Write a chemical equation depicting what happens to the salt in water.

Answer:

3.25*10^24

Explanation:

The initial value of constant [tex]{{\text{k}}_1}[/tex] is 48.0 atmL and the final value of constant [tex]{{\text{k}}_2}[/tex]  is 48.0 atmL. This proves that Boyle's lawis obeyed by gas.

Further explanation:

Boyle’s law:

It is an experimental gas law that describes the relationship between pressure and volume of the gas. According to Boyle's law, the volume of the gas is inversely proportional to the pressure of the system, provided that the temperature and the number of moles of gas remain constant.

If the temperature and number of moles of gas are constant then the equation (1) will become as follows:

[tex]{\text{PV}} = {\text{k}}[/tex]                 ……(2)

Here, k is a constant.

Or it can also be expressed as follows:

[tex]{{\text{P}}_1}{{\text{V}}_1} = {{\text{P}}_2}{{\text{V}}_2}[/tex]    ……(3)

Here,

[tex]{{\text{P}}_1}[/tex] is the initial pressure.

[tex]{{\text{P}}_2}[/tex] is the final pressure.

[tex]{{\text{V}}_1}[/tex] is the initial volume.

[tex]{{\text{V}}_2}[/tex] is the final volume.

Boyle'slaw for the initial condition of gas can be written as,

[tex]{{\text{P}}_1}{{\text{V}}_1}={{\text{k}}_1}[/tex]                                   …… (4)

Substitute 4.0 atm for [tex]{{\text{P}}_1}[/tex]  and 12.0 L for [tex]{{\text{V}}_1}[/tex]  in equation (4).

[tex]\begin{aligned}\left( {4.0{\text{ atm}}}\right)\left({12.0{\text{ L}}}\right)&= {{\text{k}}_1}\hfill\\48.0{\text{ atm}}\cdot{\text{L}}&= {{\text{k}}_1}\hfill\\\end{aligned}[/tex]

Boyle's law for the final condition of gas can be written as,

[tex]{{\text{P}}_2}{{\text{V}}_2} = {{\text{k}}_2}[/tex]                                   …… (5)

Substitute 8.0 atm for [tex]{{\text{P}}_2}[/tex]  and 6.0 L for [tex]{{\text{V}}_2}[/tex]  in equation (5).

[tex]\begin{aligned}\left( {8.0{\text{ atm}}}\right)\left({6.0{\text{ L}}}\right)&={{\text{k}}_2}\hfill\\48.0{\text{ atm}}\cdot{\text{L}}&={{\text{k}}_2}\hfill\\ \end{aligned}[/tex]

Since the value of [tex]{{\text{k}}_1}[/tex] and [tex]{{\text{k}}_2}[/tex]  is equal in both cases thus this gives,

 [tex]{{\text{P}}_1}{{\text{V}}_1} = {{\text{P}}_2}{{\text{V}}_2}[/tex]

Hence, it is proved that Boyle's law is obeyed by the given gas.

Learn more:

1. Law of conservation of matter states: https://brainly.com/question/2190120

2. Calculation of volume of gas: https://brainly.com/question/3636135

Answer details:

Grade: Senior School

Subject: Chemistry

Chapter: Ideal gas of equation

Keywords: Boyle's law, volume, temperature, pressure, volume pressure relationship, constant temperature, relationship, V inversely proportional to P, ideal gas, ideal gas equation number of mole and moles.

The answer is: Waves interact with objects and other waves.

There are many types of waves, with different energy and interactions witt.

In order from highest to lowest energy: gamma rays, X-rays, ultraviolet radiation, visible light, infrared radiation, and radio waves.

For example, ultraviolet wave is a type of electromagnetic radiation.

Ultraviolet has shorter waves and higher energy than violet, it lies between visible light and X-rays on the electromagnetic spectrum.

Ultraviolet radiation oscillates at rates between about 800 terahertz (THz) and 30000 THz.

To effectively stop both beta particles and gamma waves, scientists use a chamber composed of lead (Pb).

Answer:

objects and waves

Explanation:

Final answer:

Butyl iodide is used in Williamson ether synthesis due to iodide ion being a better leaving group than chloride, facilitating the formation of ethers more selectively and efficiently.

Explanation:

Butyl iodide is preferred over butyl chloride in a Williamson ether synthesis because of its ease in undergoing nucleophilic substitution due to the Iodide ion (I-) being a better leaving group than the Chloride ion (Cl-).

The Iodide ion is larger and more polarizable compared to chloride, which means the carbon-iodine bond can be more easily broken during the reaction, facilitating the formation of the ether product.

Additionally, iodide is a weaker base than chloride, which reduces the chance of side reactions such as elimination, leading to a more selective and efficient ether synthesis.

Final answer:

pressure of 34.19 atmospheres.

Explanation:

To find the pressure in atmospheres of 1360.0g of N2O gas compressed in a 25.0L cylinder at 59.0°C, use the Ideal Gas Law PV = nRT, where:

First, calculate the moles of N2O:

Molecular mass of N2O = (14.0×2) + 16.0 = 44.0g/mol

Moles of N2O = 1360.0g / 44.0g/mol = 30.91mol

Then, substitute the values into the Ideal Gas Law and solve for P:

P = (nRT)/V = (30.91mol × 0.0821 L·atm/K·mol × 332.15 K) / 25.0L = 34.19 atm

The answer is hydrogen (H2) because i just answered this question from Edgenuit.

Answer: Option (a) is the correct answer.

Explanation:

An organic compound that contains "-COOH" as the function group is known as carboxylic compound.

