The mass of KHP dissolved in 50.00 mL of the standardizing KHP titrant is 0.2505 g. The answer is 0.28 g, rounded to two significant figures . The correct answer is (C).
The balanced chemical equation for the reaction of potassium hydrogen phthalate (KHP) with sodium hydroxide (NaOH) is:
KHP + NaOH → NaKP + H2O
From the given information, we know that 22.20 mL of KHP is neutralized by 25.00 mL of NaOH of concentration 0.049 M. Therefore, we can calculate the amount (in moles) of NaOH used:
moles NaOH = volume × concentration = 25.00 mL × 0.049 mol/L = 0.001225 mol
Since the reaction between KHP and NaOH is 1:1, the amount of KHP used is also 0.001225 mol. We can use the molar mass of KHP to calculate the mass of KHP dissolved in 50.00 mL of the standardizing KHP titrant:
mass KHP = moles KHP × molar mass KHP = 0.001225 mol × 204.23 g/mol = 0.2505 g
Therefore, the mass of KHP after standardization is 0.2505 g. Rounded to two significant figures, the answer is 0.28 g. So, correct option is (C).
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A coach takes a group of people to northern Italy. They are going on a travel week!
The one-way distance is 1360 km, to Verona.
The coach consumes 22 litres of diesel per 100 km.
The density of diesel is 0,84.10 3 kg.m -3
The formula of diesel is C 16 H 30 .
In addition to carbon dioxide, the combustion of diesel also produces a little carbon. The
ratio between the two substances in the reaction equation is: C : CO 2 = 1 : 7
the question is: Draw up the reaction equation for the combustion of diesel. Pay attention to the given ratio.
The balanced chemical equation for the combustion of diesel is 2 C₁₆H₃O+15 O₂[tex]\rightarrow[/tex]32 CO₂ +3 H₂O.
What is chemical equation?Chemical equation is a symbolic representation of a chemical reaction which is written in the form of symbols and chemical formulas.The reactants are present on the left hand side while the products are present on the right hand side.
A plus sign is present between reactants and products if they are more than one in any case and an arrow is present pointing towards the product side which indicates the direction of the reaction .There are coefficients present next to the chemical symbols and formulas .
The first chemical equation was put forth by Jean Beguin in 1615.By making use of chemical equations the direction of reaction ,state of reactants and products can be stated. In the chemical equations even the temperature to be maintained and catalyst can be mentioned.
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Arrange these compounds by their expected boiling point.a. CH3OH b. CH4 c. CH3Cl
The expected boiling points of the compounds, in order from highest to lowest, would be CH3OH > CH3Cl > CH4
CH3OH - Methanol is a polar organic compound with a boiling point of 64.7°C.
CH4 - Methane is a non-polar organic compound with a boiling point of -164°C.
CH3Cl - Chloromethane is a polar organic compound with a boiling point of 40.1°C.
Therefore, the expected boiling point order is CH4 < CH3Cl < CH3OH.
The temperature at which a material transforms from a liquid into a gas is known as its boiling point.This is usually determined by the vapor pressure of the substance; when the vapor pressure of a liquid is equal to the atmospheric pressure, it boils and changes to a gas.
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What is the acetic acid constanta (ka)?
The value of Ka constant for acetic acid is 1.75 × 10⁻⁵.
Generally, the acid dissociation constant (Ka) is used to distinguish strong acids from weak acids. Strong acids generally have exceptionally high Ka values. The Ka value is obtained by looking at the equilibrium constant for the dissociation of the acid. The higher is the Ka, the more the acid dissociates into its ions.
Ka is defined as the acid dissociation constant whereas pKa is simply the -log of the constant Ka. Similarly, Kb is defined as the base dissociation constant, whereas pKb is the -log of the constant Kb.
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What happens when sulphide ore is roasted?
When sulphide ore is roasted the sulphide ores generally gets converted to their respective oxides and the impurities are also oxidised and removed.
Generally roasting is defined as the process in which the mainly sulphide ores are heated below their melting point in presence of air. The sulphide ores are converted to their respective oxides and the impurities are also oxidized and removed.
