Limestone (CaCO;) is decomposed by heating to (quicklime (Ca) and carbon dioxide. Calculate how many grams of quicklime can be produced from 1.0 kg of limestone.

Answers

Answer 1

The mass (in grams) of quick lime, CaO that can be produced from the reaction is 560 g

How do i determine the mass of quick lime, CaO produced?

First, we shall write the balanced equation for the reaction. This is given below:

CaCO₃ -> CaO + CO₂

Now, we shall obtain the mass of quick lime, CaO produced from the reaction can be obtain as illustrated below:

CaCO₃ -> CaO + CO₂

Molar mass of CaCO₃ = 100 g/molMass of CaCO₃ from the balanced equation = 1 × 100 = 100 g Molar mass of CaO = 56 g/molMass of CaO from the balanced equation = 1 × 56 = 56 g

From the balanced equation above,

100 g of limestone, CaCO₃ decomposed to produce 56 g of quick lime, CaO

Therefore,

1 Kg (i.e 1000 g) of limestone, CaCO₃ will decompose to produce = (1000 × 56) / 100 = 560 g of quick lime, CaO

Thus, the mass of quick lime, CaO produced is 560 g

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Related Questions

1. Calculate the molarity of


6. 3x10-3 mol C2 N14 in 400 mL H₂O

Answers

The solution has a Molarity of approx 0.01575 M.

To calculate the molarity of a solution, we use the formula:

Molarity (M) = moles of solute ÷ volume of solution in liters

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

Volume of solution = 400 mL = 400/1000 L = 0.4 L

Next, we need to calculate the moles of solute:

moles of solute = 6.3 x [tex]10^{-3[/tex] mol

Substituting these values into the formula, we get:

Molarity (M) = 6.3 x[tex]10^{-3[/tex] mol ÷ 0.4 L = 0.01575 M

Therefore, the molarity of the solution is 0.01575 M.

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25) What occurs when an atom loses an electron?
A) The atom's radius decreases and the atom becomes a negative ion.
B) The atom's radius decreases and the atom becomes a positive ion.
C) The atom's radius increases and the atom becomes a negative ion.
D) The atom's radius increases and the atom becomes a positive ion.

Answers

Answer:

An electron has a negative charge therefore, losing the electron will cause the atom to be a positive ion. An ion is an atom where the number of protons does not equal the number of electrons.

In the reaction of h2 with cl2, the molecular bonds of the reactants are broken and new bonds are formed to make the products. what step(s) is/are considered endothermic?

steps:_

Answers

The breaking of the molecular bonds in H₂ and Cl₂ is considered an endothermic step because it requires energy input to break the bonds.

This energy is absorbed from the surroundings in the form of heat. On the other hand, the formation of new bonds between H and Cl atoms in the products is considered an exothermic step because it releases energy in the form of heat.

Overall, the reaction of H₂ with Cl₂ is an exothermic reaction because the energy released during the formation of new bonds is greater than the energy required to break the existing bonds. This means that the reaction releases heat into the surroundings.

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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 Goodyear Blimp filled with hydrogen can hold approximately 255,447.62 moles of hydrogen.

To find the number of moles of hydrogen that would fit into the blimp, we first need to calculate the mass of hydrogen that the blimp can hold.

The molar mass of hydrogen is 2.016 g/mol.

To calculate the mass of hydrogen that the blimp can hold, we multiply the volume of the blimp (5.74 x 10^6 L) by the density of hydrogen at standard temperature and pressure (STP), which is 0.0899 g/L:

Mass of hydrogen = volume of blimp x density of hydrogen at STP
Mass of hydrogen = 5.74 x 10^6 L x 0.0899 g/L
Mass of hydrogen = 515,026 g

Now, we can calculate the number of moles of hydrogen by dividing the mass of hydrogen by its molar mass:

Number of moles of hydrogen = mass of hydrogen / molar mass of hydrogen
Number of moles of hydrogen = 515,026 g / 2.016 g/mol
Number of moles of hydrogen = 255,447.62 mol

So, approximately 255,447.62 moles of hydrogen would fit into the Goodyear Blimp under standard temperature and pressure conditions.