A carboxylic compound is an acid as it dissociates to give hydrogen ion.

          [tex]R-COOH \rightarrow R-COO^{-} + H^{+}[/tex]

Whereas a compound with functional group "-OH" is known as alcohol.

And, a compound with general formula RCOOR' is known as an ester.

Thus, we can conclude that the R-COOH compound behaves as an acid.

Propanal undergoes nucleophilic addition with excess ethanol under acidic conditions, forming ethyl propanoate (ethyl propionate) and water through esterification.

Let's go into more detail about the reaction between propanal [tex](\(CH_3CH_2CHO\))[/tex] and ethanol [tex](\(EtOH\))[/tex] under acidic conditions.

1.  Nucleophilic Addition of Ethanol:

  - In the presence of an acid catalyst, such as sulfuric acid [tex](\(H_2SO_4\))[/tex], the carbonyl group of propanal undergoes nucleophilic addition with ethanol.

  - The oxygen in the carbonyl group acts as a nucleophile attacking the partially positive carbon of the carbonyl carbon.

 [tex]\[ \ce{CH3CH2CHO + EtOH} \xrightarrow{acid} \ce{CH3CH2COOCH2CH3} \][/tex]

2. Formation of Hemiacetal:

  - Initially, a hemiacetal is formed, which involves the addition of one molecule of ethanol to the carbonyl group.

[tex]\[ \ce{CH3CH2CHO + EtOH} \xrightarrow{acid} \ce{CH3CH(OH)CH2COOCH2CH3} \][/tex]

3. Formation of Acetal (Ester):

  - The hemiacetal formed can undergo another nucleophilic addition with a second molecule of ethanol, leading to the formation of the acetal (ester) and regeneration of the acid catalyst.

 [tex]\[ \ce{CH3CH(OH)CH2COOCH2CH3} \xrightarrow{acid} \ce{CH3CH2COOCH2CH3 + H2O} \][/tex]

4. Overall Reaction:

  - The overall reaction involves the addition of two molecules of ethanol to propanal, resulting in the formation of ethyl propanoate (ethyl propionate) and water.

[tex]\[ \ce{CH3CH2CHO + 2 EtOH} \xrightarrow{acid} \ce{CH3CH2COOCH2CH3 + H2O} \][/tex]

The ethyl propanoate formed is an ester, and this reaction is an example of an esterification reaction under acidic conditions. It's important to note that excess ethanol is used to drive the reaction to completion, and the acidic conditions help in the protonation and activation of the carbonyl group for nucleophilic attack by ethanol.

Complete Question

Plants, the ocean, and soil serve as the primary natural carbon sinks. A portion of the carbon dioxide that plants absorb from the environment to use in photosynthesis is transferred to the soil as plants disintegrate and die.

Anything—natural or artificial—that gathers and stores a carbon-containing chemical compound over an extended period of time eliminates carbon dioxide from the atmosphere.

The ocean and vegetation are the two most significant carbon sinks on a global scale.

Typically, forests act as carbon sinks, absorbing more carbon than they emit. Through photosynthesis, they remove carbon from the atmosphere on a constant basis.

Another example of a carbon sink is the ocean, which takes in a lot of carbon dioxide from the atmosphere.

Therefore, the ocean, plants, and soil serve as the primary natural carbon sinks.

Learn more about carbon sinks here:

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Answer:

Use less energy.

Explanation:

Hello,

High energy consumption implies higher costs during the usage of a product, nevertheless, by avoiding this factor, money could be saved in addition of the environmental damage that is prevented in the light of the lower energy use.

Best regards.

The balanced chemical equation for the reaction of acetone (C3H6O) with oxygen (O2) to form carbon dioxide (CO2) and water (H2O) is C3H6O + 4 O2 → 3 CO2 + 3 H2O (option a). It preserves mass and element conservation.

The balanced chemical equation for the reaction of acetone (C3H6O) with oxygen (O2) to form carbon dioxide (CO2) and water (H2O) is:

a. C3H6O + 4 O2 → 3 CO2 + 3 H2O.

In this balanced equation, the number of carbon atoms, hydrogen atoms, and oxygen atoms on both sides is the same, ensuring that mass and element conservation are maintained.

Explanation:

- On the left side (reactants), there is one molecule of acetone (C3H6O) and four molecules of oxygen (O2).

- On the right side (products), there are three molecules of carbon dioxide (3 CO2) and three molecules of water (3 H2O).

This equation satisfies the law of conservation of mass and the law of conservation of elements because the number of each type of atom (carbon, hydrogen, and oxygen) remains the same on both sides of the equation. Option (a) is the correct balanced chemical equation for this reaction.

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Answer:

Displacement

Explanation:

Answer: It can identify the sources of polluted water.

Scientific innovations and researches have been proved to be beneficial in solving the day to day social problems such as household practices such as cooking, washing of cloth, industrialization and conservation of the environment.

It can identify the sources of polluted water is the correct example of how science can solve social problems. The source of pollution can be identified by tracing back it's origin and application of filters and purifiers can help in controlling the pollution.

An example of how science can solve social problems is : ( B ) It can Identify the sources of polluted water

Several scientific innovations have made the identification and resolution of certain problems easier and one of such is the ability to Identify the dangers and sources of pollution.

Certain natural conditions such as excessive rain, cyclones and severe weather conditions can be identified but not stopped because they occur naturally.

Hence an example of how science can solve social problems is It can identify the sources of polluted water.

Learn more about Polluted water : https://brainly.com/question/1235358

Answer:

On plato this would be D a fault line

Explanation: