(8) Cl(g) ⟶ ½Cl₂(g)                   -121.5

(9) Cl⁻(g) ⟶ Cl(g) + e⁻               +349

      Li⁺(g) +  Cl⁻(g) ⟶ LiCl(s)     -862

The lattice energy of LiCl is [tex]\boxed{\textbf{-862 kJ/mol}}[/tex].

Using the Born-Haber cycle and the provided thermodynamic data, the lattice energy of LiCl is calculated to be -1282 kJ/mol.

The lattice energy of a compound is the energy required to break apart the compound into its constituent ions. It can be calculated using Born-Haber cycle, Hess’s Law and the given thermodynamic data.

ΔH°f[LiCl(s)] = Bond energy [Cl-Cl] + IE1 (Li) - EA1 (Cl) + ΔH°sublimation [Li] + Lattice energy

So, solving for Lattice Energy gives: Lattice energy = ΔH°f[LiCl(s)] - Bond energy [Cl-Cl] - IE1 (Li) + EA1 (Cl) - ΔH°sublimation [Li].

Substituting in the provided values gives: Lattice energy = -409 kJ/mol - 243 kJ/mol - 520 kJ/mol + (-349 kJ/mol) - 161 kJ/mol = -1282 kJ/mol. Therefore, the Lattice Energy of LiCl is -1282 kJ/mol.

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An explosive occurs when Gases expands. Therefore, option A is correct.

The term an explosion is defined as the rapid increase in volume and release of energy extremely.

An incendiary device or a chemical reaction that results in the rapid expansion of gas causes an explosion.

A very loud sound or a succession of noises and sensations, fire, heat, smoke, falling glass, or debris can all be indicators of an explosion.

Three general energy deposition techniques can lead to high explosive reactions, impact ignition by frictional and/or shear heating, bulk thermal heating and shock compression.

When there is a gas leak and a spark or flame are present, a gas explosion happens. Because they are frequently used for heating, gases including natural gas, methane, propane, and butane are the most frequent types of gases to cause explosions.

Thus, option A is correct.

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Answer:

False

Explanation:

The person must be a lawful, permanent resident for five years.

Answer: A

The naturalization criterion that is a requirement for becoming a US citizen is being a lawful, permanent resident for five years. This is part of the naturalization process which includes being at least 18, having good moral character, and proficiency in English.

The requirement for naturalization as a US citizen is: A. The person must be a lawful, permanent resident for five years. This criterion is part of a multi-step naturalization process that most foreign citizens must undergo to become citizens of the United States. An applicant must be at least 18 years of age, be a lawful permanent resident (green card holder), have resided in the United States as a lawful permanent resident for at least five years, have been physically present in the United States for at least 30 months, be a person of good moral character, and be able to speak, read, write and understand the English language. These requirements have evolved over time, with current laws simplifying the process for non-citizens serving in the military and increasing the importance of English language proficiency in the application process.

Answer:Climate is defined as the average state of everyday's weather condition over a period of 30 years.[1][2] It is measured by assessing the patterns of variation in temperature, humidity, atmospheric pressure, wind, precipitation, atmospheric particle count and other meteorological variables in a given region over long periods of time. Climate differs from weather, in that weather only describes the short-term conditions of these variables in a given region.

Explanation:

Answer:

2

Explanation:

The enthalpy change for the overall reaction  is 999 kJ.

To find the enthalpy change for the overall reaction [tex]PCl_{5}[/tex](g) → [tex]PCl_{3}[/tex](g) + [tex]Cl_{2}[/tex](g), we need to combine the given intermediate equations.

The first equation is: [tex]P_{4}[/tex](s) + 6 [tex]Cl_{2}[/tex](g) → 4 [tex]PCl_{3}[/tex](g), with an enthalpy change of Δ[tex]H_{1}[/tex] = -2,439 kJ.

The second equation is: 4 [tex]PCl_{6}[/tex](g) → [tex]P_{4}[/tex](s) + 10 [tex]Cl_{2}[/tex](g), with an enthalpy change of Δ[tex]H_{2}[/tex] = 3,438 kJ.

By reversing the first equation and multiplying the second equation by 4, we can cancel out [tex]P_{4}[/tex] (s) and [tex]Cl_{2}[/tex] (g) to obtain the overall reaction: [tex]PCl_{5}[/tex](g) → [tex]PCl_{3}[/tex](g) + [tex]Cl_{2}[/tex](g).

