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Read the chemical equation. N2 + 3H2 – 2NH3 Using the volume ratio, determine how many liters of NH3 is produced if 3. 6 liters of H2 reacts with an excess of N2, if all measurements are taken at the same temperature and pressure? 5. 4 liters 2. 4 liters 1. 8 liters 1. 2 liters​

Answers

Answer 1

To solve this problem, we need to use the volume ratio from the balanced chemical equation. The ratio tells us that for every 3 liters of [tex]H_2[/tex] that reacts, 2 liters of [tex]NH_3[/tex] are produced.

In this case, we have 3.6 liters of [tex]H_2[/tex]  reacting, so we can set up a proportion:

3 L [tex]H_2[/tex]  : 2 L [tex]NH_3[/tex] = 3.6 L [tex]H_2[/tex]  : x L [tex]NH_3[/tex]

To solve for x (the amount of NH3 produced), we can cross-multiply:

3 L [tex]H_2[/tex]  * x L [tex]NH_3[/tex] = 2 L [tex]NH_3[/tex] * 3.6 L [tex]H_2[/tex]  

Simplifying, we get:

x = (2 L [tex]NH_3[/tex] * 3.6 L [tex]H_2[/tex] ) / 3 L [tex]H_2[/tex]  

x = 2.4 L [tex]NH_3[/tex]

Therefore, the answer is 2.4 liters of [tex]NH_3[/tex] produced if 3.6 liters of [tex]H_2[/tex]  reacts with an excess of [tex]N_2[/tex].

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Related Questions

2.


What can be concluded from this thermochemical equation?


NaOH(s) → Na*(aq) + OH(aq) AH - - 45 kJ/mol run


A Sodium and hydroxide ions have more potential energy then solid sodium hydroxide.


B The dissolving of sodium hydroxide is an endothermic process.


C The temperature of the solution would increase as sodium hydroxide dissolves


D The rate of dissolution increases as temperature is decreased

Answers

The dissolving of sodium hydroxide is an endothermic process.

The given thermochemical equation shows that the dissolution of NaOH is an endothermic process. The negative value of the enthalpy change (AH) indicates that energy in the form of heat is absorbed during the process of dissolving NaOH. This means that the system requires energy to break the ionic bonds between NaOH molecules and to separate them into their constituent ions, Na+ and OH-. Option A is incorrect as potential energy is not mentioned in the equation, and option D is not related to the given equation. Option C is not necessarily true, as the temperature change of the solution depends on the amount of NaOH dissolved and the specific heat of the solution. Overall, we can conclude that the dissolution of NaOH is an endothermic process, where heat is absorbed by the system, and the enthalpy of the system increases.

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What is the molarity of a NaOH solution if 25. 0 mi is required to completely neutralize


40. 0 ml of a 1. 5 M solution of H2SO4?

Answers

The molarity of the NaOH solution is 1.2 M.

To calculate the molarity of the NaOH solution, first determine the moles of H₂SO₄, then determine the moles of NaOH needed for neutralization, and finally, calculate the molarity of NaOH. Here's a step-by-step explanation:

1. Calculate moles of H₂SO₄: Moles = Molarity × Volume = 1.5 M × 0.040 L = 0.060 moles H₂SO₄


2. Determine moles of NaOH needed for neutralization:

The balanced equation for the reaction is H₂SO₄ + 2NaOH → Na₂SO₄ + 2H₂O. Based on the stoichiometry, 1 mole of H₂SO₄ reacts with 2 moles of NaOH, so 0.060 moles H₂SO₄ × 2 = 0.120 moles NaOH needed.


3. Calculate molarity of NaOH: Molarity = Moles / Volume = 0.120 moles NaOH / 0.025 L = 1.2 M NaOH solution.

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A sample of bromine gas occupies 2. 65 L at 1. 20 atm. What pressure (in kPa) would this sample of gas exert in 1. 50L container at the same temperature? show work


ASAP PLEASE

Answers

We can use the ideal gas law to calculate the pressure of the bromine gas in the 1.5 L container. The ideal gas law is PV = nRT, where P is the pressure, V is the volume, n is the number of moles, R is the ideal gas constant, and T is the temperature.

Since we know the temperature and the volume, we can rearrange the ideal gas law to solve for P, the pressure. We can use the pressure and volume from the first container to calculate the number of moles. Plugging in all of the known values, we get:

P1V1 = nRT

n = P1V1/RT

P2 = (P1V1/RT) * (V2/V1)

Using the values from the question, we get:

P2 = (1.20 atm * 2.65 L)/(0.08206 L·atm·mol-1·K-1 * 298 K) * (1.50 L/2.65 L)

This gives us a pressure of 1.04 atm in the 1.5 L container, which is equal to 1040 kPa.

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The Goodyear Blimp has a volume of 5. 74 x 10e6 L. If it was also filled with hydrogen, how many moles of hydrogen would fit into the blimp?

Answers

The mass of helium present in the blimp is 644 kg.

To calculate the mass of helium present in the blimp, we can use the ideal gas law:

PV = nRT

where:

We can rearrange this equation to solve for the number of moles of gas:

n = PV/RT

Substituting the given values, we get:

n = (1.2 atm) x [tex](5.74 * 10^6 L)[/tex]/ [(0.08206 L·atm/K·mol) x (25°C + 273.15)]

n = 1.61 x [tex]10^5[/tex] moles of helium

Now, to calculate the mass of helium present in the blimp, we can use the molar mass of helium:

mass = n x molar mass

mass = (1.61 x [tex]10^5 mol[/tex]) x (4.00 g/mol)

mass = 644 kg

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--The complete Question is, If the Goodyear Blimp is filled with helium gas at a pressure of 1.2 atm and a temperature of 25°C, what is the mass of helium present in the blimp? (Assume ideal gas behavior and a molar mass of 4.00 g/mol for helium.) --

Calculate the grams of H2O produced when 9. 75 grams of NH3 reacts with excess oxygen.



4NH3 + 5O2 → 4NO + 6H2O



Molar Masses: NH3 = 17. 031 O2 = 31. 998 NO = 30. 006 H2O= 18. 015




A 11. 9 grams



B 10. 3 grams



C 61. 9 grams



D 15. 5 grams

Answers

The answer is D) 15.5 grams.


To solve this problem, we need to use stoichiometry and the given balanced chemical equation. First, we need to determine the limiting reagent by calculating the number of moles of NH3 and O2:

9.75 g [tex]NH_3[/tex] x (1 mol  [tex]NH_3[/tex]/17.031 g  [tex]NH_3[/tex]) = 0.571 mol  [tex]NH_3[/tex]
Excess O2, so we do not need to calculate.

Now, we can use the mole ratio from the balanced equation to determine the moles of H2O produced:

0.571 mol  [tex]NH_3[/tex] x (6 mol H2O/4 mol  [tex]NH_3[/tex]) = 0.857 mol H2O

Finally, we can convert the moles of H2O to grams:

0.857 mol H2O x (18.015 g H2O/1 mol H2O) = 15.44 g H2O

Therefore, the answer is D) 15.5 grams.

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What are some things you use in your life that uses sound energy? _

Answers

Some things that you use in your life that uses sound energy are car horn honking and car door closing.

Sound is the longitudinal (compression or rarefaction) wave-based transfer of energy through materials.

When a force, such as sound or pressure, causes an item or substance to vibrate, the result is sound energy. Waves of that energy pass through the substance. We refer to the sound waves as kinetic mechanical energy.

Everyday Examples of Sound Energy

•An air conditioning fan.

•An airplane taking off.

•A ballerina dancing in toe shoes.

•A balloon popping.

•The bell dinging on a microwave.

•A boom box blaring.

•A broom swishing.

•A buzzing bee.

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Outline the best method for preparing the following aldehyde from an appropriate alcohol in one step. Draw the starting alcohol and select the best reagent.


The structure is a 6 carbon ring where carbon 1 is bonded to an aldehyde

Answers

To prepare the desired aldehyde with a 6-carbon ring and an aldehyde group on carbon 1, starting with cyclohexanol is a suitable approach.

Cyclohexanol is a 6-carbon ring compound with an alcohol group (OH) attached to carbon 1. To convert the alcohol group into an aldehyde group, the oxidation of the primary alcohol is required.

In this case, the best reagent to use for the oxidation of cyclohexanol to the corresponding aldehyde is PCC (pyridinium chlorochromate).

PCC is a mild oxidizing agent that selectively oxidizes primary alcohols to aldehydes without further oxidation to carboxylic acids. It allows for a controlled oxidation, preventing overoxidation of the aldehyde to a carboxylic acid.

The reaction using PCC as the oxidizing agent can be carried out in one step. The PCC reagent is typically dissolved in a suitable solvent, and the cyclohexanol is added to the reaction mixture.

The reaction proceeds, converting the alcohol group to an aldehyde group while maintaining the 6-carbon ring structure.

By using cyclohexanol as the starting alcohol and PCC as the reagent, you can achieve the desired aldehyde product with a 6-carbon ring and an aldehyde group on carbon 1 in a single step.

This method provides a reliable and efficient way to selectively oxidize the primary alcohol to the corresponding aldehyde without the risk of overoxidation.

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How many grams of no2 can be produced when 25.0 g of oxygen reacts?

Answers

71.875 grams of NO2 can be produced when 25.0 g of oxygen reacts in this reaction.

When 25.0 grams of oxygen reacts, the amount of NO2 produced can be determined by using stoichiometry. The balanced chemical equation for the reaction is:

2 NO + O2 → 2 NO2

From the equation, it can be seen that for every one mole of O2, two moles of NO2 are produced. Therefore, the first step is to convert the given mass of oxygen into moles. The molar mass of oxygen is 32 g/mol, so:

25.0 g O2 ÷ 32 g/mol = 0.78125 mol O2

Since the stoichiometry of the reaction shows that two moles of NO2 are produced for every one mole of O2, the next step is to calculate the number of moles of NO2 produced:

0.78125 mol O2 × 2 mol NO2/1 mol O2 = 1.5625 mol NO2

Finally, the mass of NO2 can be calculated by multiplying the number of moles of NO2 by its molar mass, which is 46 g/mol:

1.5625 mol NO2 × 46 g/mol = 71.875 g NO2

Therefore, 71.875 grams of NO2 can be produced when 25.0 g of oxygen reacts in this reaction.

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10 ml graduated cylinder (mL stands for milliliter)


• gram scale


• Water


• 6 metal paper clips of the same size and material


Part A


Use the gram scale to measure the mass of the empty graduated cylinder, and record the value

Answers

A graduated cylinder is a piece of laboratory equipment used for measuring the volume of liquids, and in this case, it has a capacity of 10 ml.

The gram scale, on the other hand, is a device used for measuring the mass of objects and materials. To begin the experiment, you will need to first measure the mass of the empty graduated cylinder using the gram scale. This will give you a baseline measurement for the weight of the cylinder without any additional substances. You should record this value for future reference.

Next, you will need to fill the graduated cylinder with water up to the 10 ml mark. This can be done by slowly pouring the water into the cylinder until the level reaches the desired volume.

After filling the cylinder with water, you will need to measure the mass of the cylinder and the water together using the gram scale. Subtract the mass of the empty cylinder from the total mass to find the mass of the water.

Finally, you will need to add the six metal paper clips of the same size and material to the cylinder and measure the mass again. This will allow you to determine the difference in mass between the water and the paper clips.

Overall, this experiment demonstrates the use of laboratory equipment to measure the volume and mass of substances, and highlights the importance of accurate measurements in scientific research.

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If 84g of urea (CH4N2O) is dissolved in 1400. G of chloroform, what is the elevation in the boiling point? Kb for benzene is 2. 67 Co/m

Answers

The elevation in the boiling point when 84g of urea is dissolved in 1400g of chloroform is 3.63 °C.

To determine the elevation in the boiling point when 84g of urea (CH4N2O) is dissolved in 1400g of chloroform, you will need to use the formula for calculating the boiling point elevation:

ΔTb = Kb * molality * i, where ΔTb is the boiling point elevation, Kb is the molal boiling point elevation constant (for chloroform, not benzene), molality is the moles of solute per kilogram of solvent, and i is the van't Hoff factor.

Step 1: Calculate the molality.
Molality = moles of solute / mass of solvent (in kg)
The molar mass of urea (CH4N2O) is 12 + 4 + 28 + 16 = 60 g/mol.
Moles of urea = 84g / 60 g/mol = 1.4 moles
Mass of chloroform = 1400g = 1.4 kg
Molality = 1.4 moles / 1.4 kg = 1 mol/kg

Step 2: Determine the van't Hoff factor (i).
Urea does not dissociate in solution, so its van't Hoff factor is 1.

Step 3: Calculate the boiling point elevation.
You provided the Kb for benzene (2.67 °C/m), which cannot be used for chloroform. Kb for chloroform is 3.63 °C/m.
ΔTb = Kb * molality * i
ΔTb = 3.63 °C/m * 1 mol/kg * 1
ΔTb = 3.63 °C

The elevation in the boiling point when 84g of urea is dissolved in 1400g of chloroform is 3.63 °C.

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What is the molarity of a solution if 1. 75 moles of KOH are dissolved in 2. 5 liters of water а 39 М с 0. 70 М b. 1А М d 4. 4M А В ОООО​

Answers

To calculate the molarity of a solution, we need to know the number of moles of solute and the volume of the solution in liters.

a. 39 M solution with 0.70 M KOH:

Number of moles of KOH = 0.70 moles/Liter x 2.5 Liters = 1.75 moles

Volume of solution = 2.5 Liters

Molarity of solution = Number of moles of solute / Volume of solution = 1.75 moles / 2.5 Liters = 0.70 M

b. 1 A solution:

This question is incomplete, as it is not specified what solute is dissolved in the solution. Therefore, it is not possible to calculate the molarity of the solution without this information.

c. 4.4 M solution of ABOOOO:

It is not possible to calculate the molarity of this solution without more information about the solute dissolved in the solution. The chemical formula or name of the solute is needed to determine the number of moles present in the solution.