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Calculate the molarity of the solutions described below. Round all answers to 2 decimal places. Hint: Use molar mass and dimensional analysis to convert grams into moles. A) 100.0 g of sodium chloride is dissolved in 3.0 L of solution. Answer: 0.57 M B) 72.5 g of sugar (C12H22O11) s dissolved in 1.5 L of solution. Answer: 0.13 M C) 125 g of aluminum sulfate is dissolved in 0.150 L of solution. Answer: M D) 1.75 g of caffeine (C8H10N4O2) is dissolved in 0.200 L of solution. Answer: M

Answers

Explanation:

A) To calculate the molarity of sodium chloride solution, we need to first convert the mass of sodium chloride into moles, using its molar mass of 58.44 g/mol:

100.0 g NaCl × (1 mol NaCl/58.44 g NaCl) = 1.71 mol NaCl

Then, we divide the number of moles by the volume of solution in liters to get the molarity:

Molarity = 1.71 mol NaCl ÷ 3.0 L = 0.57 M

Therefore, the molarity of the sodium chloride solution is 0.57 M.

B) To calculate the molarity of sugar (C12H22O11) solution, we need to first convert the mass of sugar into moles, using its molar mass of 342.3 g/mol:

72.5 g C12H22O11 × (1 mol C12H22O11/342.3 g C12H22O11) = 0.212 mol C12H22O11

Then, we divide the number of moles by the volume of solution in liters to get the molarity:

Molarity = 0.212 mol C12H22O11 ÷ 1.5 L = 0.13 M

Therefore, the molarity of the sugar solution is 0.13 M.

C) To calculate the molarity of aluminum sulfate solution, we need to first convert the mass of aluminum sulfate into moles, using its molar mass of 342.2 g/mol:

125 g Al2(SO4)3 × (1 mol Al2(SO4)3/342.2 g Al2(SO4)3) = 0.365 mol Al2(SO4)3

Then, we divide the number of moles by the volume of solution in liters to get the molarity:

Molarity = 0.365 mol Al2(SO4)3 ÷ 0.150 L = 2.43 M

Therefore, the molarity of the aluminum sulfate solution is 2.43 M.

D) To calculate the molarity of caffeine (C8H10N4O2) solution, we need to first convert the mass of caffeine into moles, using its molar mass of 194.2 g/mol:

1.75 g C8H10N4O2 × (1 mol C8H10N4O2/194.2 g C8H10N4O2) = 0.009 mol C8H10N4O2

Then, we divide the number of moles by the volume of solution in liters to get the molarity:

Molarity = 0.009 mol C8H10N4O2 ÷ 0.200 L = 0.045 M

Therefore, the molarity of the caffeine solution is 0.045 M

Answer:

Hi and sorry.

But what is the question in that?

There is already answers so i don't know how to help you.

Explanation:

On your own: For further practice, click New sample. In this set, the contents of every tube is randomized. You may even find new substances you haven’t seen before. Record your observations and make hypotheses about the contents of each tube. Good luck!

Answers

You will need to observe each tube carefully and record your observations. Look at the color and consistency of the contents and note any unusual smells or other characteristics.

What is smells?

Smells are the odors that people detect when certain molecules enter their noses. Smells can be pleasant, such as the aroma of a freshly baked pie, or unpleasant, such as the odor of garbage. Humans can detect millions of different smells and each smell has its own unique molecular composition. Smells can be used to identify a particular item or to trigger a memory. People can even use smells to detect potential danger, such as the smell of smoke indicating a fire. Some animals, such as dogs, have a much more acute sense of smell than humans, and can be trained to detect certain smells, such as explosives or drugs. Smells are a powerful and often overlooked sense that can be used to enhance experiences or warn of potential danger.

