The sublimation of solid CO₂ is best classified as a Choose 1 answer: physical change because only dispersion forces between CO₂ molecules are disrupted physical change because only ionic bonds between C4+ and 0²- ions are broken chemical change because C-O bonds are broken and C-C and 0-0 bonds are formed chemical change because covalent bonds between CO₂ molecules are broken​

Airborne pollutants are generated by the vapours released when gasoline evaporated and the materials created when gasoline burns (carbon monoxide, nitrogen dioxide, particulates, and unburned hydrocarbons).

Air must be supplied to gasoline in order to burn. To create an ignitable solution, only a small amount of gasoline is needed. If the gas-to-air combination includes such little only 1.4% gasoline by content, it might be burnt with explosive intensity.

For cleaner burning gasoline, use CBG. In accordance with air quality rules, this moniker refers to particular gasoline formulas that must be supplied in specific regions of Arizona.

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The pH of the 1.3 x 10-4 M aqueous solution of benzoic acid is 4.20, rounded to two decimal places.

The pH of a 1.3 x 10- M aqueous solution of benzoic acid can be calculated using the acid dissociation constant (Ka) of the benzoic acid. The Ka of benzoic acid is 6.3 x 10-5.
First, we need to calculate the concentration of the benzoic acid (CHCO2H) in the solution. This can be done by multiplying the initial molarity of 1.3 x 10-4 with the volume of the solution. The concentration of benzoic acid in the solution is therefore 1.3 x 10-4 M.
Next, we need to use the Henderson-Hasselbalch equation to calculate the pH of the solution. The Henderson-Hasselbalch equation is: pH = pKa + log([A-]/[HA]).
In this equation, pKa is the acid dissociation constant of the benzoic acid, [A-] is the concentration of the conjugate base (CHCO2-) in the solution and [HA] is the concentration of the benzoic acid in the solution.
Substituting the values in the Henderson-Hasselbalch equation, we get:
pH = -log(6.3 x 10-5) + log(1.3 x 10-4/1.3 x 10-4)
pH = -log(6.3 x 10-5)
pH = 4.20
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The Lewis structure of the H2SO4 has been shown in the image attached.

In H2SO4, there are a total of 32 valence electrons available for bonding. The central atom in H2SO4 is sulfur (S), which has 6 valence electrons. To achieve an octet, sulfur needs to form six covalent bonds.

The two hydrogen atoms (H) in H2SO4 each contribute one valence electron to form a single covalent bond with sulfur. This leaves sulfur with 4 valence electrons.

The four oxygen atoms (O) in H2SO4 each contribute 6 valence electrons to form a total of 24 valence electrons in four covalent bonds with sulfur. This brings the total number of valence electrons around sulfur to 28.

To complete the octet, each oxygen atom also has two lone pairs of electrons, bringing the total number of valence electrons around sulfur to 32.

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The displacement reaction will occur. The concentration of each spectator ion in the final solution is 3/2 moles of Fe2(CrO4)3 will be formed and Concentration of CrO4^2- will be  0.033 M

Step 1:

The balanced chemical equation for the reaction is given below:

K2CrO4 + FeCl3 -> Fe2(CrO4)3 + 2KCl

Hence, the reaction occurs between potassium chromate and iron (III) chloride.

Step 2:

We need to find out how much precipitate will be produced in grams.

Let's calculate the moles of reactants and then use mole ratio to find out the limiting reagent:

[tex]\[\text{Moles of potassium chromate} = \text{Molarity} \times \text{Volume} \div 1000\][Molarity of K2CrO4 = 2.5 M; Volume of K2CrO4 = 60.0 mL][/tex]

Moles of K2CrO4 = (2.5 x 60.0) / 1000 = 0.150 mol

[tex]\[\text{Moles of iron (III) chloride} = \text{Molarity} \times \text{Volume} \div 1000\][Molarity of FeCl3 = 3.2 M[/tex] = 3.2 M;

Volume of FeCl3 = 40.0 mL]Moles of FeCl3 = (3.2 x 40.0) / 1000 = 0.128 mol

As we see, K2CrO4 is the limiting reagent. So, FeCl3 is in excess.