During the process of roasting, the ore or the ore concentrate is treated with very hot air. Roasting is the process that is generally applied to sulfide minerals. During the process of roasting, the sulfide ore is usually converted to an oxide, and sulfur is released as sulfur dioxide, a gas.
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All of the following statements are true about proteins except. -Proteins can have a structure characterized by loops, bend, and twists. -Proteins are composed of amino acids. -Proteins are polypeptides. Proteins are naturally acidic. -Hydrogen bonds keep the protein together
The statement that is not true about proteins is "Proteins are naturally acidic." Option C is correct.
Proteins are biological macromolecules made up of long chains of amino acids. They are also referred to as polypeptides because they are composed of multiple peptide bonds between the amino acids. The specific sequence and arrangement of amino acids in the polypeptide chain determine the unique 3D structure and function of the protein.
Proteins can have a structure characterized by loops, bends, and twists, and this structure is held together by a variety of intermolecular interactions, including hydrogen bonds, disulfide bonds, electrostatic interactions, and van der Waals forces.
While some amino acids have acidic or basic side chains, proteins as a whole are not necessarily naturally acidic. The overall charge of a protein is dependent on the charge of its constituent amino acids and the pH of the surrounding environment.
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--The given question is incomplete, the complete question is
"All of the following statements are true about proteins except. -Proteins can have a structure characterized by loops, bend, and twists. A) Proteins are composed of amino acids. B) Proteins are polypeptides C) Proteins are naturally acidic. D) Hydrogen bonds keep the protein together"--
how is c3h6 lewis structure?
The C₃H₆ lewis structure is as follows :
H H
.. ..
C :: C : C : H
°° °° °°
H H H
The C₃H₆ that is the Propene is the lewis structure that has three Carbon atoms (C) is at the center and the carbon atoms are surrounded by the Hydrogen atoms (H). The compound will contains the six C-H bonds, the one C-C bond and the one C=C bond. The propene is the unsaturated hydrocarbon.
The Lewis structures, also called as the Lewis dot formulas, or the Lewis dot structures, or the electron dot structures, or the Lewis electron dot structures.
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The Lewis structure for C3H6 (propene) is created by connecting 3 carbon atoms in a row with single bonds, attaching 6 hydrogen atoms, and then distributing the remaining valence electrons such that a double bond is created between the first two carbon atoms.
Explanation:The Lewis structure for C3H6, also known as propene, involves a process to account for all electrons.
1. First, calculate the total amount of valence electrons. Carbon (C) has 4 valence electrons and Hydrogen (H) has 1 valence electron. So, the total valence electrons will be (3*4) + (6*1) = 18.
2. Draw the skeletal structure. Place the 3 carbon atoms in a row and connect them with single bonds. Then, attach the 6 hydrogen atoms to the carbon atoms. This initial structure will take up 8 electrons (4 bonds).
3. Distribute the remaining electrons. 10 electrons remain which form a double bond between the first and second carbon atoms, and the rest are evenly distributed to the terminal carbons, completing their octets.
4. The final Lewis structure would be H2C=CH-CH3. The first and second carbon atoms are connected by a double bond.
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scientist can use ____________ to measure evidence that electrons can move from one energy level to another.
Scientists can use spectroscopy to measure evidence that electrons can move from one energy level to another. Scientists can measure the energy added when electrons absorb energy and move to higher energy levels.
ExplanationSpectroscopy is a technique that involves shining light on a material and measuring how that material absorbs or emits light at different wavelengths. When electrons move from one energy level to another, they can absorb or emit photons of light, which results in a characteristic spectral signature.
For example, in atomic spectroscopy, scientists can measure the absorption or emission of light by atoms when electrons jump between different energy levels. This provides valuable information about the electronic structure of atoms and molecules, including the energy levels of electrons and the bonding between atoms.Learn more about spectroscopy on:
brainly.com/question/14854785https://brainly.com/question/28457917https://brainly.com/question/22509226If a sample of gas occupies 1.95 L at 301.5K, what will be its volume at 288.5K?
The new volume of the gas sample will be 1.86 L at 288.5 K.
What will be the volume of the gas?The volume of a gas sample can be calculated from the equation of Charles's law given below.