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The hydrolysis of acetyl phosphate has ΔG = −42 kJ mol−1 under typical biological conditions. If the phosphorylation of acetic acid were to be coupled to the hydrolysis of ATP, what is the minimum number of ATP molecules that would need to be involved?

Answers

The hydrolysis of one ATP molecule has ΔG = -30.5 kJ mol⁻¹. Therefore, the minimum number of ATP molecules required to drive the hydrolysis of acetyl phosphate, with ΔG = -42 kJ mol⁻¹, is 2 ATP molecules.

The phosphorylation of acetic acid involves the transfer of a phosphate group from ATP to acetic acid, forming acetyl phosphate and ADP. The reaction can be represented as follows:

Acetic acid + ATP → Acetyl phosphate + ADP

The hydrolysis of acetyl phosphate involves the addition of a water molecule, which breaks the phosphoanhydride bond and releases the energy stored in the phosphate bond. The reaction can be represented as follows:

Acetyl phosphate + H₂O → Acetic acid + Pi

The ΔG value of the hydrolysis of acetyl phosphate is -42 kJ mol⁻¹. Since the phosphorylation of acetic acid requires one ATP molecule, the minimum number of ATP molecules required to drive the hydrolysis of acetyl phosphate is calculated as follows:

ΔG = ΔG1 + ΔG2-42 kJ mol⁻¹ = -30.5 kJ mol⁻¹ + ΔG2ΔG2 = -42 kJ mol⁻¹ + 30.5 kJ mol⁻¹ΔG2 = -11.5 kJ mol⁻¹

Since the hydrolysis of one ATP molecule has ΔG = -30.5 kJ mol⁻¹, the minimum number of ATP molecules required to drive the hydrolysis of acetyl phosphate is 2.

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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.

A 0. 50 L can of gas is at a pressure of 20. 0 kPa. If the can is run over by a garbage truck and flattened to a volume of 0. 010 L, what is the pressure in kPa?

Answers

The pressure inside the flattened can is 1000 kPₐ .

To solve this problem using the Ideal Gas Law formula and the given information. The terms involved in this question are pressure, volume, and the Ideal Gas Law (PV = nRT).


Here's the step-by-step explanation:
1. The initial state of the gas is given as: P₁ = 20.0 kPₐ and V₁ = 0.50 L.
2. The final state of the gas after being flattened is given as: V₂ = 0.010 L.
3. We need to find the final pressure, P₂.
4. Since the problem doesn't involve any changes in temperature or the amount of gas, we can use Boyle's Law, which is a simplified version of the Ideal Gas Law for constant temperature and amount of gas. Boyle's Law states that P₁V₁ = P₂V₂.
5. Plug in the given values: (20.0 kPₐ)(0.50 L) = P2(0.010 L).
6. Solve for P₂: P₂ = (20.0 kPₐ )(0.50 L) / 0.010 L = 1000 kPₐ .

The pressure inside the flattened can is 1000 kPₐ .

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The pressure of 10 l of a gas is 1800 mmhg. how many l would this same gas occupy at a final pressure of 200 mmhg, if the amount of gas does not change?

Answers

The gas would occupy 90 L at a final pressure of 200 mmHg if the amount of gas does not change.

To determine how many liters this gas would occupy at a final pressure of 200 mmHg, we can use Boyle's Law. Boyle's Law states that the product of the initial pressure and volume of a gas is equal to the product of the final pressure and volume if the temperature and amount of gas remain constant. The formula for Boyle's Law is:

P₁ × V₁ = P₂ × V₂

Where P₁ is the initial pressure (1800 mmHg), V₁ is the initial volume (10 L), P₂ is the final pressure (200 mmHg), and V₂ is the final volume we need to find.

