Using the following equation:
4NH3 +502 --> 4NO + 6H₂O
How many grams of oxygen gas (0₂) are needed to react with 85 grams of ammonia
(NH3)?

According to the question the reaction enthalpy is thus 10610 J / 0.278 moles = 38.3 kJ/mol.

Enthalpy is a thermodynamic property of a system that measures the total energy content of a system. It is a state function that is expressed in terms of internal energy, pressure, and volume of a system. Enthalpy represents the amount of energy that is associated with a chemical reaction or physical change.

The reaction is exothermic, meaning that heat is released during the reaction. The amount of heat released can be calculated with the equation q = mcΔT, where q is the heat released, m is the mass of the solution, c is the specific heat capacity of the solution, and ΔT is the change in temperature of the solution. Using the given data, the amount of heat released by the reaction can be calculated as q = (250 g)(4.184 J/g-K)(11.1 K) = 10610 J. The enthalpy change for the reaction can then be calculated by dividing the heat released by the number of moles of NaOH, which is 11.1 g / 40.00 g/mol = 0.278 moles. The reaction enthalpy is thus 10610 J / 0.278 moles = 38.3 kJ/mol.

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Answer: (a) 8.33x10^24.

Explanation: In the realm of gas thermodynamics, the variables P, V, n, R, and T denote pressure, volume, number of moles of gas, gas constant, and temperature in Kelvin, respectively.

It is feasible to manipulate this equation for the purpose of deducing n, which denotes the quantity of moles of gas.

The equation n = (PV) / (RT) represents the number of moles present in a gas system, where P, V, R, and T denote the pressure, volume, ideal gas constant, and temperature, respectively. This formula serves as a fundamental expression in thermodynamics and is employed in various fields of science, notably chemistry and physics, as a means of determining the amount of substance in a gaseous system. Its rigorous derivation and application have been extensively studied in the academic realm, and it remains a pivotal concept in modern scientific research.

Ascertaining the quantity of helium atoms contained within the balloon necessitates the conversion of the amount of helium moles into a corresponding number of helium atoms. The quantity of atoms in a single mole of any given substance, as denoted by Avogadro's number, is 6.022 x 10^23.

Initially, it is necessary to determine the quantity of moles of helium present within the spherical object.

The quantity n is expressed as the ratio of the product of the pressure and volume, PV, to the product of the universal gas constant, R, the temperature, T, and is mathematically represented as n = (PV) / (RT). Upon substituting the relevant values in this equation, where the pressure is not explicitly given, n may be calculated as (1.18 g/L x 2.93 L) / (0.0821 L-atm/mol-K x 273 K).

The quantity of substance present is 0.1386 mol.

Subsequently, the subsequent step would be to transform the aforementioned measurement into the numerical value representing the quantity of helium atoms present.

The numerical value of helium atoms can be expressed as the product of a constant factor 'n' and the Avogadro constant. That is, the number of atoms of helium is determined by multiplying 'n' with Avogadro's number.

The quantity of helium atoms is equivalent to 0.1386 moles, multiplied by the constant Avogadro's number of 6.022 x 10^23 atoms per mole.

The quantity of helium atoms is 8.33 x 10^23.

To calculate the number of atoms of helium in the balloon, we can use Avogadro's number and the molar mass of helium.

The number of atoms of helium in the balloon can be calculated using the Avogadro's number and the molar mass of helium. The molar mass of helium is 4.0026 g/mol. First, we need to calculate the number of moles of helium in the balloon by dividing the mass of helium by its molar mass:

Number of moles of helium = Mass of helium / Molar mass of helium

Once we have the number of moles, we can use Avogadro's number to calculate the number of atoms:

Number of atoms of helium = Number of moles of helium * Avogadro's number

Let's substitute the values into the formula to find the number of atoms of helium in the balloon:

Number of atoms of helium = (1.18 g/L * 2.93 L) / (4.0026 g/mol) * (6.022 x 10^23 atoms/mol)

Solving this equation will give us the number of atoms of helium in the balloon.

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The Lewis structures are shown by dots in the images attached here.

A Lewis structure, also known as a Lewis dot diagram, is a visual representation of the bonding between atoms or ions in a molecule. It was developed by American chemist Gilbert N. Lewis in 1916. In a Lewis structure, the chemical symbol of each atom is surrounded by a set of dots, representing the valence electrons of the atom.

These dots are arranged to indicate the sharing or transfer of electrons between atoms, and the resulting arrangement of atoms and electrons is shown as a molecular structure.

Lewis structures are useful for predicting the shape, polarity, and reactivity of molecules and for understanding the principles of chemical bonding.

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Answer:

a. The recorded waves are mechanical waves.

c. The wave display does not change the wave type.

e. The frequency or amplitude of the waves could change.

These statements are true. Recorded sound waves are mechanical waves, meaning they require a medium to travel through, such as air or water. The wave display is a device that displays the shape, frequency, and amplitude of the sound waves. It does not change the type of wave from mechanical to electromagnetic, or vice versa. The frequency and amplitude of the sound waves could change, depending on the characteristics of the source producing the sound.

Answer:

The composition and properties of a substance are different from each other.

The composition of a substance is what he substance is made of.

Let's take water as an example. We know that the chemical formula for water is  . This tells us that water has 2 hydrogen molecules and 1 oxygen molecule. That is the composition of water.

The properties of a substance are how a substance appears and behaves both chemically and physically.

Again, let's use water as an example. Most times, water is a clear liquid. It freezes at 0 degrees Celsius and boils at 100 degrees Celsius. These are some of water's physical properties. Water also has many chemical properties; however, we needn't go into those.

Explanation:

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Answer:

Wave A (blue wave) has the highest volume because it has the highest amplitude.

Waves B and C have equal volumes because they have the equal amplitude.

Wave C (green wave) has the highest pitch because it has the highest frequency.

Waves A and B have equal pitch because they have the equal frequency.

The amount of dry solute it would take to prepare 118 mL of 0.105 M NaNO3 is 1.05g.

The mass of a substance can be calculated by multiplying the number of moles in the substance by its molar mass as follows:

mass = no of moles × molar mass

However, the number of moles it took to prepare 118 mL of 0.105 M NaNO3 must be calculated as follows;

no of moles = 0.105 × 0.118 = 0.0124 moles

molar mass of sodium nitrate = 85g/mol

mass = 85g/mol × 0.0124 moles = 1.05g

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Answer: 34.24 g

Explanation: The molar mass of CO(NH2) can be calculated by including up the nuclear masses of each component within the atom. The nuclear masses of carbon (C), oxygen (O), nitrogen (N), and hydrogen (H) are 12.01 g/mol, 16.00 g/mol, 14.01 g/mol, and 1.01 g/mol, individually.

Molar mass of CO(NH2) = 1 x molar mass of C + 1 x molar mass of O + 2 x molar mass of N + 4 x molar mass of H

Molar mass of CO(NH2) = 1 x 12.01 g/mol + 1 x 16.00 g/mol + 2 x 14.01 g/mol + 4 x 1.01 g/mol

Molar mass of CO(NH2) = 60.06 g/mol

Presently, we will utilize this molar mass to change over moles of CO(NH2) to grams of CO(NH2):

mass of CO(NH2) = number of moles x molar mass

mass of CO(NH2) = 0.57 mol x 60.06 g/mol

mass of CO(NH2) = 34.24 g

Hence, there are 34.24 grams of CO(NH2) in 0.57 moles of CO(NH2). The answer isn't among the choices, so we have to be calculate the proper reply.

To discover the proper reply, ready to utilize the relationship between moles and mass:

mass = moles x molar mass

mass = 0.57 moles x 60.06 g/mol = 34.24 g

Answer:

The CCl4 gas would need to be heated to -178.7 °C to have a volume of 2.00 liters at 250 °C.

Step-by-step explanation:

First, we need to calculate the number of moles of CCl4:

[tex]\sf:\implies n = \dfrac{m}{M}[/tex]

[tex]\sf:\implies n = \dfrac{75.0\: g}{154.0\: g/mol}[/tex]

[tex]\sf:\implies n = 0.487\: moles[/tex]

Next, we can use the ideal gas law to solve for the temperature:

[tex]\sf\qquad\dashrightarrow PV = nRT[/tex]

where:

We need to convert the given temperature of 250 °C to Kelvin:

[tex]\sf:\implies T = 250 ^{\circ}C + 273.15[/tex]

[tex]\sf:\implies T = 523.15\: K[/tex]

Now we can plug in the values and solve for T:

[tex]\sf:\implies (1\: atm)(2.00\: L) = (0.487\: mol)(0.08206\: L\cdot atm/mol\cdot K)T[/tex]

[tex]\sf:\implies T = \dfrac{(1\: atm)(2.00\: L)}{(0.487\: mol)(0.08206\: L\cdot atm/mol\cdot K)}[/tex]

[tex]\sf:\implies T = 94.5\: K[/tex]

Finally, we need to convert the temperature back to Celsius:

[tex]\sf:\implies T = 94.5\: K - 273.15[/tex]

[tex]\sf:\implies \boxed{\bold{\:\:T = -178.7 ^{\circ}C\:\:}}\:\:\:\green{\checkmark}[/tex]

Therefore, the CCl4 gas would need to be heated to -178.7 °C to have a volume of 2.00 liters at 250 °C.

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The word equation for the skeleton chemical equation would be Ethane gas + Oxygen gas -> Carbon dioxide gas + Water vapor.

Described in this reaction, ethane (C2H6) and oxygen (O2) unite to synthesize carbon dioxide (CO2) and water vapor (H2O). The reactants are situated on the left side of the arrow marker, while the products are displayed on the right. All entities specified are presented in the gaseous state as denoted by the (g) symbol.

The word equation for the skeleton chemical reaction C2H6 (g) + O2 (g) -> CO2 (g) + H2O (g) is showcased as follows:

Ethane gas + Oxygen gas -> Carbon dioxide gas + Water vapor

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A) The molecular formula is: P₄O₁₀; B) This gives us the empirical formula: C₂H₆O

The simplest whole number ratio of atoms in a compound is called the empirical formula.

A) Empirical formula mass of P₂O₅ = 2(atomic mass of P) + 5(atomic mass of O)

= 2(30.97 g/mol) + 5(15.99 g/mol)

= 141.94 g/mol

Molecular mass / Empirical formula mass = 283.88 g/mol / 141.94 g/mol = 2

This tells us that the molecular formula is twice the empirical formula, so the molecular formula is: P₄O₁₀

B)  moles of C = 52.14 g / 12.01 g/mol = 4.344 mol

moles of H = 13.12 g / 1.01 g/mol = 12.97 mol

moles of O = 34.73 g / 16.00 g/mol = 2.17 mol

4.344 mol / 2.17 mol = 2.00

12.97 mol / 2.17 mol = 6.00

2.17 mol / 2.17 mol = 1.00

This gives us the empirical formula: C₂H₆O

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The mole fraction of the solute in the solution is calculated as 0.1406.

Non-volatile solute is a substance that does not readily evaporate at given temperature and pressure.

Raoult's law : P_total = P_solute + P_water

P_total is total vapor pressure of solution, P_solute is partial pressure of  solute, and P_water is partial pressure of water.

Since the solute is non-volatile, we can assume that its partial pressure is negligible compared to the pressure of water. Therefore: P_total ≈ P_water

P_total = X_water * P°_water

X_water is mole fraction of water and P°_water is vapor pressure of pure water at same temperature.

305 torr = X_water * 355.1 torr (since P_total ≈ P_water)

X_water = 305 torr / 355.1 torr = 0.8594

X_solute = 1 - X_water = 1 - 0.8594 = 0.1406

Therefore, the mole fraction of the solute in the solution is 0.1406.

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0.86 moles of [tex]N_2[/tex] and 1.72 moles of Li will react.

We must place a 3 coefficient in front of Li in order to bring the equation into balance:

[tex]N_2 + 2Li = 2Li_3N[/tex]

The balanced equation demonstrates that 2 moles of Li and 1 mole of N2 react to create 2 moles of Li3N. Therefore, we can apply the following dimensional analysis to determine how many moles of Li will react with 0.86 moles of N2:

[tex]0.86 mol N_2 x (2 mol Li / 1 mol N_2) = 1.72 mol Li[/tex]

A declaration that two expressions with variables or integers are equal. In essence, equations are questions and attempts to systematically identify the solutions to these questions have been the driving forces behind the creation of mathematics.

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Answer:

Explanation:

0.25 moles KCl = 19g KCl (molar mass KCl = 74.6g)

Answer: the standard change in Gibbs free energy of the reaction at 25 ∘C is 6.24 kJ/mol.