Therefore, amount of Fe2(CrO4)3 precipitated is given by moles of K2CrO4 and mole ratio:

[tex]\[\text{Moles of Fe2(CrO4)3} = \text{Moles of K2CrO4} = 0.150 mol\][/tex]

Now, we will find the molecular weight of Fe2(CrO4)3 as 479.87 g/mol.

[tex]\[\text{Mass of Fe2(CrO4)3} = \text{Moles of Fe2(CrO4)3} \times \text{Molecular weight}\][/tex]

[tex]\[\text{Mass of Fe2(CrO4)3} = 0.150 \times 479.87 = 71.98\][/tex]

Therefore, the amount of precipitate produced is 71.98 g.c

We need to find out the concentration of each spectator ion in the final solution.

Firstly, we can write down the ionic equation for the reaction:

[tex]2 K+ + CrO4^2- + 3 Fe^3+ + 3 Cl^- - > 2 K+ + 3 Cl^- + Fe2(CrO4)3[/tex]

Now, we will check which ions remain in the final solution. We see that potassium and chloride ions are spectator ions. Hence, we don't need to calculate their concentration. The concentration of remaining ions can be calculated as follows:Fe3+ ions: In the given reaction, 3 moles of FeCl3 reacts with 2 moles of K2CrO4.

Hence, 3/2 moles of Fe2(CrO4)3 will be formed.

Therefore,

= [tex]\frac{3/2 \times 3.2 \times 40.0 \div 1000}{60.0 + 40.0}[/tex]

= 0.034 M\]CrO42- ions:

In the given reaction, 2 moles of K2CrO4 reacts with 3 moles of FeCl3.

Hence, 2/3 moles of Fe2(CrO4)3 will be formed.

Therefore,

Concentration{ of CrO4^2-}

= [tex]\frac{2/3 \times 2.5 \times 60.0 \div 1000}{60.0 + 40.0}[/tex]

= 0.033 M\]

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This is just one possible way to group and diagram the evolutionary relationships between these animals.

What is evolution?

Evolution is the process of change in the inherited characteristics of biological populations over successive generations. Evolutionary changes occur through a variety of mechanisms, including natural selection, genetic drift, gene flow, and mutations. Over time, these changes can result in the emergence of new species or the extinction of existing ones. Evolutionary theory provides an explanation for the diversity of life on Earth and has been supported by a vast amount of scientific evidence from multiple disciplines, including genetics, paleontology, and comparative anatomy. The theory of evolution by natural selection, developed by Charles Darwin and Alfred Russel Wallace in the mid-19th century, remains the fundamental concept in evolutionary biology.

Here is a diagram showing the possible evolutionary relationships between ten animals, along with their similarities:

Group 1: Mammals

Humans: Evolved from primates, similar to apes and monkeys

Elephants: Evolved from proboscideans, similar to mammoths and mastodons

Dolphins: Evolved from land mammals, similar to whales and porpoises

Group 2: Birds

Eagles: Evolved from theropod dinosaurs, similar to hawks and falcons

Penguins: Evolved from non-avian dinosaurs, similar to auks and puffins

Group 3: Reptiles and Amphibians

Crocodiles: Evolved from archosaurs, similar to alligators and caimans

Snakes: Evolved from lizards, similar to boas and pythons

Frogs: Evolved from fish, similar to toads and salamanders

Group 4: Insects

Bees: Evolved from wasps, similar to bumblebees and hornets

Butterflies: Evolved from moths, similar to skippers and hair streaks

Note: This is just one possible way to group and diagram the evolutionary relationships between these animals. There are many different ways to classify and categorize animals based on their evolutionary history and characteristics.

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If K>1, products are more plentiful at equilibrium when examining the link between the standard free energy change and the equilibrium constant.