V1/T1 = V2/T2Where
V1 and T1 are the initial volume and temperature, and V2 and T2 are the final volume and temperature.
Rearranging the equation, we can find the final volume:
V2 = V1 * T2 / T1 = 1.95 L * 288.5 K / 301.5 K = 1.86 L
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what is the boiling point elevation formula?
The formula for boiling point elevation is ΔTb = i×Kb×m. Where, i is the Van't Hoff factor, Kb is the ebullioscopic constant and m is the molality of the solute.
Generally, the boiling point elevation is defined as the difference in temperature that is created between the boiling point of the pure solvent and the boiling point of the solution. Basically, on the graph, the boiling point elevation is represented by ΔTb.
Basically, the molal boiling-point elevation constant is equal to the change in the boiling point for a 1-molal solution occurs in a nonvolatile molecular solute.
Molal elevation constant can be generally defined as the elevation in boiling point which is produced when one mole of non-volatile solute is dissolved in 1 kg i.e. 1000 g of the solvent. This constant is also known as the ebullioscopic constant. Hence, the unit of molal elevation constant is K Kg mol - 1 .
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Chemistry help needed
Answer: It has something to do with the enthalpy
Explanation: Remember that positive enthalpy is when heat is being absorbed, which is shown in this case.
What is molar mass of calcium phosphate?
The molar mass of calcium phosphate Ca₃(PO₄)₂ is 310 g. Molar mass is the aggregate of the masses of all the individual atoms present in a molecule or compound.
The chemical formula of calcium phosphate is Ca3(PO4)2. The atomic mass of calcium Ca is 40 u. The atomic mass of phosphorus P is 31 u. The atomic mass of Oxygen is 16 u.
The molecular mass of calcium phosphate = (atomic mass of calcium) × 3 + (atomic mass of phosphorus) × 2 + (atomic mass of oxygen) × 8
= (40 × 3) + (31 × 2) + (16 × 8)
= 310 g.
Therefore the molecular mass of calcium phosphate is 310 g.
Calcium phosphate, also called tricalcium phosphate, is a kind of mineral.
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how many types of nonequivalent protons are present in each of the following molecules?
The types of the nonequivalent protons are present in each of the molecules is :
a) 4
b) 4
c) 2
The proton that is having the different environment and all the protons will give the different peaks is the non equivalent proton and if the proton will shares the same environment and all the protons will gave the same singles or the peaks called as the the equivalent protons.
a) 6 H will produce the same 1 signal and the 2 carbon and the 4 hydrogen will produce the 1 signal and same as the 3 carbon and the 4 hydrogen will produce the 1 signal and last 4 carbon will produce 1 signal.
b) The compound also contains the 4 non equivalent proton .
c) The 1 signal and 1 equivalent proton and 2 will produce 1 signal so. The total 2 non equivalent proton.
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Review the reversible reactions given, along with the associated equilibrium constant K at room temperature. In each case, determine whether the forward or reverse reaction is favored.CH3COOH â CH3COO- + H+ Ka=1.8 x 10-5 choose...reverse or forwardA + B â C K=4.9 x 103 choose... reverse or forwardAgCl â Ag+ + Cl- Ksp=1.6 x 10-10 Choose... reverse or forwardAl(OH)3 â Al3+ + 3OH- Ksp=3.7 x 10-15 Choose... reverse or forward
The forward reaction rate constant divided by the reverse reaction rate constant is equal to the equilibrium constant.
What is an equilibrium?Chemical equilibrium in a reaction is the situation in which both the reactants and products are present at concentrations that do not continue to fluctuate over time, preventing any discernible change in the system's features. During a reversible chemical reaction, the situation known as chemical equilibrium occurs when there is no net change in the quantity of reactants or products.is a situation where the rate of the forward reaction is equal to the rate of the backward reaction. The definition of OR includes the phrase "A condition where the concentration of reactant and product remains constant." A good example is H2(g)+I2(g)HI (g)When a response shifts to equilibrium, its direction can be predicted using Q.To learn more about equilibrium refer to:
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which type of radioactivity has a negative charge?
A) alpha, α.