Rearranging the formula to find V₂:
V₂ = (P₁ × V₁) / P₂

Substituting the values:

V₂ = (1800 mmHg × 10 L) / 200 mmHg
V₂ = 18000 L·mmHg / 200 mmHg
V₂ = 90 L

So, this gas would occupy 90 L at a final pressure of 200 mmHg if the amount of gas does not change.

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Ammonia burns in oxygen according to the following equation:
4nh3 + 3o2 → 2n2 + 6h2o
how many moles of nitrogen gas are generated by the complete reaction of 8.56 moles of ammonia?

Answers

4.28 moles of nitrogen gas are generated by the complete reaction of 8.56 moles of ammonia.

To find out how many moles of nitrogen gas are generated by the complete reaction of 8.56 moles of ammonia, we can use the balanced chemical equation: 4NH3 + 3O2 → 2N2 + 6H2O.

Step 1: Identify the mole ratio between ammonia (NH3) and nitrogen gas (N2). From the balanced equation, we see that 4 moles of NH3 produce 2 moles of N2. This gives us a mole ratio of 4:2 or 2:1.

Step 2: Use the mole ratio to determine the moles of nitrogen gas produced. Since the mole ratio is 2:1, for every 2 moles of NH3 that react, 1 mole of N2 is produced.

Step 3: Calculate the moles of nitrogen gas generated from 8.56 moles of ammonia. Divide the given moles of ammonia by the mole ratio:
8.56 moles NH3 / 2 = 4.28 moles N2

Therefore, 4.28 moles of nitrogen gas are generated by the complete reaction of 8.56 moles of ammonia.

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When magnesium chlorate (Mg(ClO3)2 is decomposed, oxygen gas and magnesium chloride are produced. What volume of oxygen gas at STP is produced when 3. 81 g of Mg(ClO3)2 decomposes?

Answers

The volume of oxygen gas produced when 3.81 g of Mg(ClO3)2 decomposes is 1.18 L at STP.

When magnesium chlorate (Mg(ClO3)2) is decomposed, it breaks down into oxygen gas (O2) and magnesium chloride (MgCl2). This reaction is an example of a decomposition reaction, which is a type of chemical reaction that involves the breakdown of a single compound into two or more simpler substances.

To determine the volume of oxygen gas produced when 3.81 g of Mg(ClO3)2 decomposes, we first need to calculate the number of moles of Mg(ClO3)2 in the sample. We can do this using the molar mass of Mg(ClO3)2, which is 214.2 g/mol:

Number of moles of Mg(ClO3)2 = mass / molar mass = 3.81 g / 214.2 g/mol = 0.0178 mol

Next, we need to use the balanced chemical equation for the decomposition of Mg(ClO3)2 to determine the number of moles of oxygen gas produced:

Mg(ClO3)2 -> MgCl2 + 3O2

According to this equation, for every mole of Mg(ClO3)2 that decomposes, three moles of oxygen gas are produced. Therefore, the number of moles of O2 produced in the reaction is:

Number of moles of O2 = 3 x number of moles of Mg(ClO3)2 = 3 x 0.0178 mol = 0.0534 mol

Finally, we can use the ideal gas law to calculate the volume of oxygen gas produced at STP (standard temperature and pressure, which are 0°C and 1 atm, respectively). The ideal gas law is given by:

PV = nRT

where P is the pressure, V is the volume, n is the number of moles, R is the gas constant (0.08206 L atm/mol K), and T is the temperature in Kelvin.

At STP, the pressure is 1 atm and the temperature is 273 K. Therefore, we can rearrange the ideal gas law to solve for the volume:

V = nRT / P = (0.0534 mol) x (0.08206 L atm/mol K) x (273 K) / (1 atm) = 1.18 L

Therefore, the volume of oxygen gas produced when 3.81 g of Mg(ClO3)2 decomposes is 1.18 L at STP.