A key idea in chemical equilibrium is the equilibrium constant (K), which reflects the correlation between the reactant and product concentrations at equilibrium. It is described as the ratio of the concentrations of the reactants and products, each raised to the power of their respective stoichiometric coefficients. As well as the equilibrium concentrations of reactants and products, K gives information on the size and direction of a chemical reaction. A higher value of K denotes a greater preference for the product in the reaction, whereas a lower value denotes a greater preference for the reactant. Temperature has an impact on K, which can be used to forecast how shifting conditions would alter an equilibrium chemical system.

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The names of the positions are called:

(1) (10) Atomic number

(2) (11) Chemical symbols

(3) (12) Elements

(4) (13) Atomic mass

Atomic structure refers to the composition and arrangement of subatomic particles within an atom. An atom consists of a central nucleus, which contains positively charged protons and uncharged neutrons, surrounded by negatively charged electrons that move around the nucleus in shells or energy levels.

The number of protons in the nucleus determines the atomic number and thus the identity of the element. The arrangement of electrons around the nucleus determines the chemical and physical properties of the element.

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The questions are:

10 What is the name for the number in this position called? (the answer is not "6") →6

11 What is the name for the letter in this position called? (the answer is not "C"!) →C

12 What is the name in this position called? (the answer is not "Carbon"!) →Carbon

13

What is the name for the number in this position? (the answer is not "12.0") →12.0

Use the spaces below to type your answers to the questions above.

The percentage yield for the in which 1.94 g of Sb₂S₃ is obtained from 1.72 g of antimony and slight excess sulphur is 80% (3rd option)

First, we shall obtain the theoretical yield of Sb₂S₃. Details below

2Sb(s) + 3S(s) → Sb₂S₃(s)

From the balanced equation above,

243.52 g of Sb reacted to produce 339.7 g of Sb₂S₃

Therefore,

1.72 g of Sb will react to produce = (1.72 × 339.7) / 243.52 = 2.40 g of Sb₂S₃

Finally, we shall determine the percentage yield for the reaction. Details below:

Percentage yield = (Actual /Theoretical) × 100

Percentage yield = (1.94 / 2.40) × 100

Percentage yield = 80%

Thus, the percentage yield is 80% (3rd option)

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Answer:

To determine if the solution is saturated or unsaturated, we need to compare the amount of NaCl in the solution to its solubility in water at the given temperature.

The solubility of NaCl in water at room temperature (25°C) is approximately 36 grams per 100 grams of water, or 0.36 g/g. This means that at 25°C, water can dissolve up to 0.36 grams of NaCl per gram of water.

In this case, we have 2.75 grams of NaCl dissolved in 650 grams of water. To find the concentration of NaCl in the solution, we divide the mass of NaCl by the total mass of the solution:

concentration of NaCl = mass of NaCl / total mass of solution

concentration of NaCl = 2.75 g / (2.75 g + 650 g)

concentration of NaCl = 0.0042 g/g

Comparing the concentration of NaCl in the solution to its solubility in water at 25°C, we see that:

0.0042 g/g < 0.36 g/g

Since the concentration of NaCl in the solution is less than its solubility in water, the solution is unsaturated.

Explanation:

Answer:

The mass of 2 moles of carbon tetrachloride is

307.646 grams

Explanation:

The chemical formula for Carbon tetrachloride is [tex]\ce{CCl_4}[/tex].  It contains 1 carbon atom and 4 chlorine atoms.

Carbon tetrachloride is formed due to the covalent bond between one carbon atom with four chlorine atoms.

In order to find the mass of 2 moles of [tex]\ce{CCl_4}[/tex] we need to determine the molar mass.

The molar mass of carbon is 12.011 g/mol.

The molar mass of chlorine is 35.453 g/mol.

As stated before we have 1 carbon atom and 4 chlorine atoms. So the molar mass can be evaluated by

[tex]\left(1*12.011\right)+\left(35.453*4\right)=153.823[/tex]

The molar mass of [tex]\ce{CCl_4}[/tex] is 153.823 g/mol.

You can multiply that by 2 to get the mass in grams of 2 moles of carbon tetrachloride.