Since enthalpy change is a state function, we can sum up the enthalpy changes of the intermediate reactions to calculate the enthalpy change for the overall reaction:

Δ[tex]H_{overall}[/tex] = -2,439 kJ + 3,438 kJ = 999 kJ

Answer:

When excited electrons fall to lower energy levels, they can release energy in the form of light. metal ions in the salts used in the flame tests.

Answer:

Dihydrate.

Explanation:

It comprises 2 molecules of H2O (water). This is the correct answer to this question.

Hope this helps!!!

Kyle.

Answer:

Al₂(SO₄)₃ is the excess reactant.

Explanation:

Barium (Ba) react with Aluminium sulphate [Al₂(SO₄)₃] according to the following balanced equation:

It is clear that 3 mol of Ba react with 1 mol of Al₂(SO₄)₃ to give 3 moles of BaSO₄

The limiting reactant is the reactant that produces the least amount of BaSO ₄.

The molar masses of each substance involved.

Ba : 137.3 g/mol

Al₂(SO₄)₃: 342.1 g/mol

BaSO ₄:  233.3 g/mol

Then we calculate no of moles of each reactant from the given mass.

As following:

no. of moles of Ba = (mass /molar mass) = (1 g / 137.3 g/mol) = 0.0073 mol

no. of moles of Al₂(SO₄)₃ = (mass /molar mass)

                                         = (1.8 g / 342.1 g/mol) = 0.0053 mol

Then we calculate mol of product produced from each reactant

For BaSO₄

no of moles of BaSO₄ from Ba = (0.0073 * 3) / 3 = 0.0073 mol

then converting moles of BaSO₄ into mass

mass of BaSO₄ =  no of moles  * molar mass = 0.0073 * 233.3 = 1.7 g

For Al₂(SO₄)₃

no of moles of BaSO₄ from Al₂(SO₄)₃ = (0.0053 * 3) / 1 = 0.0159 mol

then converting moles of BaSO₄ into mass

mass of BaSO₄ =  no of moles  * molar mass = 0.0159 * 233.3 = 3.7 g

∴1 g of Ba  produces the least amount of barium sulfate, so it is the limiting reactant and Al₂(SO₄)₃ is the excess reactant.

Answer:

radiation

Explanation:

Heat transfer is the process of propagating heat in different media. Three types of heat transfer are known: conduction, convection and radiation

The transfer by radiation is given at a distance. In fact, at any distance, as long as there is nothing that absorbs that energy along the way, and does not need a means to propagate.

Chemical potential energy: chemical potential of a species is energy that can be absorbed or released due to a change of the particle number of the given species, in a chemical reaction or phase transition

Gasoline used as kinetic energy: the various chemicals that make up gasoline contain a large amount of chemical potential energy that is released when the gasoline is burned in a controlled way in the engine of the car. The release of that energy does two things. Some of the potential energy is transformed into work, which is used to move the car

Dynamite used as kinetic energy: the dynamite being used was most likely made of nitroglycerin. Once the dynamite explodes from a percussion force (then breaking of weak bonds to releasing the raw atom) the energy is then converted to thermal, kinetic, and sound energy.

Chemical potential energy, stored in molecules, is released during chemical reactions. Both gasoline and dynamite store this energy that, when ignited, is converted into kinetic energy. Gasoline propels cars, whilst dynamite causes explosions.

Chemical potential energy is a form of energy stored in molecules that is released during a chemical reaction. For example, gasoline and dynamite both store chemical potential energy that can be converted into kinetic energy.

Consider gasoline put into a car's engine. It mixes with air and is ignited in the engine's combustion chamber, causing a chemical reaction that releases the gasoline's potential energy. This energy is transformed into kinetic energy, propelling the car forward.

Similarly, dynamite contains chemical potential energy. When ignited, a chemical reaction occurs, releasing this energy. This energy is quickly converted to kinetic energy, causing the explosive force that dynamite is known for.

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Answer:a switch

Explanation:because the electricity will go to the battery to the bell and it will make a sound

To activate the bell in the circuit, connect wire A from the battery to wire B leading to the bell, completing the circuit and allowing electric current to flow, resulting in the bell producing sound vibrations.

To make the bell sound in the circuit:

1. Connect wire A, currently attached to the battery, to wire B, which is connected to the bell.

2. This will complete the circuit and allow the electric current to flow continuously from the battery through the bell.

3. When the circuit is closed by connecting wires A and B, the electric current will pass through the bell, causing it to vibrate and produce a sound.

4. The completion of the circuit enables the electrical energy to power the bell, resulting in its functionality and the production of sound.

Answer:

81.5 L

Explanation:

We can use the combined gas law equation that gives the relationship among pressure, temperature and volume of gases for a fixed amount of gas.

P1V1 / T1 = P2V2 / T2

where P1 - pressure, V1 - volume and T1 - temperature at the first instance

P2 - pressure, V2 - volume and T2 - temperature at the second instance

substituting the values in the equation

1240 Torr x 47.2 L / 298 K = 730 Torr x V2 / 303 K

V2 = 81.5 L

the new volume the gas would occupy when the conditions have changed is 81.5 L

The problem involves using the ideal gas law to find the volume of oxygen gas under different conditions of temperature and pressure. The initial volume of 47.2 liters at 1240 torr and 298K changes to approximately 79.4 liters when the conditions are changed to 730 torr and 303K.

The subject of this question is the application of the ideal gas law, an equation used in physics and chemistry to calculate the properties of gases. The gas law equation is PV = nRT, where 'P' is the pressure, 'V' is the volume, 'n' is the number of moles, 'R' is the gas constant, and 'T' is the temperature. However, since the number of moles and the gas constant doesn't change in our problem, we can simplify it to P1*V1/T1 = P2*V2/T2. This equation is used to solve problems involving changes in pressure, volume, and temperature for a gas.

Given conditions: P1 = 1240 torr, V1 = 47.2 L, T1 = 298K; Required conditions: P2 = 730 torr, T2 = 303K. The volume V2 under the required conditions can be calculated by rearranging the formula to V2 = P1*V1*T2/(P2*T1).

Therefore, if you substitute the corresponding numbers into the formula, you will get V2 = 1240 torr * 47.2 L * 303K / (730 torr * 298K) which results in approximately 79.4 liters.

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Answer:

The atomic radius of krypton is similar to that of bromine. However, the effective nuclear charge of krypton is greater than that of bromine.

Explanation:

Ionizing an atom require moving an electron from the electron cloud of the atom to a point infinitely far away from the atom. The first ionization energy of this atom is the energy change in this process.

The electron and the nucleus are oppositely-charged. There is an electrostatic force between the two. Removing the electron requires overcoming this attraction. The size of the energy input depends on the electrostatic potential energy of the electron (the gravitational potential energy is much smaller than the electrostatic potential energy.) The separation between the electron and the nucleus is much larger than their radii. Both objects can be considered as point charges. Coulomb's Law gives the electrostatic potential energy of the two point charge that are close to each other.

[tex]\displaystyle \text{Electrostatic Potential Energy} = -\frac{k\cdot (q_1\cdot q_2)}{r}[/tex],

where

Krypton and bromine are right next to each other in the same period. Their atomic radii will be similar to each other. The separation [tex]r[/tex] between the outermost electron and the nucleus will also be similar for the two elements.

The first charge [tex]q_1[/tex] can be the electron. However, data show that for elements after helium, the second charge [tex]q_2[/tex] is smaller than the sum of charges on all protons in the nucleus. It turns out that the inner shell electrons (all of which are also negative) repel electrons in the outermost valence shell. The effective nuclear charge [tex]Z_\text{eff}[/tex] of a neutral atom is approximately the same as the number of protons minus the number of non-valence electrons. That number will be slightly larger for krypton than for bromine. As a result, the electrostatic potential energy on a 4p (the outermost orbital for both Kr and Br) electron of krypton will be more negative than that on a 4p electron in bromine. Removing that electron will take more energy in Kr than in Br. The first ionization energy of Kr is hence greater than that of Br.

Answer:

because if krypton has more protons, therefore it has a greater nuclear charge so the electron is harder to remove.

Explanation:

Answer:

Mg

Explanation:

The periodic trend of ionization energy is going from left to right of the periodic table, ionization energy increases. in the periodic table, both magnesium (Mg) and Sodium (Na) fall under the same period.

Na is the found in the left-most end of the period and Mg comes after it. This means that Mg has the higher ionization energy.

Explanation:

Ionization energy is defined as the energy required to remove most loosely bound electron from a gaseous atom or ion.

Larger is the size of atom less energy will be necessary to remove the valence electron because force of attraction will be less between the nucleus and outermost electron.

Hence, it is easy to remove the outermost electron.

Whereas smaller is the size of atom great amount of energy will be required by it to remove the loosely bound electron.

So, when we move down a group there will be increase in size of atoms. Hence, ionization energy decreases.

On the other hand, when we move across a period then there occurs decrease in size of atoms. Hence, ionization energy increases.

As, magnesium is smaller is size than sodium and both of then are same period elements.

Thus, we can conclude that magnesium (Mg) atom has the higher ionization energy.