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How many CN^-1 ions arw in your sample of 20. 9g of Ca(CN)2 from part e

Answers

There are 2.96 x 10^23 CN^-1 ions in the sample of 20.9 g of Ca(CN)2.

The first step to solving this problem is to calculate the number of moles of Ca(CN)2 in the sample:

[tex]moles of Ca(CN)2 = mass / molar mass\\moles of Ca(CN)2 = 20.9 g / (40.08 g/mol + 2 * 26.02 g/mol)\\moles of Ca(CN)2 = 0.2458 mol[/tex]

Next, we can use the stoichiometry of the reaction to find the number of moles of CN^-1 ions:

1 mol Ca(CN)2 → 2 mol CN^-1

[tex]moles of CN^{-1} = 2 * moles of Ca(CN)2 \\moles of CN^{-1 }= 2 * 0.2458 mol\\moles of CN^{-1} = 0.4916 mol[/tex]

Finally, we can convert the moles of CN^-1 ions to the number of ions using Avogadro's number:

1 mol CN^-1 → 6.022 x 10^23 ions

number of CN^-1 ions = moles of CN^-1 x Avogadro's number

number of CN^-1 ions = 0.4916 mol x 6.022 x 10^23 ions/mol

number of CN^-1 ions = 2.96 x 10^23 ions

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In a boiling pot of water are a metal spoon and a wooden spoon of equal masses/size. Which spoon would likely be more painful (higher in temperature) to grab? Assume that both spoons have been in the same pot of boiling water for the same amount of time. Explain this phenomena using the following terms: Heat, Mass, Temperature, Specific Heat Capacity, Heat Flow. Consider all possible factors in your explanation

Answers

The metal spoon is hotter than the wooden spoon due to its higher mass,

Heat is the energy transferred from one body to another due to a temperature difference. The amount of heat transferred is proportional to the mass of the object and its specific heat capacity. Specific heat capacity is the amount of heat required to raise the temperature of one unit mass of the substance by one degree Celsius.

In this scenario, the two spoons are of equal size, but the metal spoon has a higher mass and specific heat capacity compared to the wooden spoon. When both spoons are placed in the boiling water, heat flows from the water to the spoons until they reach the same temperature as the water.

However, due to the higher mass and specific heat capacity of the metal spoon, it requires more heat energy to raise its temperature compared to the wooden spoon. As a result, the metal spoon takes a longer time to reach the same temperature as the wooden spoon.

Additionally, metals are better conductors of heat compared to wood. Therefore, the metal spoon conducts the heat more efficiently from the boiling water to the handle, making it hotter than the wooden spoon.

Overall, the metal spoon is hotter than the wooden spoon due to its higher mass, higher specific heat capacity, and better heat conduction properties. This is why it would be more painful to grab.

The space between the particles of matter in a dead star is. ?

Answers

The space between particles in a dead star is incredibly vast. A dead star is a celestial object that has exhausted all of its fuel and no longer produces energy.

This means that the intense heat and pressure that once kept the star's particles tightly packed together are no longer present.

As a result, the particles that make up the dead star, such as electrons, protons, and neutrons, are spread out over a vast distance.

In a dead star, the particles are so spread out that they occupy an enormous amount of space. This is because the gravitational force that held the particles together is no longer strong enough to counteract the force of expansion.

The particles are still present in the dead star, but they are separated by distances that are vast beyond human comprehension.

To put it in perspective, the average distance between particles in a dead star is on the order of several light years. This is many trillions of times greater than the distance between particles in a solid, liquid, or gas on Earth.

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whats the volume of dry hydrogen gas at standard astrospheric pressure

Answers

The volume of dry hydrogen gas at standard atmospheric pressure (which is typically defined as 1 atm or 101.325 kPa) depends on the number of moles of hydrogen gas present. The ideal gas law, PV = nRT, relates the pressure (P), volume (V), number of moles (n), and temperature (T) of an ideal gas. Assuming standard temperature and pressure (0°C and 1 atm), one mole of any ideal gas occupies a volume of 22.4 L. Therefore, to find the volume of dry hydrogen gas at standard atmospheric pressure, we need to know how many moles of hydrogen gas we have.

For example, if we have 1 mole of dry hydrogen gas at standard atmospheric pressure, the volume would be 22.4 L. If we have 0.5 moles of dry hydrogen gas, the volume would be 11.2 L. And so on.

How many liters of NO2 (at STP) can be produced with 25.0 g of Cu reacting with concentrated nitric acid?