[tex]2*153.823 =307.646[/tex]

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Answer:

Liquid nitrogen can be used to freeze biological tissue. Liquid nitrogen is -210°C which will stop all biological decomposition in the tissue and preserve it.

Explanation:

The correct answer is bleaching of hair with hydrogen peroxide, curdling of milk by rennin and straightening frizzy hair by conditioner.

Protein denaturation is the process by which a protein loses its shape and function due to exposure to certain environmental conditions such as heat, pH, pressure, or chemical agents. The denaturation process can cause the protein's structure to unravel, leading to the loss of its biological activity. This happens because the protein's three-dimensional structure is crucial to its function, and when the structure is altered, the protein may no longer be able to perform its intended function.

Protein denaturation can occur reversibly or irreversibly depending on the extent of the damage to the protein's structure. Reversible denaturation occurs when the protein regains its structure and function once the environmental stressor is removed, while irreversible denaturation occurs when the damage is permanent and the protein cannot regain its function.

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The full question is:

The denaturing of proteins occurs when the stabilizing forces are altered. Below is the set of processes in which proteins are denatured. Write the chemicals necessary for the denaturation to occur

1. Bleaching of hair

2. Curdling of milk

3. Straightening frizzy hair

Answer: The Oxidation State Of Sulphur is +6

Explanation:

There are 0.144 grams of Cl₂ gas in the sample if at standard temperature and a pressure of 613 kPa, a sample of Cl₂ gas has a volume of 39.2 liters.

The gas constant, denoted by the symbol R, is a physical constant that appears in the ideal gas law equation. The ideal gas law is an equation of state that describes the behavior of an ideal gas in terms of its pressure, volume, temperature, and the number of moles of gas present. The equation is:

PV = nRT

where P is the pressure of the gas, V is its volume, n is the number of moles of gas, T is its absolute temperature, and R is the gas constant.

To determine the number of grams of Cl₂ gas in the sample, we need to use the ideal gas law equation:

PV = nRT

where P denotes pressure, V denotes volume, n denotes the number of moles of gas, R denotes the gas constant, and T denotes temperature in Kelvin.

First, we need to convert the pressure to units of Pa:

613 kPa = 613,000 Pa

Next, we need to convert the volume to units of m³:

39.2 L = 0.0392 m³

The gas constant R is equal to 8.31 J/(mol K), and the temperature is assumed to be standard temperature, which is 273 K.

Now, we can rearrange the ideal gas law equation to solve for n:

n = PV/RT

Substituting the given values, we get:

n = (613,000 Pa)(0.0392 m³)/(8.31 J/(mol K) * 273 K)

Simplifying, we get:

n = 0.00203 mol

Finally, we can use the molar mass of Cl₂, which is 70.9 g/mol, to convert the number of moles to grams:

mass = n * molar mass

mass = 0.00203 mol * 70.9 g/mol

mass = 0.144 g

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The sample of Cl₂ gas has a mass of approximately 0.095 grams.

What is Temperature?

Temperature is a measure of the average kinetic energy of the particles in a substance or system. It determines the direction of heat flow between two objects in contact, with heat flowing from the object with a higher temperature to the one with a lower temperature until they reach thermal equilibrium. The SI unit of temperature is the kelvin (K), which is defined based on the triple point of water, where the temperature is 273.16 K. Other common temperature scales include Celsius and Fahrenheit.

To solve this problem, we can use the ideal gas law:

PV = nRT

where P is the pressure, V is the volume, n is the number of moles of gas, R is the ideal gas constant, and T is the temperature in Kelvin.

First, we need to convert the pressure to the correct units. 613 kPa is equal to 6.13 × 10^4 Pa. We also need to convert the volume to cubic meters, since that is the SI unit of volume. 39.2 liters is equal to 0.0392 cubic meters.

Next, we need to rearrange the ideal gas law to solve for n:

n = PV/RT

We can look up the value of R: it is equal to 8.31 J/(mol·K).