B) beta, β. C) gamma, γ. D) delta, δ
Answer:
Beta β
Explanation:
Beta particles are negatively charged electrons emitted by the nucleus on decay
Use the reaction equation and bond energies to answer the question.
2H₂O 2H₂ + O₂
H-O: 467 kJ/mol
H-H: 432 kJ/mol
-
O=O: 498 kJ/mol
What is the total energy of the reaction? Is this an endothermic or exothermic reaction?
(1 point)
O -506 kJ/mol, exothermic
O-506 kJ/mol, endothermic
O 506 kJ/mol, endothermic
O 506 kJ/mol, exothermic"
To determine the total energy of the reaction, we need to calculate the energy required to break the bonds in the reactants and the energy released when new bonds are formed in the products.
How to determine total energy ?In the reactants, we have two H-O bonds and one O=O bond:2H-O: 2 x 467 kJ/mol = 934 kJ/mol
1O=O: 1 x 498 kJ/mol = 498 kJ/mol
Total energy required to break bonds in the reactants: 1432 kJ/molIn the products, we have four H-H bonds and one O=O bond:
4H-H: 4 x 432 kJ/mol = 1728 kJ/mol
1O=O: 1 x 498 kJ/mol = 498 kJ/mol
Total energy released when new bonds are formed in the products: 2226 kJ/molTo find the total energy of the reaction, we need to subtract the energy required to break bonds in the reactants from the energy released when new bonds are formed in the products:Total energy of the reaction = energy released - energy required = 2226 kJ/mol - 1432 kJ/mol = 794 kJ/mol
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which element has the lowest 1st ionization energy?
Bi is the element that has the lowest 1st ionization energy. Therefore, the correct option is option D.
The energy needed to ionise an atom or an ion in its gaseous form is equal to the energy needed to remove an electron from it. A positive ion is created when an atom loses one of its electrons, creating a species that is positively charged. The ionisation energy is represented in kilojoules per mole (kJ/mol) or electron volts (eV), which are common measures of energy per mole.
The five alternatives for elements are all members of the same group. As the group grows and the valence electrons are less tightly bonded, the value of ionisation energy (IE) decreases. Since Bi is the last element, it has the lowest IE in this scenario.
Therefore, the correct option is option D.
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Your question is incomplete but most probably your full question was,
which element has the lowest 1st ionization energy?
A. As
B. P
C. N
D.Bi
E. Sb
What type of intramolecular force is the bond between Carbon and Oxygen in CO2? A. ionic bonds
B.polar covalent bonds
C.nonpolar covalent bonds
D.metallic bonds
The type of intramolecular force is the bond between Carbon and Oxygen in CO₂ is polar covalent bond.
A polar covalent bond is defined as a type of covalent bond in which the atoms have an unequal attraction for electrons, and so the sharing is unequal. In a polar covalent bond, which is sometimes also called as a polar bond, the distribution of electrons around the molecule is no longer symmetrical.
The type of bond present between the atoms in a molecule of CO₂ is polar covalent bond. In a molecule of carbon dioxide, a carbon atom is joined by four covalent bonds to two oxygen atoms, which have two covalent bonds each.
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what is the vsepr geometry is most likely for the carbon atom in this transition state?
The VSEPR geometry for the carbon atom in the transition state would depend on the specific molecule and reaction being considered.
VSEPR, or Valence Shell Electron Pair Repulsion, the theory is used to predict the shape of molecules based on the distribution of electron pairs around the central atom. In a transition state, the molecule is in a high-energy, intermediate stage of a chemical reaction, and its shape may be different from the starting materials or final products.
The VSEPR geometry of the carbon atom in the transition state would depend on the specifics of the molecule and reaction, including the number of electron pairs around the carbon atom and the types of atoms bonded to it. To determine the VSEPR geometry for a specific transition state, it is necessary to have detailed information about the molecule and reaction in question.
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Rank the compounds in each group according to their reactivity toward electrophilic substitution.