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Consider the following acid and bases HCO2H ka = 1. 8 x 10^-4


HOBr Ka = 2. 0 x 10^-9


(C2H5)2NH kb = 1. 3 x 10-3


HONH2 kb = 1. 1 x 10^-8


choose sobstances to create ph = 4 buffer solutions:


select all tha apply


HONH3NO3


HOBr


NaOBr


(C2H5)2NH2Cl


(C2H5)2NH


HCO2H


KHCO2


HONH2

Answers

The substances that can create a pH = 4 buffer solution are HCO₂H and KHCO₂.

When modest quantities of acid or base are added to a buffer solution, it resists changes in pH. In order to create a buffer solution, we need to have a weak acid and its conjugate base, or a weak base and its conjugate acid, in roughly equal amounts.

HCO₂H is a weak acid with a pKa of 3.74, and its conjugate base is HCO₂⁻. KHCO₂ is the potassium salt of HCO₂⁻, and it acts as a source of HCO₂⁻ ions, making it a good buffer component.

The other substances listed are not suitable for creating a pH = 4 buffer solution because they either do not have a pKa or pKb near 4, or they are neither a pair of a weak acid and its conjugate base, or a pair of a weak base and its conjugate acid..

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At 15. 17 atm and 243. 41 K a certain gas has a volume of 641. 68 L. What will the volume of gas be at 561. 06 K and 70. 3 atm?

Answers

The volume of the gas at 561.06 K and 70.3 atm will be 168.08 L.

The initial conditions of the gas are given as P₁ = 15.17 atm, V₁ = 641.68 L, and T₁ = 243.41 K. To find the volume of the gas at the new conditions, we can use the combined gas law:

(P₁V₁)/T₁ = (P₂V₂)/T₂

where P₂, V₂, and T₂ are the new pressure, volume, and temperature, respectively.

We can rearrange the equation to solve for V₂:

V₂ = (P₂/P₁) x (T₁/T₂) x V₁

Substituting the given values:

V₂ = (70.3/15.17) x (243.41/561.06) x 641.68

V₂ = 168.08 L

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Hazel used 45. 7grams of nickel II nitrate Ni(NO3)2 to make a 1. 25M solution. How much water is required to make this solution?



Solve for the GFM=

Answers

Hazel needs 0.6975 liters of water to make a 1.25M solution of Ni(NO₃)₂ using 45.7 grams of the solute.

To solve this problem, we need to use the formula:
Molarity (M) = moles of solute / liters of solution

First, we need to find the moles of nickel II nitrate:
moles = mass / molar mass


The molar mass of Ni(NO₃)₂ can be calculated by adding the molar masses of each element:
Ni: 58.69 g/mol
N: 14.01 g/mol
O (3 atoms): 3 x 16.00 g/mol = 48.00 g/mol

Total molar mass = 58.69 + 14.01 + 48.00 = 120.70 g/mol
So, the moles of Ni(NO₃)₂ used by Hazel is:
moles = 45.7 g / 120.70 g/mol = 0.3781 moles

Now, we can use the formula to find the volume of solution:

Molarity (M) = moles of solute / liters of solution
1.25 M = 0.3781 moles / liters of solution
Liters of solution = 0.3781 moles / 1.25 M = 0.3025 L

Therefore, the volume of water required to make the solution is:
Volume of water = Total volume - Volume of solute
Volume of water = 1 L - 0.3025 L = 0.6975 L

So, Hazel needs 0.6975 liters of water to make a 1.25M solution of Ni(NO₃)₂ using 45.7 grams of the solute.

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12. Lab Analysis: You forgot to label your chemicals and do not know whether your unknown solution is strontium nitrate or magnesium nitrate. You use the solutions potassium carbonate and potassium sulfate in order to determine your mistake. unknown + potassium carbonate & unknown + potassium sulfate . What do you observe when the unknown solution is mixed with potassium carbonate? (Can you see the shape underneath?)

Answers

When you mix unknown solution with potassium carbonate, you should observe a white precipitate forming. This is due to the precipitation of strontium carbonate or magnesium carbonate (depending on which nitrate the unknown solution is). The shape of the precipitate will be determined by the size and shape of the container in which the reaction occurs.