Now we can substitute in the values we know:

n = (6.13 × 10^4 Pa)(0.0392 m^3)/(8.31 J/(mol·K) × 298 K)

Simplifying, we get:

n = 0.00134 mol

Finally, we can convert from moles to grams by multiplying by the molar mass of Cl₂. The molar mass of Cl₂ is approximately 70.9 g/mol.

mass = n × molar mass

mass = 0.00134 mol × 70.9 g/mol

mass = 0.095 g

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Answer:

0.2237 grams of NaOH

Explanation:

To calculate the grams of NaOH dissolved in 23.46 mL of a 0.238 M solution of NaOH, we can use the formula:

mass = molarity x volume x molar mass

where mass is the mass of NaOH dissolved in grams, molarity is the concentration of NaOH in moles per liter, volume is the volume of the solution in liters, and molar mass is the molar mass of NaOH in grams per mole.

First, we need to convert the volume of the solution from milliliters to liters:

volume = 23.46 mL / 1000 mL/L

volume = 0.02346 L

The molar mass of NaOH is 40.00 g/mol.

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

mass = 0.238 M x 0.02346 L x 40.00 g/mol

mass = 0.2237 g

Therefore, there are 0.2237 grams of NaOH dissolved in 23.46 mL of a 0.238 M solution of NaOH.

Answer:

A compound is a material formed by chemically bonding two or more chemical elements. The type of bond keeping elements in a compound together may vary: covalent bonds and ionic bonds are two common types. The elements are always present in fixed ratios in any compound.

Explanation:

The atomic mass of sulfur trioxide (SO3) is 82 amu.

Sulfur trioxide (SO3) has one sulfur atom and three oxygen atoms.

The atomic mass of sulfur can be calculated by subtracting the total mass of the oxygen atoms in sulfuric acid (3 x 16 amu) from the mass of sulfuric acid (98 amu) and then subtracting the mass of the remaining oxygen atom:

The atomic mass of sulfur is 34 amu.

To find the atomic mass of sulfur trioxide, we add the atomic masses of one sulfur atom and three oxygen atoms:

Therefore, the atomic mass of sulfur trioxide (SO3) is 82 amu.

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When NaCl (table salt) forms, sodium (Na) loses energy by transferring one electron to chlorine (Cl), and chlorine gains energy by accepting the electron from sodium.

Sodium and chlorine have different electron configurations, with sodium having a single electron in its outermost shell and chlorine having seven electrons in its outermost shell. Sodium has a tendency to lose this single electron to attain a stable noble gas configuration (like neon), whereas chlorine has a tendency to gain one electron to attain a stable noble gas configuration (like argon).

When sodium and chlorine come into contact, the electronegativity difference between the two atoms results in the transfer of an electron from sodium to chlorine, resulting in the formation of an ionic bond and the compound NaCl.

During this process, sodium loses energy by ionization, which is the process of removing an electron from an atom or ion, and chlorine gains energy by electron affinity, which is the energy released when an electron is added to an atom or ion. This transfer of energy leads to the formation of a stable compound and the release of heat.

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Carbon - Black

Hydrogen - white

Nitrogen - blue

Oxygen - grey

A molecular model is a representation of the three-dimensional structure of a molecule. It is used to visualize the arrangement of atoms within the molecule and to understand its chemical and physical properties.

There are various types of molecular models, ranging from physical models made of plastic or metal, to computer-generated models used in molecular graphics software. Physical models can be used to represent molecules at a larger scale, while computer-generated models can be used to show detailed structures and interactions between individual atoms.

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If we use the Gizmo to find the freezing, melting, and boiling points of water at 5,000 meters (16,404 feet) then,

Freezing point: 32 ºF (0ºC)

Melting point: 32 ºF (0ºC)

Boiling point: 203°F (95°C)

The freezing point is defined as the temperature at which a liquid becomes a solid. Increased pressure usually raises the freezing point with the melting point of the solid. The boiling point of a pure substance is defined as the temperature at which the substance transitions from a liquid to the gaseous phase. At the boiling point the vapor pressure of the liquid is equal to the applied pressure on the liquid. The melting point of a substance is defined as the temperature at which the substance changes from a solid to a liquid.

