In the reaction: pb + 2ag+ → pb2+ + 2ag, the oxidizing agent is

Answer:  Engineers can design better bridges because they know how metal changes shape.

Explanation:  Physical Properties are those properties which are also regarded as observable because they can be easily seen or observe through naked eyes like melting point etc.

These are those properties which do not change chemical identity of the species.

Thus out of the given options, only physical property is the change of shape of metal.

And the rest one represents the chemical property as chemical property are the one which changes the chemical identity of the substance.

The intermolecular forces between Br2 and CCl4 are London dispersion forces, as both substances are nonpolar molecules.

The intermolecular forces that exist between Br2 and CCl4 are London dispersion forces. These are the weakest type of intermolecular force and exist between all molecules, irrespective of whether they are polar or nonpolar. Br2 and CCl4 both are nonpolar molecules, so they don't exhibit dipole-dipole attractions, which are typically stronger than dispersion forces.

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2 is the coefficient that correctly balance the formula equation: NH4NO2 → N2 + H2O.

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Answer: Both will diffuse at the same rate

Explanation:

According to Graham's law, the rate of diffusion is inversely proportional to the square root of the relative molecular mass of the gases. The two gases, carbon II oxide and nitrogen gas has the same relative molecular mass (28). This implies that they must diffuse at the same rate through an membrane.

The chef would need to add approximately 555.2 moles of salt NaCl to 1.0 kg of water to raise its boiling point to 105°C.

To determine how many moles of salt NaCl are needed to raise the boiling point of 1.0 kg of water to 105°C, we can use the concept of boiling point elevation and the colligative property of solutions.

Given data.

- Mass of water, [tex]\( m = 1.0 \) kg = \( 1000 \) g\\[/tex]

- Desired boiling point of water,[tex]\( T_{\text{new}} = 105 \)°C[/tex]

- Boiling point constant for water,[tex]\( K_b = 0.25 \) °C/m[/tex]

- Van't Hoff factor for NaCl [tex]\( i \) = 2 since NaCl dissociates completely into Na+ and Cl- ions in water[/tex]

First, calculate the change in boiling point [tex]\( \Delta T_b \)[/tex] using the formula for boiling point elevation

[tex]\[ \Delta T_b = i \cdot K_b \cdot m_{\text{salt}} \][/tex]

where.

- [tex]\( i \)[/tex] is the Van't Hoff factor,

- [tex]\( K_b \)[/tex] is the boiling point elevation constant,

- [tex]\( m_{\text{salt}} \)[/tex] is the molality of the salt in the solution.

To find [tex]\( m_{\text{salt}} \)[/tex], rearrange the equation:

[tex]\[ m_{\text{salt}} = \frac{\Delta T_b}{i \cdot K_b} \][/tex]

Calculate [tex]\( \Delta T_b \):[/tex]

[tex]\[ \Delta T_b = T_{\text{new}} - T_{\text{normal}} = 105 \text{°C} - 100 \text{°C} = 5 \text{°C} \][/tex]

Substitute the values into the equation.

[tex]\[ m_{\text{salt}} = \frac{5 \text{ °C}}{2 \cdot 0.25 \text{ °C/m}} \][/tex]

[tex]\[ m_{\text{salt}} = \frac{5}{0.5} \][/tex]

[tex]\[ m_{\text{salt}} = 10 \text{ mol/kg} \][/tex]

This molality [tex]10 mol/kg[/tex] represents the number of moles of salt per kilogram of solvent water.

To find the moles of salt [tex]\( n_{\text{salt}} \)[/tex] needed.

[tex]\[ n_{\text{salt}} = m_{\text{salt}} \cdot \frac{m_{\text{water}}}{M_{\text{water}}} \][/tex]

where.

[tex]- \( m_{\text{water}} \) is the mass of water[/tex],

[tex]- \( M_{\text{water}} \) is the molar mass of water.[/tex]

Calculate [tex]\( M_{\text{water}} \)[/tex].

[tex]\[ M_{\text{water}} = 18.015 \text{ g/mol} \][/tex]

Convert [tex]\( m_{\text{water}} \) to grams[/tex].

[tex]\[ m_{\text{water}} = 1000 \text{ g} \][/tex]

calculate [tex]\( n_{\text{salt}} \)[/tex].