If you want to be sure about which nitrate your unknown solution is, you should also mix it with potassium sulfate. If you observe a white precipitate forming again, then it indicates that your unknown solution contains strontium nitrate. If no precipitate forms, it means your unknown solution contains magnesium nitrate.

It's important to label your chemicals correctly so that you avoid making mistakes like this in the future. Good laboratory practices dictate that all chemicals should be properly labeledand stored appropriately to ensure safety and accuracy in experimental results.

How many moles of n2 (g) are present in 1. 00 l of n2 (g) at 100. °c and 1 atm?


______ moles

Answers

There are 2.74 moles of N₂ (g) present in 1.00 L of N₂ (g) at 100°C and 1 atm.

The number of moles can be calculated using the ideal gas law, PV = nRT, where P is the pressure, V is the volume, n is the number of moles, R is the gas constant, and T is the temperature in Kelvin.

First, we need to convert the temperature from Celsius to Kelvin by adding 273.15 K. Thus, T = 100°C + 273.15 = 373.15 K .We also need to convert the pressure from atm to Pa by multiplying by 101,325 Pa/atm. Thus, P = 1 atm × 101,325 Pa/atm = 101,325 Pa.

We can now solve for n:

n = PV/RT = (101,325 Pa × 1.00 L)/(0.08206 L⋅atm/mol⋅K × 373.15 K) = 2.74 mol N₂ (g)

Therefore, in a 1.00 L container filled with N₂ (g) at a temperature of 100°C and pressure of 1 atm, there are 2.74 moles of N₂ (g) present

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A solution is prepared by dissolving 8.50 g of c6h12o6 in 4.15 g of cyclohexane. what is the % mass of c6h12o6 in the new solution? round your answer to 1 decimal places.

Answers

The % mass of C6H12O6 in the new solution is approximately 67.2%.

We can calculate the mass percentage of C6H12O6 in the new solution using the following formula:

% mass = (mass of C6H12O6 / total mass of solution) x 100%

First, we need to calculate the total mass of the solution by adding the mass of C6H12O6 and the mass of cyclohexane:

total mass of solution = 8.50 g + 4.15 g = 12.65 g

Next, we can calculate the mass percentage of C6H12O6 in the solution:

% mass = (8.50 g / 12.65 g) x 100% ≈ 67.2%

Therefore, the % mass of C6H12O6 in the new solution is approximately 67.2%.

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How many grams of Barium Chloride are needed to make 220 mL of 0.040 M solution?

Answers

1.2 grams of Barium Chloride (BaCl₂) are needed to make 220 mL of 0.040 M solution.

How to find the mass

To determine the amount of grams of Barium Chloride (BaCl₂) needed to compound a 220 mL 0.040 M solution, we can implement the following formula:

mass (in grams) = molarity × volume (in liters) × molar mass

convert the volume of the mixture from milliliters (mL) to litres (L):

220 mL =  0.220 L by : 220/1000

The molar mass of BaCl₂ is 137.33 g/mo

Therefore, when utilizing the equation above, we can deduce that:

mass = 0.040 mol/L × 0.220 L × 137.33 g/mol = 1.2 g

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Please help!!!
1.00 L of gas is collected in a sealed elastic container in outer space where the pressure is 1.54 x 104 mm Hg and the temperature is 88 K. What will the volume be if the container is moved to sea level ( 101.3 kPa) and room temperature ( 23 C)?

Answers

The volume of the gas in the container at sea level and room temperature would be approximately 0.00676 L.