Answers

The volume (in liters) of NO₂ at STP that can be produced when 25 g of Cu react with concentrated nitric acid, HNO₃ is 17.6 liters

How do i determine the volume of of NO₂ produced?

First, we shall determine the mole in 25 g of Cu. Details below:

Mass of Cu = 25 g Molar mass of Cu = 63.55 g/mol Mole of Cu =?

Mole = mass / molar mass

Mole of Cu = 25 / 63.55

Mole of Cu = 0.393 mole

Next, we shall determine the mole of of NO₂ produced from the reaction. Details below:

Cu + 4HNO3 -> Cu(NO₃)₂ + 2NO₂ + 2H₂O

From the balanced equation above,

1 mole of Cu reacted to produced 2 moles of NO₂

Therefore,

0.393 mole of Si will react to produce = 0.393 × 2 = 0.786 mole of NO₂

Finally, we shall obtain the volume of NO₂ produced at STP. Details below

At STP,

1 mole of NO₂ = 22.4 Liters

Therefore,

0.786 moles of NO₂ = 0.786 × 22.4

0.786 moles of NO₂ = 17.6 liters

Thus, we can conclude that the volume of NO₂ produced is 17.6 liters

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What is the weight of nacl in a 0.500 l bottle of 2.00 m nacl

Answers

The weight of NaCl in a 0.500 L bottle of 2.00 M NaCl solution is 58.44 grams.

To calculate the weight of NaCl in a 0.500 L bottle of 2.00 M NaCl solution, we need to use the formula:

Mass = Moles x Molar mass

First, let's calculate the number of moles of NaCl in the solution:

Moles = Molarity x Volume

Moles = 2.00 mol/L x 0.500 L

Moles = 1.00 mol

The molar mass of NaCl is 58.44 g/mol, so we can now calculate the mass of NaCl in the solution:

Mass = moles x molar mass

Mass = 1.00 mol x 58.44 g/mol

Mass = 58.44 g

Therefore, the weight of NaCl in a 0.500 L bottle of 2.00 M NaCl solution is 58.44 grams.

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A radiation of 2530 amstrong incidents on HI results in decomposition of 1. 85 × 10^-2 mole per 1000 cal of radiant energy. Calculate the quantum efficiency

Answers

The quantum efficiency (QE) of the radiation of 2530 amstrong incidents is approximately 3.47 x [tex]10^8[/tex].

We have,

Quantum efficiency (QE) is a measure of the number of molecules undergoing a specified reaction per photon absorbed.

In this case, you want to calculate the quantum efficiency based on the given data.

Quantum Efficiency (QE) is given by the formula:

QE = (Number of molecules decomposed) / (Number of photons absorbed)

Given:

Number of molecules decomposed = 1.85 × 10^-2 moles

Number of photons absorbed = Energy absorbed / Energy per photon

The energy of a photon (E) is given by Planck's equation:

E = hc / λ

Where:

h = Planck's constant = 6.626 × 10^-34 J·s

c = Speed of light = 3 × 10^8 m/s

λ = Wavelength of radiation = 2530 Å = 2530 × 10^-10 m

Calculate the energy per photon using the wavelength:

E = (6.626 × [tex]10^{-34}[/tex] J·s * 3 × [tex]10^8[/tex] m/s) / (2530 × [tex]10^{-10}[/tex] m)

= 0.007856 x [tex]10^{-34 + 8 + 10[/tex]

= 0.007856 x [tex]10^{-16}[/tex] J

Now, calculate the energy absorbed:

Energy absorbed = 1000 cal = 1000 * 4.184 J (since 1 cal = 4.184 J)

Number of photons absorbed = Energy absorbed / Energy per photon

Calculate the quantum efficiency using the given formula:

QE = (Number of molecules decomposed) / (Number of photons absorbed)

QE = (1.85 × [tex]10^{-2}[/tex] moles) / (Number of photons absorbed)

Substitute the value of the Number of photons absorbed:

QE = (1.85 × [tex]10^{-2}[/tex] moles) / [(1000 * 4.184 J) / (0.007856 x [tex]10^{-16}[/tex] J)]

QE = (1.85 × [tex]10^{-2}[/tex] moles) / (532586.56 x [tex]10^{16}[/tex] J)

QE = 0.000003474 x [tex]10^{14}[/tex]

QE ≈ 3474 × [tex]10^5[/tex]

QE = 3.47 x [tex]10^8[/tex]

Therefore,

The quantum efficiency (QE) is approximately 3.47 x [tex]10^8[/tex].

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How much nitrogen is needed to form 1. 4 mol of ammonia

Answers

To form 1.4 mol of ammonia, you need 0.7 mol of nitrogen.