Explanation: One can employ the equation in order to calculate the standard Gibbs free energy change (ΔG°) for the reaction at a temperature of 25 degrees Celsius.

The standard free energy change, ΔG°, can be expressed as the negative product of the universal gas constant (R), temperature (T) and the natural logarithm of the equilibrium constant (K).

The equilibrium constant is denoted by K and the gas constant R has a value of 8.314 J/mol·K, while T stands for temperature in Kelvin, which is equivalent to 298 K for 25 ∘C.

K can be determined by utilizing the partial pressures at equilibrium.

K equals the square of the product of PC and the cube of PD divided by the cube of PA multiplied by the fourth power of PB.

After replacing the provided values, the result obtained is:

The value of K is obtained by raising 4.36 atm to the power of 2, and 4.70 atm to the power of 3, and then dividing that by the product of 4.62 atm to the power of 3 and 4.36 atm to the power of 4.

The numeric value of K is 0.0786.

We can now compute the value of ΔG° by using the available data.

The change in Gibbs energy under standard conditions is equal to the negative product of gas constant, temperature and natural logarithm of equilibrium constant.

The standard Gibbs free energy change is determined by multiplying the constant of gas by the temperature and natural logarithm of the equilibrium constant.

The value of ΔG° can be expressed as - (8.314 J/mol·K) multiplied by 298 K and -2.547.

The standard free energy change is either 6,237 joules per mole or 6.24 kilojoules per mole.

Answer:

the new concentration of the solution is 0.171 M.

Explanation:

To solve this problem, we can use the formula for dilution:

C1V1 = C2V2

where C1 is the initial concentration, V1 is the initial volume, C2 is the final concentration, and V2 is the final volume.

Substituting the given values, we get:

(0.400 M)(300.0 mL) = C2(700.0 mL)

Solving for C2, we get:

C2 = (0.400 M)(300.0 mL) / (700.0 mL)

C2 = 0.171 M

Therefore, the new concentration of the solution is 0.171 M.

The moles of carbon, hydrogen, and oxygen may not be whole numbers, we may need to round them to the nearest whole number to get the simplest ratio.

What is Empirical Formula?

The empirical formula of a chemical compound represents the simplest, most reduced ratio of atoms in that compound. It shows the relative number of atoms of each element present in the compound, expressed as the smallest whole numbers. In other words, it gives the simplest whole number ratio of the elements in a compound.

Mass of carbon = moles of CO

Mass of hydrogen = 2 x moles of H2O (since each H2O molecule has 2 hydrogen atoms)

Calculate the moles of oxygen in the compound.

Given:

Mass of oxygen = moles of CO (since each CO molecule has 1 oxygen atom) + moles of H2O (since each H2O molecule has 1 oxygen atom)

Determine the empirical formula.

The empirical formula represents the simplest, most reduced ratio of atoms in the compound. To determine it, we can use the mole ratios of carbon, hydrogen, and oxygen calculated in the previous steps.

Empirical formula = CxHyOz, where x, y, and z represent the mole ratios of carbon, hydrogen, and oxygen, respectively.

Now, let's plug in the calculated values for moles of carbon, hydrogen, and oxygen into the empirical formula:

Empirical formula = C moles : H moles : O moles

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The empirical formula of the unknown compound given the combustion analysis data is C2H3O.

The first step in solving this problem is to know how much carbon and hydrogen in grams are in the carbon dioxide (CO2) and water (H2O) produced. From the mass of CO2, we get 2.224g * 0.2729 (proportion of carbon in CO2) = 0.607g C. And the mass of hydrogen is 0.3035 g * 0.1119 (proportion of hydrogen in H2O) = 0.034g H. The remaining mass is 1g (total mass) - 0.607g C - 0.034g H = 0.359g O. Then, we need to convert these values to moles. This gives us 0.607g C * (1 mole C / 12.01 g C) = 0.050 moles C, 0.034g H * (1 mole H / 1.01 g H) = 0.033 moles H, and 0.359g O * (1 mole O / 16.00 g O) = 0.022 moles O.

By finding the ratio of these moles, we get C2H3O, which is the empirical formula of the compound.