A. Chlorobenzene, o-dichlorobenzene, benzene
B. P-bromonitrobenzene, nitrobenzene, phenol
C. Fluorobenzene, benzaldehyde, o-xylene
D. Benzonitrile, p-methylbenzonitrile, p-methoxybenzonitrile
The rank according to their reactivity toward electrophilic substitution:
A) Benzene > Chlorobenzene > o-dichlorobenzene
B) Phenol Nitrobenzene > p-bromo > nitrobenzene
C) o-xylene > fluorobenzene > benzaldehyde
D) p-methoxybenzonitrile > p-methyl benzonitrile > benzonitrile
What is electrophilic substitution?A chemical process in which an electrophile replaces a functional group on a molecule (an electron-deficient species). Typically, a hydrogen atom is the one that is replaced.
Two types of electrophilic substitution exist:
Electrophilic substitution for aromaElectrophilic substitution of an aliphaticElectrophilic substitution for aromaAromatic electrophilic substitution occurs when an electrophile swaps out an atom that is connected to the aromatic ring. In this, an electrophile takes the place of a hydrogen atom that was previously attached to a benzene ring. Examples include the Friedel Craft reaction, aromatic sulphonation, and aromatic nitration.
Alkylation using electrophiles
In an aliphatic electrophilic substitution process, the functional group from the aliphatic molecule is replaced by an electrophile. Examples include diazonium coupling, halogenation of ketones, nitrosation, and keto-enol tautomerism.
The reactivity of aromatic or aliphatic compounds towards electrophilic substitution varies depending on the kind of the electron-withdrawing group linked to the component.
Step 2: Prioritizing electrophilic substitution for chlorobenzene, o-dichlorobenzene, and benzene
One Cl atom is joined to the benzene ring in chlorobenzene. Since Cl is a deactivating or electron-withdrawing group, it increases the likelihood that an electrophile may attack chlorobenzene as opposed to the unsubstituted benzene nucleus, where there is no electron-withdrawing group.
Now, two Cl groups (electron-withdrawing groups) are present in o-dichlorobenzene, which results in a greater reduction in the electron density on the ring than was the case with just one Cl in chlorobenzene. Therefore, the more a group's capacity is attached,
Benzene > Chlorobenzene > o-dichlorobenzene
Step 3: P-bromonitrobenzene, nitrobenzene, and phenol are ranked in order of preference for electrophilic substitution
In phenol, the benzene ring has a hydroxyl group (-OH) bonded to it. This -OH group raises the electron density on the ring (the activating group) due to the mesomeric effect, making it more nucleophilic and susceptible to attack by an electrophile.
In contrast, nitrobenzene has an electron-withdrawing group linked to the nitro group, which lowers the electron density at the benzene nucleus, increasing its electrophilicity and decreasing its susceptibility to attack by an electrophile.
Two deactivating groups are present in p-bromonitrobenzene, which reduces the nucleophilicity of the benzene nucleus more than a single nitro group did in nitrobenzene.
Summarizing all of this, the final ranking is as follows:
P-bromo nitrobenzene, or phenol nitrobenzene
P-bromonitrobenzene has two deactivating groups, reducing the nucleophilicity of the benzene nucleus more than nitrobenzene's single nitro group did.
In conclusion, the following is the final ranking:
Phenol Nitrobenzene > p-bromo > nitrobenzene
Step 4: Prioritizing electrophilic substitution for fluorobenzene, benzaldehyde, and o-xylene
O-xylene contains two methyl groups.
are present at positions 1, 2, and 3. As a result of the +Inductive effect (electron releasing group), methyl groups enhance the electron density at the aromatic ring, making it more nucleophilic and susceptible to assault by an electrophile.
The F, however, reduces the electron density on the benzene nucleus by the -I effect, but the -CHO group reduces via both the -Inductive effect and the mesomeric effect (prominent). Therefore, -CHO reduces the electron density at the benzene nucleus by a significantly greater amount than does F.
Consequently, the following rating will be in order:
O-xylene > Fluorobenzene > Benzaldehyde
Step 5: Prioritizing electrophilic substitution for benzonitrile, p-methylbenzonitrile, and p-methoxybenzonitrile
All of the compounds listed contain the nitrile group, which reduces the electron density on the benzene nucleus through the mesomeric and inductive effects, making the benzene less nucleophilic and more resistant to electrophile assault.