PV = nRT

Where:

P = pressure

V = volume

n = number of moles

R = gas constant

T = temperature

V = nRT / P

First, we need to calculate the number of moles of gas in the container:

n = PV / RT

Where:

P = 1.54 x[tex]10^{4}[/tex] mm Hg

V = 1.00 L

R = 8.31 J/mol*K (gas constant)

T = 88 K

Converting the pressure to kPa and the volume to m^3:

P = 1.54 x [tex]10^{4}[/tex] mm Hg * (101.3 kPa / 760 mm Hg) = 2054.59 Pa

V = 1.00 L * [tex]10^{-3}[/tex] [tex]m^{3}[/tex]/L) = 0.001 [tex]m^{3}[/tex]

n = (2054.59 Pa * 0.001 m^3) / (8.31 J/mol*K * 88 K) ≈ 0.000276 mol

P = 101.3 kPa

T = 23 + 273.15 K = 296.15 K

V = nRT / P

V = (0.000276 mol * 8.31 J/mol*K * 296.15 K) / 101.3 kPa

Converting the volume to liters:

V = 0.00676 L

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6. How many moles are in 2. 65x10 22 atoms of carbon?


7. How many moles are in 1. 79x10 25 molecules of ammonia?

Answers

In problem 6, the number of atoms of carbon is 2.65 x 10²², which corresponds to 0.044 moles of carbon after dividing by Avogadro's number whereas In problem 7, the number of molecules of ammonia is 1.79 x 10²⁵, which is equivalent to 29.7 moles of ammonia after dividing by Avogadro's number.

In 6, the number of atoms of carbon given is 2.65 x 10²². To convert this to moles, we need to divide by Avogadro's number (6.02 x 10²³ atoms/mol).

Therefore, the number of moles of carbon is:

2.65 x 10²² atoms / 6.02 x 10²³ atoms/mol = 0.044 moles of carbon

In 7, the number of molecules of ammonia given is 1.79 x 10²⁵. To convert this to moles, we need to divide by Avogadro's number (6.02 x 10²³ molecules/mol).

Therefore, the number of moles of ammonia is:

1.79 x 10²⁵ molecules / 6.02 x 10²³ molecules/mol = 29.7 moles of ammonia.

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Two solid chemical compounds are mixed together in a beaker. After one minute, ice crystals are observed on the outside of the beaker. What is the best description for the energy change occurring with the reaction inside the beaker?
Group of answer choices

exothermic because heat is being released to the surroundings

endothermic because heat is being released to the surroundings

exothermic because heat is being absorbed from the surroundings

endothermic because heat is being absorbed from the surroundings

Answers

The description that fits the reaction that was observed is endothermic because heat is being absorbed from the surroundings. Option D

What more should you know about endothermic reaction?

Endothermic reaction stores energy. In the reaction that has occurred, heat energy was absorbed from the enviroment which makes the beaker to become cold.

Assuming it was an exothermic reaction, heat energy  would have been released to the surrounding of the beaker. the beaker would have felt warm or hot to the touch,

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I need help with this question PLEASE

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The oxidation number approach, commonly referred to as the oxidation states, keeps track of the electrons obtained during reduction and the electrons lost during oxidation.

Thus, Each atom in a charged or neutral molecule is given an oxidation number. Oxidation takes place whenever the oxidation number rises. Reduction happens when the oxidation number goes down. The total charge of a chemical is equal to the sum of all of its oxidation numbers.

 The roles of oxidation and reduction is the only foolproof method for balancing a redox equation. Then you achieve equilibrium by bringing the electron gain and loss into balance.

The oxidation numbers of all atoms are determined using the oxidation number method. The altered atoms are then multiplied by small whole numbers.

Thus, The oxidation number approach, commonly referred to as the oxidation states, keeps track of the electrons obtained during reduction and the electrons lost during oxidation.

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What type of reaction is A + B + 210 ) >>> C

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The reaction A + B + 210 → C can be categorized as a combination reaction.

In a combination reaction, two or more reactants (A and B in this case) combine to form a single product (C). The number 210 could be a typo or an irrelevant part of the equation, as it does not fit the standard chemical notation.