Melting occurs at a single temperature for the pure substances. The normal and average melting point and boiling point of water at 1 atmospheric pressure are 0°C and 100°C respectively. Decreasing the pressure under 1 atm. will lower the boiling point since the external pressure will be lower so it will become equal with the vapor pressure at a lower temperature.

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The vapor pressure of methanol at 4.2 oC is approximately 1.6 torr.

The Clausius-Clapeyron equation relates the vapor pressure of a substance at two different temperatures and its enthalpy of vaporization. The equation is:

ln(P2/P1) = (-ΔHvap/R)(1/T2 - 1/T1)

where;

We are given the enthalpy of vaporization for dimethyl ether, which is 27.5 kJ/mol. We are also given the vapor pressure of dimethyl ether at 34.6 ⁰C, which is 760 torr.

We want to find the vapor pressure of methanol at 4.2 ⁰C.

Let's choose the vapor pressure of dimethyl ether at 34.6 ⁰C as the first state, and the vapor pressure of methanol at 4.2 ⁰C as the second state. We can convert the temperatures to kelvin by adding 273.15:

T1 = 34.6 + 273.15 = 307.75 K

T2 = 4.2 + 273.15 = 277.35 K

We can plug in the values into the Clausius-Clapeyron equation:

ln(P2/760) = (-27.5×10^3 J/mol)/(8.314 J/(mol·K)) × (1/277.35 K - 1/307.75 K)

Simplifying:

ln(P2/760) = -5.721

Taking the exponential of both sides:

P2/760 = e^-5.721

Multiplying both sides by 760:

P2 = 1.65 torr (to the nearest tenth)

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Answer: Hund's Rule

Explanation: The phenomenon is hund's rule of multiplicity.

a.

The vibrational frequency of the C=O bond in 12C=16O is approximately 1.78 s−1.

b.

The vibrational frequency of the C=O bond in 13C=16O is approximately 1.87 s−1.

The vibrational frequency of a bond can be calculated as:

v = 1/2π x √(k/μ)

where μ = m1 x m2 / (m1 + m2)

(a) For 12C=16O:

The mass of ^12C is 12 atomic mass units (amu), and the mass of ^16O is 16 amu.

μ = 12 x 16 / (12 + 16)

μ = 7.2 amu

v = 1/2π x √(908 N m−1 / 7.2 amu)

v = 1/2π x √(126.11 N m−1 amu−1)

v = 1/2π x 11.22 s−1

v ≈ 1.78 s−1

hence the vibrational frequency of the C=O bond in 12C=16O is approximately 1.78 s−1.

(b) For 13C=16O:

The mass of ^13C is 13 amu, and the mass of ^16O is 16 amu.

μ = 13 x 16 / (13 + 16)

μ = 6.6 amu

v = 1/2π x √(908 N m−1 / 6.6 amu)

v = 1/2π x √(137.58 N m−1 amu−1)

v = 1/2π x 11.74 s−1

v ≈ 1.87 s−1

Hence, the vibrational frequency of the C=O bond in 13C=16O is approximately 1.87 s−1.

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Mn3+, an ion of manganese(III), can function as an acid by giving a proton (H+) to a base. Here's an illustration: Mn3+ (aq) + 3OH- (aq) Mn(OH)3 (s)

There is no need to add an indicator because MnO4's vivid purple colour serves as one enough. In the conical flask, there is Fe2+. The Fe2+ solution is added, and the Fe2+ lowers the MnO4- to Mn2+. As Mn2+ is a colourless solution, the purple colour disappears.

The divalent metal cation manganese(2+) contains manganese as the metal. It plays the part of a cofactor. It consists of a monoatomic dication, a manganese cation, and a divalent metal cation.

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Answer:

C

Explanation:

PHYSICS

a gaseous substance that is below its critical temperature, and can therefore be liquefied by pressure alone.

The polypeptide compound found in wasp venom have the amide bonds  known as peptide bond between O and NH.