[tex]\[ n_{\text{salt}} = 10 \text{ mol/kg} \cdot \frac{1000 \text{ g}}{18.015 \text{ g/mol}} \]\\[/tex]

[tex]\[ n_{\text{salt}} = 10 \cdot \frac{1000}{18.015} \text{ mol} \][/tex]

[tex]\[ n_{\text{salt}} \approx 555.2 \text{ mol} \][/tex]

The correct term for the total amount of living tissue within a given trophic level is biomass. It encompasses the weight of all living organisms within an ecosystem or a specific trophic level. The answer to the student's query is thus d. biomass.

The total amount of living tissue within a given trophic level is referred to as the biomass. Biomass can be considered as the weight of all living organisms within a particular ecosystem or at a specific trophic level. This includes animals, plants, microorganisms and all other living things. For example, in a forest ecosystem, the biomass includes everything from the massive trees to the tiny fungi and bacteria within the soil. Therefore, the answer to the student's question is d. biomass.

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Answer : The correct answer is Name = Thallium (Th) , atomic mass = 210 and atomic number = 81 .

Alpha decay :

When atomic nucleus emits an alpha particle that process is known as alpha particle decay . The symbol of alpha particle is [tex] _2^4He [/tex] , where 4 is atomic mass ( 2 protons + 2 neutrons ) and 2 atomic number .

When alpha particle is released the resultant nuclei (daughter nuclei) have 4 less atomic mass and 2 less atomic number .

Example for nuclear equation of alpha decay can be expressed as:

[tex] ^{230}_{90}Th \rightarrow _2^4He + ^{226}_{88}Ra [/tex]

Given :

Radioisotope = Bi Atomic mass = 214 Atomic number = 83

When it will release alpha particle , atomic mass will be decreased by 4 and atomic number by 2 .

Atomic mass = 214 - 4 = 210 Atomic number = 83-2 = 81

The atom with atomic number 81 is Thallium (Tl) . Hence the daughter nuclei so produced is [tex] ^{210}_{81}Tl [/tex]

The nuclear reaction can be written as :

[tex] ^{214}_{83}Tl \rightarrow ^4_2He + ^{210}_{81}Tl [/tex]

The volume of 576 grams of SO₂ gas at STP is approximately [tex]\( 200 \, \text{L}} \).[/tex]

To find the volume of 576 grams of SO₂ gas at STP (Standard Temperature and Pressure), we can use the ideal gas law equation:

[tex]\[ PV = nRT \][/tex]

Where:

- P is the pressure (at STP, [tex]\( P = 1 \)[/tex] atm)

- V is the volume of the gas

- n is the number of moles of gas

- R is the ideal gas constant [tex](\( R = 0.0821 \, \text{Latm/(molK)} \))[/tex]

- T is the temperature in Kelvin (at STP, [tex]\( T = 273.15 \)[/tex] K)

First, calculate the number of moles [tex]\( n \)[/tex] of SO₂ gas:

1. Calculate the molar mass of SO₂:

  - Atomic mass of S = 32.07 g/mol

  - Atomic mass of O = 16.00 g/mol (there are 2 oxygen atoms)

  - Molar mass of SO₂ = [tex]\( 32.07 + 2 \times 16.00 = 64.07 \)[/tex] g/mol

2. Convert grams of SO₂ to moles:

[tex]\[ n = \frac{\text{mass}}{\text{molar mass}} = \frac{576 \, \text{g}}{64.07 \, \text{g/mol}} \approx 9.00 \, \text{mol} \][/tex]

Now, use the ideal gas law to find the volume V:

[tex]\[ V = \frac{nRT}{P} \][/tex]

[tex]\[ V = \frac{9.00 \, \text{mol} \times 0.0821 \, \text{Latm/(molK)} \times 273.15 \, \text{K}}{1 \, \text{atm}} \][/tex]

[tex]\[ V \approx 200 \, \text{L} \][/tex]

The pH of the second solution, given that the mixture of the two solution has a pH of 5, is 4.05

How to calculate the pH of the second solution?

First, we shall obtain the hydogen ion, [tex]H^+[/tex] of the first solution and the mixture solution. Details below:

For first solution:

[tex]H^+ = Antilog (-4)\\\\H^+ = 0.0001\ M\\\\[/tex]

For mixture solution:

[tex]H^+ = Antilog (-5)\\\\H^+ = 0.00001\ M\\\\[/tex]

Now, we shall obtain the [tex]H^+[/tex] of the second solution. Details below:

[tex]H^+[/tex] of second solution = [tex]H^+[/tex] of first solution -  [tex]H^+[/tex] of mixture solution

= 0.0001 - 0.00001

= 0.00009 M

Finally, we shall calculate the pH of the second solution. Details below:

pH = -Log Hydrogen ion [tex]H^+[/tex]

pH = -Log 0.00009

pH = 4.05

According to the Arrhenius theory a substance that yields hydrogen ions as the only ion in an aqueous solution is Acid.