In addition to the nitrile group, p-methyl benzonitrile also contains a methyl group at the para position, which increases the electron density at benzonitrile by +Inductive effect, making it more nucleophilic.
In contrast, p-methoxybenzonitrile also contains a methoxy group at the para position, which increases benzonitrile's electron density by mesomeric effect (more prominent than inductive effect), making it the most susceptible to electro. So, the order as follows:
p-methoxybenzonitrile > p-methyl benzonitrile > benzonitrile
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Pushing
13N
Pulling
16N
Net Force =
Based on the trends on the periodic table, predict what the reaction between rubidium and water and cesium and water will be. How will they be similar to sodium and potassium in water and how will they be different. Explain why you made this prediction
Sodium and potassium will react with water to form hydroxides with chemical formula as,NaOH and KOH ,and RuOH.
What is chemical formula?Chemical formula is a way of representing the number of atoms present in a compound or molecule.It is written with the help of symbols of elements. It also makes use of brackets and subscripts.
Subscripts are used to denote number of atoms of each element and brackets indicate presence of group of atoms. Chemical formula does not contain words. Chemical formula in the simplest form is called empirical formula.
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Mg + 2HCl yields MgCl2 + H2 If 4. 00 g of Mg is reacted with 3. 20 g of HCl How many grams of magnesium Chloride is produced in the reaction?
The mass of magnesium chloride produced in the reaction is 4.17 grams.
The balanced chemical equation for the reaction between Mg and HCl is:
Mg + 2HCl → MgCl2 + H2
To solve this problem, we need to determine which reactant is limiting and use its stoichiometry to calculate the amount of product produced.
First, we need to find the number of moles of Mg and HCl used in the reaction:
moles of Mg = 4.00 g / 24.31 g/mol = 0.1643 mol
moles of HCl = 3.20 g / 36.46 g/mol = 0.0878 mol
According to the balanced equation, the reaction uses 1 mole of Mg for every 2 moles of HCl. Therefore, Mg is in excess and HCl is the limiting reagent.
The stoichiometry of the balanced equation tells us that 2 moles of HCl produce 1 mole of MgCl2. So, the number of moles of MgCl2 produced can be calculated as:
moles of MgCl2 = 0.0878 mol HCl × (1 mol MgCl2 / 2 mol HCl) = 0.0439 mol MgCl2
Finally, we can calculate the mass of MgCl2 produced using its molar mass:
mass of MgCl2 = 0.0439 mol × 95.21 g/mol = 4.17 g
Therefore, the mass of magnesium chloride is 4.17 grams.
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what is different of molarity and molality?
Molarity and molality are both measures of concentration of a solute in a solution, but they are different in their units and how they are calculated.
Molarity (M) is termed as number of moles of the solute per liter of the solution. Molarity is expressed in moles per liter (mol/L) or sometimes written as "M." For example, a 1 M solution of NaCl contains 1 mole of NaCl dissolved in 1 liter of solution.
Molality (m) is termed as the number of moles of solute per kilogram of the solvent. Molality is expressed in the moles per kilogram (mol/kg). For example, a 1 mol/kg solution of NaCl contains 1 mole of NaCl dissolved in 1 kilogram of solvent (usually water).
The main difference between the molarity and the molality is that molarity is based on the volume of solution, while molality is based on mass of the solvent. This means that molarity is affected by changes in temperature and pressure, whereas molality is not.
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Explain how the concentration of a solute in a solution influences its boiling point and freezing point.
PLEASE BE ACCURATE!!! Thank you!!:))
The addition of a non-volatile solute into a solvent decreases its freezing point and increases its boiling point. Both these changes are colligative property. As the solute concentration increases, the changes also increases.
What are colligative properties ?Colligative properties are those properties which depends on the amount of the substance. For example elevation of boiling point is a colligative property which increases with the concentration of the solute added.
When a non -volatile solute is added to the solvent, the solvent -solvent bonds becomes weaken and solvent -solute bonds make the solvent molecules difficult to escape into vapor phase. This will increase the boiling point.
Similarly, the addition of salt makes the solvent molecules in intact and the intermolecular force between solute-solvent molecules makes them easily freeze which leads to depression in freezing point.