Ammonia is formed by combining nitrogenand hydrogenin a 1:3 ratio, as shown in the balanced chemical equation:

N₂ + 3H₂ → 2NH₃

To determine the amount of nitrogen needed to form 1.4 mol of ammonia, follow these steps:

1. Identify the stoichiometry of the reaction: 1 mol N2 reacts with 3 mol H2 to produce 2 mol NH3.
2. Divide the desired amount of ammonia (1.4 mol) by the stoichiometric coefficient of ammonia (2 mol): 1.4 mol / 2 mol = 0.7.
3. Multiply the result (0.7) by the stoichiometric coefficient of nitrogen (1 mol): 0.7 x 1 mol = 0.7 mol.

Therefore, you need 0.7 mol of nitrogen to form 1.4 mol of ammonia.

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.



calculate the osmolarity of the following solutions, are these solutions hypotonic solution, isotonic solution, or hypertonic solution?



(a) osmolarity of 0.069 m na2co3 is ___, this solution is a ___ solution (hypotonic


hypertonic, or isotonic)



(b) osmolarity of 0.62 m ai(no3)3 is ___, this solution is a ___ solution


this solution is a



(c) osmolarity of a 0.30 m glucose (c6h1206) aqueous solution is ___, this solution is a ___ solution

Answers

(a) Osmolarity of 0.069 m na2co3 is 0.138 m, (b) osmolarity of 0.62 m ai(no3)3 is 1.86 m, (c) osmolarity of a 0.30 m glucose (c6h1206) aqueous solution is 0.30 m.

What is Osmolarity ?

Osmolarity is a measure of the concentration of solutes in a solution. It is expressed as the number of osmoles (molecules or particles) of solutes per litre of solution. Osmolarity is an important factor in the body's ability to regulate the balance of water and electrolytes in the blood and other bodily fluids. It is also important for the absorption of nutrients from the intestines, and the maintenance of blood pressure. Osmolarity is measured using a special instrument called an osmometer.

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A man heats a balloon in the oven. If the balloon initially has a pressure of 860. 0 torr and


a temperature of 20. 0 °C, what will the temperature (in Kelvin) of the balloon be after he


increases the pressure to 3. 00 atm? (Hint: Convert to atmospheres). Do not include


units in your answer.

Answers

The temperature of the balloon after increasing the pressure to 3.00 atm is 608 K.

First, we need to convert the initial pressure from torr to atm, which is 860.0 torr/760 torr/atm = 1.13 atm.

Using the combined gas law, we can solve for the new temperature:

(P₁x V₁)/T₁ = (P₂x V₂)/T₂

Where P₁ = 1.13 atm, V₁ is constant, T₁ = 20.0 + 273.15 K (convert from Celsius to Kelvin), P₂ = 3.00 atm, and we want to solve for T₂.

Substituting the values and solving for T₂:

T₂ = (P₂ x V₁ x T₁)/(P₁ x V₂) = (3.00 atm x V1 x 293.15 K)/(1.13 atm x V₂)

Since V₁ and V₂ are equal (since it is the same balloon), we can simplify to:

T₂ = (3.00 atm x 293.15 K)/1.13 atm = 608 K

Therefore, the temperature of the balloon after increasing the pressure to 3.00 atm is 608 K.

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A tractor collides with a car while driving down the road. The car travels at a speed of 25m/s and weighs 1,300 kg. What is the momentum of the car? If the tractor weighs 1,500 kg and traveled at 5 m/s what was the total momentum of the collision?

Answers

The momentum of the car is 32,500 kg m/s, and the total momentum of the collision is 40,000 kg m/s.

The momentum of an object is calculated by multiplying its mass by its velocity. In the case of the car, its mass is 1,300 kg, and it travels at a speed of 25 m/s. To find the car's momentum, we can use the formula:

momentum = mass × velocity

Car's momentum = 1,300 kg × 25 m/s = 32,500 kg m/s

Now, let's find the momentum of the tractor. The tractor weighs 1,500 kg and travels at 5 m/s. Using the same formula:

Tractor's momentum = 1,500 kg × 5 m/s = 7,500 kg m/s

To find the total momentum of the collision, we simply add the momentum of the car and the tractor:

Total momentum = Car's momentum + Tractor's momentum
Total momentum = 32,500 kg m/s + 7,500 kg m/s = 40,000 kg m/s

In conclusion, the momentum of the car is 32,500 kg m/s, and the total momentum of the collision is 40,000 kg m/s.

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Identify a problem of human impact on the environment that could be solved through designing a device or process. A. Define the problem. B. Identify who would be helped by solving this problem. C. List the criteria and constraints of the problem. D. Brainstorm at least two possible solutions to the problem

Answers

One of the biggest problems of human impact on the environment is the excessive use of non-renewable resources, such as fossil fuels, which release harmful gases and contribute to climate change.

This problem can be solved by designing a device or process that can harness renewable energy sources, such as solar or wind power, and provide a sustainable alternative to traditional energy sources.

By solving this problem, not only will the environment benefit from reduced carbon emissions, but also the people who rely on these resources. For instance, communities that are vulnerable to the effects of climate change, such as extreme weather conditions, will be better equipped to adapt and withstand these impacts.

The criteria and constraints of designing such a device or process would include factors such as cost, efficiency, scalability, and environmental impact. The solution would need to be cost-effective and efficient, while also being able to provide a significant amount of energy to meet the needs of communities.

Additionally, it would need to be environmentally friendly and have minimal negative impact on ecosystems.

One possible solution could be the development of solar-powered devices that can be used in homes, schools, and businesses to generate electricity. Another solution could be the installation of wind turbines in areas with high wind speeds to generate energy on a larger scale.

Overall, by designing devices or processes that harness renewable energy sources, we can mitigate the negative impacts of non-renewable energy sources on the environment and provide sustainable alternatives for the benefit of both the environment and society.

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If the reaction is spontaneous in the direction indicated in the figure, which letter labels the electrode that should be connected to the positive terminal of the voltmeter to provide a positive voltage?

Answers

In redox reactions, electrons are transferred from one species to another. If the response is spontaneous, strength is released, that could then be used to do beneficial work.

To harness this strength, the response have to be break up into separate 1/2 of reactions: the oxidation and reduction reactions. The reactions are placed into one of a kind bins and a twine is used to pressure the electrons from one aspect to the other. In doing so, a Voltaic/ Galvanic Cell is created. An electrode is strip of metallic on which the response takes region. In a voltaic cell, the oxidation and discount of metals takes place on the electrodes. There are electrodes in a voltaic cell, one in every 1/2 of-cell. The cathode is wherein discount takes region and oxidation takes region on the anode. Through electrochemistry, those reactions are reacting upon metallic surfaces, or electrodes. An oxidation-discount equilibrium is mounted among the metallic and the materials in solution. When electrodes are immersed in an answer containing ions of the equal metallic, it's far referred to as a 1/2 of-cell.

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What is the in a 12. 2 L vessel that contains 1. 13 mol of Co2 at a temperature of 42 degrees C?

Answers

The pressure of the [tex]Co_{2}[/tex]  gas in the 12.2 L vessel at a temperature of 42°C with 1.13 mol of CO2 is 2.12 atm.

The volume of the vessel =  12.2 L

Number of moles of [tex]Co_{2}[/tex] =  1. 13 mol

Temperature = 42 degrees

To calculate the pressure of the gas we need to use the ideal gas law equation.

PV = nRT

P = nRT/V

Assuming that the Universal gas constant R =  0.0821 L·atm/(mol·K).

Converting the temperature degrees into Kelvin scale

T = 42°C + 273.15 = 315.15 K

Substituting the above values into the equation:

P = [(1.13 mol) * (0.0821 L·atm/mol·K)* (315.15 K)] / (12.2 L) = 2.12 atm

Therefore, we can conclude that the pressure of the gas is 2.12 atm.

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The complete question is:

What is the pressure required in a 12. 2 L vessel that contains 1. 13 mol of Co2 at a temperature of 42 degrees C?

3. 70 mol CO2 has a volume of 25. 12 L at a pressure of 968 mmHg.


What is the temperature of the CO2 in °C?

Answers

70 mol CO2 has a volume of 25. 12 L at a pressure of 968 mmHg The temperature of the CO2 in °C is 4.231.1.

What is Temperature?

A thermometer is a device that quantitatively measures a system's temperature. The word "temperature" refers to the average kinetic energy of an object, which is a type of energy associated with motion and used to define how hot or cold an object is.

Volume = 25.12 L. Pressure= 968 mm Hg.

Number of moles = 70 moles.

P = nRT/V

968 = 70 * T * 0.0821 / 25.12 L

968* 25.12/ 70 * 0.0821 = T

24316.16/ 5.747 = T

4.231.1 = T

Therefore, 70 mol CO2 has a volume of 25. 12 L at a pressure of 968 mmHg The temperature of the CO2 in °C is 4.231.1. The temperature of the CO2 in °C is 4.231.1

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How many grams of KClO3 must be decomposed to produce 3. 45 L of oxygen at STP with a 75. 3% yield? 2 KClO3(s) à 2 KCl(s) + 3 O2(g)

Answers

16.77 grams of KClO3 must be decomposed to produce 3.45 L of oxygen at STP with a 75.3% yield.

To find out how many grams of KClO3 must be decomposed to produce 3.45 L of oxygen at STP with a 75.3% yield, we'll use the following steps:

1. Convert the volume of oxygen gas to moles using the molar volume of gas at STP (22.4 L/mol).
2. Adjust for the yield percentage.
3. Use the stoichiometry of the balanced equation to find the moles of KClO3.
4. Convert moles of KClO3 to grams using its molar mass.

1. Moles of O2 produced: (3.45 L) / (22.4 L/mol) = 0.154 moles O2
2. Adjust for yield: 0.154 moles / 0.753 = 0.205 moles O2 (theoretical yield)
3. Moles of KClO3: (0.205 moles O2) * (2 moles KClO3 / 3 moles O2) = 0.137 moles KClO3
4. Grams of KClO3: (0.137 moles KClO3) * (122.55 g/mol) = 16.77 g KClO3

So, 16.77 grams of KClO3 must be decomposed to produce 3.45 L of oxygen at STP with a 75.3% yield.

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If a solution is 3 h2o2 by mass calculate its molarity.

Answers

The molarity of the 3% H2O2 solution is 0.0882 M.

To calculate the molarity of a solution, we need to know the moles of the solute (in this case, H2O2) and the volume of the solution.

First, we need to convert the percentage by mass to grams of H2O2:

If the solution is 3% H2O2 by mass, that means there are 3 grams of H2O2 in 100 grams of solution.

So for a certain mass of solution, we can calculate the mass of H2O2 using this proportion:

mass H2O2 / mass solution = 3 g H2O2 / 100 g solution

We can simplify this by assuming a mass of 100 g solution, which gives us:

mass H2O2 = 3 g H2O2 / 100 g solution * 100 g solution = 3 g H2O2

Now we can calculate the moles of H2O2:

The molar mass of H2O2 is 34.01 g/mol.

So the number of moles of H2O2 in 3 grams is:

moles H2O2 = 3 g H2O2 / 34.01 g/mol = 0.0882 mol H2O2

Assuming a volume of 1 liter of solution (which is the standard volume for molarity), we can calculate the molarity of the solution:

Molarity = moles of solute / volume of solution in liters

Molarity = 0.0882 mol / 1 L = 0.0882 M

Therefore, the molarity of the 3% H2O2 solution is 0.0882 M.

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Using the formula m1v1=m2v2 , you have a 0.5 m mgso4 stock solution available.
calculate the volume of the stock solution needed to make 2.0 l of 0.20m mgso4.
0.5 l
04.0l
0.9 l
kid 0.8 l

Answers

We need 0.4 L of the 0.5 M MgSO₄ stock solution to make 2.0 L of 0.20 M MgSO₄.

To calculate the volume of the 0.5 M MgSO₄ stock solution needed to make 2.0 L of 0.20 M MgSO₄, we will use the formula m₁v₁ = m₂v₂.

1. Identify the given values:
m₁ = 0.5 M (concentration of the stock solution)
m₂ = 0.20 M (concentration of the desired solution)
v₂= 2.0 L (volume of the desired solution)

2. Plug the given values into the formula:
(0.5 M)(v₁) = (0.20 M)(2.0 L)

3. Solve for v1 (volume of the stock solution needed):
v₁= (0.20 M)(2.0 L) / (0.5 M)
v₁= 0.4 L

So, you need 0.4 L of the 0.5 M MgSO₄ stock solution to make 2.0 L of 0.20 M MgSO₄.

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What type of bonds form within a
sample of sodium metal, chlorine gas, and sodium
chloride crystals? how does the electron structure
of each substance affect the properties of
compounds that it forms?

Answers

The type of bonds that form within a sample of sodium metal, chlorine gas, and sodium chloride crystals are metallic bonds, covalent bonds, and ionic bonds. The electron structure of each substance affects the properties of compounds that it forms in the following ways:

Sodium metal forms metallic bonds, which involve the delocalization of electrons among a lattice of positively charged metal ions. In sodium metal, each atom donates one electron to the shared electron "sea." This electron structure allows metals to conduct electricity and heat, and exhibit malleability and ductility.

Chlorine gas forms covalent bonds, which involve the sharing of electrons between two non-metal atoms. In this case, two chlorine atoms share a pair of electrons to achieve a stable electron configuration. The electron structure of covalent bonds results in compounds with relatively low melting and boiling points, and poor conductivity of electricity and heat.

Sodium chloride crystals form ionic bonds, which involve the transfer of electrons from one atom to another, resulting in the formation of oppositely charged ions. In sodium chloride, sodium loses an electron to chlorine, creating Na⁺ and Cl⁻ ions. The electron structure in ionic compounds leads to high melting and boiling points, and good conductivity when dissolved in water or molten.

These different types of bonds and electron structures significantly influence the properties of the compounds formed.

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