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To determine the number of moles of boron in 6.035 x 10^25 atoms of boron, we need to use Avogadro's number, which is 6.022 x 10^23 particles per mole. We can set up a proportion to solve for the number of moles:

(6.035 x 10^25 atoms) / (6.022 x 10^23 atoms/mol) = x moles

Simplifying the expression on the left side, we get:

x = (6.035 / 6.022) x (10^25 / 10^23) moles

x = 1.002 moles

Therefore, there are 1.002 moles of boron in 6.035 x 10^25 atoms of boron.

Explanation: The level of the liquid in a sealed jar decreases slightly due to the evaporation of some of the liquid molecules into the air space above the liquid. However, once the concentration of the liquid molecules in the air space reaches a certain level, the rate of evaporation will slow down. This is because the concentration of the liquid molecules in the air space will eventually reach a point where the rate of evaporation is balanced by the rate of condensation.

At this point, the liquid molecules in the air space will be colliding with the surface of the liquid at the same rate that liquid molecules are evaporating from the surface of the liquid. As a result, the level of the liquid will cease to change, and the liquid will remain at a stable level within the jar.

_______________________________

Although there is some variation amongst tissues, the physiologically typical intracellular pH ranges from 7.0 to 7.4. Skeletal muscle in mammals typically has a pHi of 6.8 to 7.1.

A cell is the basic membrane-bound living thing and can either have one or more cells. All the molecules required for an organism to function are found in cells. An atomic is 10-10m in size. In contrast, a cellular is 10-6 metres in size. Because all cells are composed of atoms, they are therefore bigger than atoms.

Acid excretion, efflux through plasma membranes, and buffering mechanisms all work together to precisely preserve the pH of body fluids. Protons are extruded from the cytosol into the extracellular space through the organic cation transporter (MCT) and the Na+/H+ exchanger (NHE).

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The equation can be written as; ΔG = ΔH - TΔS

The equation for the free energy change (ΔG) in a system can be expressed in terms of the enthalpy change (ΔH) and entropy change (ΔS)

The Gibbs free energy equation links changes in enthalpy and entropy that occur during a process to changes in a system's free energy. If G is negative, the process can happen spontaneously and is thermodynamically beneficial.

If G is positive, the process requires an energy input and is not thermodynamically favorable. The system is in equilibrium if G is zero.

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There are 1 lone pairs of electrons are in the ion OH⁻

Since oxygen creates two bonds, we know that two electrons are required to create those two bonds. There are now just two electron pairs remaining that are not involved in bonding. Oxygen thus contains two lone pairs.

The O and H atoms are connected by a solitary covalent link. The oxygen atom has a net -1 charge, which normally manifests as the whole charge on the OH- ion. On the O atom in the OH- Lewis structure, there exist lone electron pairs.

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The molar solubility of AgC, H; 02 is 0.0447 mol/L..

What is Molar Solubility?

Molar solubility refers to the maximum amount of a solute that can dissolve in a given amount of solvent at a particular temperature to form a saturated solution, usually expressed in moles per liter (mol/L or M). It is a measure of the solubility of a compound under specific conditions, such as temperature and pressure.

Molar solubility is an important parameter in chemistry and is often used to describe the solubility behavior of ionic compounds, salts, and other substances in various solvents.

Ksp = [tex]S^{2}[/tex]

Substituting the given value of Ksp, we get:

2.00 × [tex]10^{-3}[/tex] =[tex]S^{2}[/tex]

Taking the square root of both sides, we get:

S = √(2.00 × [tex]10^{-3}[/tex])

S = 0.0447 mol/L (rounded to four significant figures)

Therefore, the molar solubility of AgC, H; 02 is 0.0447 mol/L.

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0.0447 mol/L is the molar solubility, S, of AgC, H; 02 if Ksp = 2.00 × 10-3

Explain equilibrium constant.

A dynamic chemical system approaches chemical equilibrium when enough time has passed and its composition no longer exhibits any discernible propensity to change further. The equilibrium constant of a chemical reaction is the value of its reaction quotient at chemical equilibrium.

The maximum number of moles of a solute that can be dissolved in a liter of solution before the solution becomes saturated is its molar solubility. Because of the relationship between the molar solubility and the solubility product, one can use the other to determine the other.

Ksp = S^2

2.00 ×10^-3  = S^2

S = √(2.00 × )

S = 0.0447 mol/L

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Answer:A. The gas particles have essentially zero volume and no attraction

for one another.

Explanation:

There are 6 atoms of oxygen present on the reactants side of the given reaction. Thus the correct answer is option B.

Firstly, let us write the accurate chemical equation and then subsequently we will balance it as and when needed.

4Fe+3O₂→2Fe₂O₃

This is the correct balanced chemical equation for the reaction. And as we can find that the amount of iron and oxygen atoms on the reactants side is equivalent to that of the products side. This corroborates that the given chemical equation is correctly balanced.

Now, the query is based on counting the total number of oxygen atoms present on the side of reactants. As we can clearly see on the reactant side  there are three Oxygen molecules that are present. That means that there are a total of six oxygen atoms, since 3*2 gives us a total of 6 oxygen atoms.

Hence, there are a sum total of six O₂ atoms that are present on the reactant side of the provided chemical equation.

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The full question is:

How many oxygen atoms are present on the reactant side of the chemical equation  4Fe+3O₂→2Fe₂O₃?

A. 3

B. 6

C. 7

D. 13

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Alkene is transformed to alcohol via the oxymercuration-demercuration reaction. The reagent employed in this reaction is mercury (II) acetate in tetrahydrofuran, which also serves as the solvent.

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Sulfur tetrafluoride, xenon tetrafluoride, antimony pentafluoride, ammonia, sulfur dioxide, water, carbon disulfide, 1,1-dichloroethane, arsenic trichloride

Sulfur tetrafluoride has a see-saw structure and a single pair of electrons. Methane has a tetrahedral structure and no lone pairs of electrons. Xenon tetrafluoride contains two lone pairs of electrons and a square planar structure.

All eight of the d-electrons in the molecule Tetrachloropalladate(2-) are coupled in the lower-energy orbitals, which suggests a square planar geometry. This molecule is diamagnetic. Tetrachloronickelate, on the other hand, contains two unpaired electrons and is also d8, suggesting that it possesses a tetrahedral geometry.

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a. Wax melts near the flame of a burning candle because the kinetic-molecular theory states that the higher the temperature, the faster the molecules move. Since the flame of a burning candle is hot, the wax molecules move faster, allowing them to take up more space and eventually melt.

The kinetic-molecular theory is based on the following five fundamental principles:

The average distances between the molecules that make up a gas are substantially bigger than the diameters of the individual molecules. When compared to the volume of the gas itself, the volume filled by the gas' molecules is insignificant.

In a perfect gas, neither the molecules nor the container walls are attracted to one another.

The molecules move randomly and continuously and, as physical objects, they are subject to Newton's laws of motion. Until they collide with one another or the container walls, the molecules move in a straight line.

Collisions are fully elastic; although two molecules' orientations and kinetic energies change when they collide, the overall kinetic energy is conserved. It is not "sticky" to collide.

The relationship between the average gas molecule kinetic energy and absolute temperature is direct. The word "average" is crucial in this context because individual molecules' velocities and kinetic energy will vary widely, with some even having zero velocities at specific times. This suggests that if the temperature were to drop to absolute zero, all molecular motion would stop.

Explanation:

b.  Since a freezer is much colder than room temperature, the water molecules move very slowly and become organized, allowing them to form ice cubes.

c. All matter is made up of many small particles that are in constant motion. When the ginger ale is poured into the glass, the molecules of the liquid spread out to fill the shape of the glass due to their motion.

d. The molecules in a liquid are in constant motion, and that when they move, they bump into each other, passing energy from one to the other. This energy causes the particles to move faster. As they move faster, they create turbulence that causes them to break away from the liquid surface. These particles then form a vapor, which is an invisible form of water called water vapor. As these particles accumulate together, they gradually evaporate from the swimming pool, eventually diminishing its water level.

e. Water vapor condenses inside house windows on cold days because the molecules of water vapor slow down and as they lose energy they no longer have enough kinetic energy to remain in the gaseous state. The molecules then condense and form liquid water droplets on cool surfaces such as windows.

f. Snow gradually disappears even when the temperature remains below freezing because the heat stored in the snow starts to melt the snow. This occurs even when the outside temperature remains at freezing or below because the heat is released from the snow and warms the surrounding air.

g. Solids and liquids cannot be compressed as much as gases because the particles of gases have more energy and thus more freedom of movement than particles of solids and liquids. The particles of gases can move around and can occupy larger spaces than particles of solids and liquids, allowing them to be compressed more effectively.

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