A polypeptide is a continuous, unbranched chain of amino acids linked by peptide bonds. To create an amide, a peptide bond connects the carboxyl group of one amino acid to the amine group of the next amino acid. Proteins play an important role in biology, serving as the building blocks of muscles, bones, hair and nails, building enzymes, antibodies, muscles, connective tissue, and much more. Peptides are shorter chains of amino acids. They differ from polypeptides in that they are composed.

When 10 or more α-amino acids are linked by peptide bonds (-CONH-), the resulting polyamide is called a polypeptide. This bond is formed by a condensation reaction between the carboxylic acid group of one amino acid and the amine group of another, resulting in the desired amide bond and the loss of a water molecule.  

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The change in enthalpy when 3 moles of methane react in excess oxygen is -2.67 × 10³ kJ (Option B).

Enthalpy (H) is a thermodynamic property that describes the total heat content of a system at a constant pressure. It is a measure of the energy that is transferred as heat during a chemical reaction or physical change at constant pressure.

Enthalpy is defined mathematically as:

H = U + PV

where U is the internal energy of the system, P is the pressure, and V is the volume. Enthalpy is often measured in units of Joules (J) or kilojoules (kJ).

The given reaction is:

CH4 (g) + 2O2 (g) → CO2 (g) + 2H2O (l) ΔH = -890 kJ

This equation shows that when one mole of methane reacts with two moles of oxygen, it produces one mole of carbon dioxide and two moles of water while releasing 890 kJ of energy.

To determine the change in enthalpy when 3 moles of methane react in excess oxygen, we need to first calculate the amount of heat released when one mole of methane reacts with excess oxygen.

From the balanced chemical equation, we can see that 1 mole of CH4 releases 890 kJ of energy, so the energy released by 3 moles of CH4 would be 3 times that value:

Energy released by 3 moles of CH4 = 3 × (-890 kJ/mol) = -2670 kJ

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The change in enthalpy when 3 moles of methane react in excess oxygen is -2670 kJ.

What is Enthalpy?

Enthalpy is a thermodynamic property of a system that describes the heat content of the system at constant pressure. It is denoted by the symbol "H" and is expressed in units of joules (J) or kilojoules (kJ). Enthalpy is a state function, which means that it depends only on the initial and final states of the system, not on the path taken to reach those states.

The given reaction is: CH4 (g) + 2O2 (g) → CO2 (g) + 2H2O (l), ΔH = −890 kJ

This reaction is for one mole of methane. To find the change in enthalpy when 3 moles of methane react, we need to multiply the enthalpy change by 3:

ΔH = 3 × (-890 kJ/mol) = -2670 kJ

Therefore, the change in enthalpy when 3 moles of methane react in excess oxygen is -2670 kJ.

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whereas the Early transition metal ions are generally quite oxophilic Lewis ligands they coordinate are Lewis A) acids; acids

When ligands make coordinate bonds with transition metal ions, they form a complex; the transition metal ion functions as a Lewis acid, while the ligand acts as a Lewis base.

Ligands are Lewis bases, which means they have at least one pair of electrons to provide to a metal atom/ion. Ligands are also referred to as complexing agents. Metal atoms/ions are Lewis acids, which means they may take electron pairs from Lewis bases.

According to the Lewis acid-base principle, the electron pair acceptor is known as the Lewis acid. Transition metals are electron-deficient in general and take electrons from ligands.

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The claim was correct . All elements  have same number of particles in one mole and have different number of particles  in a mole based on atomic number .

In the International System of Units, the mole (symbol mol) is the unit of substance amount (SI). The amount of substance is a measurement of how many elementary entities of a given substance are present in an object or sample. An elementary entity can be an atom, a molecule, an ion, an ion pair, or a subatomic particle such as an electron, depending on the substance. For example, despite having different volumes and masses, 10 moles of water (a chemical compound) and 10 moles of mercury (a chemical element) contain equal amounts of substance, and the mercury contains exactly one atom for each molecule of water.

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