Both these changes are colligative property. As the concentration of solute increases, the elevation of boiling point or the depression in freezing point increases.
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Is XeF2 a polar or nonpolar compound?
Xenon difluoride (XeF₂) is a non-polar compound.
Generally covalent compounds in which there is no electronegativity difference are defined as non-polar covalent compounds. In these type of compounds, there is no change of electronegativity such that there is no motion of bond pair of electrons moving towards the bonded atoms. Non-polar compounds usually possess symmetrical polar bonds that can cancel out some sort of net dipole.
In Xenon difluoride molecule fluorine and xenon atoms generally forms two covalent bonds (Xe-F) with each other. Fluorine atom usually attracts bonded electron pair towards itself due to higher electronegativity. Then fluorine usually acquires a negative charge while xenon acquires a positive charge. And the compound becomes non-polar.
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what is the bond order of n2?
The bond order of N₂ is three.
Generally, bond order is described as the number of bonding pairs of electrons that is present between two atoms. Basically, between two atoms in a covalent bond, the bond order of a single bond is of one, the bond order of a double bond is of two, and the bond order of a triple bond is of three, and trend goes so on.
Mathematically,
Bond order = [Bonding molecules' number of electrons – Antibonding molecules' number of electrons] × 1/2.
Hence, bond order of both N2+ and N2- is 3, but according to the molecular orbital theory, N2- has more antibonding electrons than N2+.
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Interconverting molar mass and density of ideal gases Calculate to three significant digits the density of dinitrogen monoxide gas at exactly 20 °C and exactly 1 atm.You can assume dinitrogen monoxide gas behaves as an ideal gas under these conditions.
The density of dinitrogen monoxide gas at exactly 20 °C and exactly 1 atm is 1.83 g/L.
The problem states that we can treat this gas as an ideal gas, therefore, we can use the equation of an ideal gas which is:
PV = nRT
Now, the density (d) is calculated as:
d = m/V
We can rewrite above equation,
m = d*V
Now, the moles (n),
n = m /MM
The ideal gas equation is,
d = P * MM / RT
The molar mass of N₂O is 44 g/mol.
So, replacing all the data we have:
[tex]d = \dfrac{1 \times 44}{0.082 \times 293}[/tex]
d = 1.83 g/L
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When the free energy of the reaction is lower in the products than it is in the reactant the reaction is?
When the free energy of the reaction is lower in the products than it is in the reactants, the reaction is exergonic.
An exergonic reaction is a spontaneous chemical reaction that releases energy as a result of the products having lower free energy than the reactants. This means that the reaction can occur spontaneously without the need for additional energy input. The difference in free energy between the reactants and the products determines the amount of energy that is released during the reaction. In contrast, an endergonic reaction is a non-spontaneous chemical reaction that requires energy input to occur, and the free energy of the products is higher than that of the reactants.
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what is zinc's atomic number?
The atomic number of zinc is 30.
Generally, the atomic number is simply defined as the number of protons present in an atom. Due to this reason, atomic number is also sometimes known as the proton number. During the calculations, atomic number is usually denoted by the capital letter Z. The symbol Z is derived from the a German word zahl, which means number of numeral, or atomzahl, which is a more modern word which means atomic number.
The atomic number is basically the number of protons present in the nucleus of an atom. The number of protons are used to define the identity of an element (i.e., an element with 6 protons is a carbon atom, no matter how many neutrons may be present in the atom, identity depends upon the number of protons.)
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determine whether each of the examples represents a colligative property or a non-colligative property.
Examples of colligative properties include boiling point elevation, freezing point depression, vapor pressure lowering, and osmotic pressure.
Examples of non-colligative properties include color, density, and refractive index. These properties depend on the identity of the solute particles and not on their concentration.
Colligative properties are properties of a solution that depend on the concentration of solute particles in the solution and are independent of the identity of the solute particles. Non-colligative properties, on the other hand, are properties of a solution that are dependent on the identity of the solute particles.
It is important to note that while colligative properties are not affected by the identity of the solute particles, they do depend on the number of particles in the solution. Therefore, colligative properties can be used to determine the molecular weight of a solute or the degree of dissociation of an ionic compound.
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