Acids are those substances which are having pH range from 0 to 7.

According to the Arrhenius theory of acid and base, acids are those compounds which donate H⁺ ion or proton in the aqueous medium and bases are those substances which donate OH⁻ ion in the aqueous medium.

Example of Arrhenius acids are HCl, CH₃COOH, HNO₃, etc.

Hence, those substance which yields H⁺ ions is acids.

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Answer:

It must be vaporized is the answer

Explanation:

took thest

Answer:

Alcoholic fermentation

Explanation:

Alcoholic fermentation is an anaerobic process executed by yeasts, molds and some bacteria, which cause chemical changes in organic substances.

Alcoholic fermentation has the biological function of supplying energy to microorganisms in the absence of oxygen. To achieve this, the glucose molecules are dissociated and in this way the energy required to survive is obtained, producing ethanol and CO2 as products.

According to law of conservation of mass, mass is neither created nor destroyed and hence for a chemical reaction the mass of reactants and products is equal.

According to law of conservation of mass, it is evident that mass is neither created nor destroyed rather it is restored at the end of a chemical reaction .

Law of conservation of mass and energy are related as mass and energy are directly proportional which is indicated by the equation E=mc².Concept of conservation of mass is widely used in field of chemistry, fluid dynamics.

Law needs to be modified in accordance with laws of quantum mechanics under the principle of mass and energy equivalence.This law was proposed by Antoine Lavoisier in the year 1789.

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The net ionic equation for the reaction between aqueous nitric acid and aqueous sodium hydroxide is H+ (aq) + OH- (aq) → H2O (l). It represents a neutralization reaction, where hydrogen ions from the nitric acid and hydroxide ions from sodium hydroxide react to form water.

The net ionic equation for the reaction between aqueous nitric acid (HNO3) and aqueous sodium hydroxide (NaOH) is an example of a neutralization reaction, where an acid and a base react to form water and a salt. The general complete ionic equation would be: HNO3(aq) + NaOH(aq) → NaNO3(aq) + H2O(l). However, to obtain the net ionic equation, you only include the species that undergo a chemical change, which are the hydrogen ions (H+) from the nitric acid and the hydroxide ions (OH-) from the sodium hydroxide. Thus, the net ionic equation becomes: H+ (aq) + OH- (aq) → H2O (l).

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Answer:

56 g

Explanation:

Answer:

d

Explanation:

Final answer:

In the oxidation half-reaction, every mole of Mg(s) loses 2 moles of electrons. Therefore, to balance the 2.0 moles of electrons gained by [tex]Ni^2^+[/tex](aq), 2.0 moles of Mg(s) must have lost 2.0 moles of electrons.

Explanation:

The question involves determining the number of moles of electrons lost by Mg(s) during a redox reaction where electrons are transferred from magnesium to nickel ions.

The given balanced reaction is oxidation of Mg(s), which can be represented as: Mg(s) → [tex]Mg^2^+[/tex](aq) + 2e-. Every mole of Mg loses 2 moles of electrons during the oxidation process.

If 2.0 moles of electrons are gained by [tex]Ni^2^+[/tex](aq), this corresponds to the reduction half of the reaction, and the same number of moles of electrons must have been lost by Mg in the oxidation half. Hence, 2.0 moles of Mg would lose 2.0 moles of electrons to provide the electrons gained by [tex]Ni^2^+[/tex](aq).

Answer:

This is a specific type of dipole-dipole force is known as Hydrogen bonding.

Explanation:

Hydrogen bonding (H-bonding) is an intermolecular force having partial ionic-covalent character. H-bonding takes place between a hydrogen atom attached with an electronegative atom( like : O, N and F) and lone pairs of electrons on an neighboring atoms.

Generally this type of bonding is observed where atoms like nitrogen , oxygen, fluorine attached to another molecule are present in neighbors of a hydrogen atom attached to other molecule. This bonding arises due to the interaction between the  developed partial positive and negative charges on the hydrogen and electronegative atoms.