Based on the information you provided, the reaction can still be categorized as a combination reaction. In a combination reaction, two or more reactants combine to form a single product.

In this case, reactants A and B react together to produce product C. However, without further information or a corrected equation, it is not possible to provide specific details about the reaction or the substances involved.

If you have any additional information or a revised equation, please provide it, and I would be happy to assist you further.

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What is the mass of an airplane that is flying at 246 m/s and has a momentum of 19,680,000 kg•m/s?

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The mass of the airplane is 80,000 kg.

To find the mass of the airplane, we can use the formula for momentum:
momentum = mass x velocity

We are given the momentum of the airplane, which is 19,680,000 kg•m/s, and the velocity, which is 246 m/s.

So, we can rearrange the formula to solve for mass:
mass = momentum / velocity

Plugging in the values we have, we get:
mass = 19,680,000 kg•m/s / 246 m/s

Simplifying this expression gives us:
mass = 80,000 kg
Therefore, the mass of the airplane is 80,000 kg.

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The bulk of Florida’s peninsula is made up carbonate rock (limestone and dolostone) overlain by variable thicknesses and mixtures of sand and clay. Carbonate rocks store and transmit groundwater. Through a slow chemical process these carbonate rocks may also dissolve, which of the following landforms is a result of the chemical weathering of carbonate rock? A. dunes B. sinkholes C. mountains D. rivers

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The landform that is a result of the chemical weathering of carbonate rock is

B. sinkholes.

What happens during chemical weathering of carbonate rock?

While the chemical weathering of carbonate rock does occur, it can result in voids or cavities under the surface. When sedimentary layers become unstable and unable to support their own weight, a concave impression known as a sinkhole will form.

Sinkholes are prevalent in areas that have an ample supply of carbonate rock, which itself poses a danger due to its potential impact on infrastructure and human well-being. It is important to note that the chemical deterioration of carbonate rock does not typically contribute to natural developments like mountains, dunes, or rivers.

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ASAP Big test


Question 7 (1 point)


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The subscript numbers in covalent compounds can be determined by_____



Question 7 options:



the number of the column in which the element is found




the addition of the charges on each metal




the prefixes used in the written name of the compound




subtraction of the charges on the metal

Answers

The subscript numbers in covalent compounds can be determined by the prefixes used in the written name of the compound.

Covalent compounds are formed by the sharing of electrons between atoms, and their names are derived from the prefixes used to indicate the number of each type of atom in the compound.

The prefix indicates the number of atoms of each element, and the second element is given an "-ide" ending. For example, carbon dioxide has one carbon atom and two oxygen atoms, and is written as CO₂. The prefix "di" indicates two atoms of oxygen, and the subscript "2" indicates that there are two oxygen atoms.

Similarly, dinitrogen trioxide has two nitrogen atoms and three oxygen atoms, and is written as N₂O₃. The prefix "di" indicates two nitrogen atoms, and the prefix "tri" indicates three oxygen atoms, thus leading to the correct subscript numbers.

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Dalton's Law and the Ideal Gas Law


At what pressure will 4. 80 moles of fluorine gas have a volume of 60. 0 liters and a temperature of 298 K?

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The pressure of the fluorine gas under these conditions is approximately 2.01 atmospheres.

To answer your question, we will use the Ideal Gas Law equation:

PV = nRT

Where:
P = pressure
V = volume (60.0 liters)
n = number of moles (4.80 moles)
R = gas constant (0.0821 L atm / K mol)
T = temperature (298 K)

We need to find the pressure (P). Rearrange the equation for P:

P = nRT / V

Now plug in the given values:

P = (4.80 moles * 0.0821 L atm / K mol * 298 K) / 60.0 liters

P ≈ 2.01 atm

So, the pressure of the fluorine gas under these conditions is approximately 2.01 atmospheres.

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1.85 l of a gas is collected over water at 98.0 kpa and 22.0 °c. what is the volume of the dry gas at stp?

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In this problem, we are given the volume of a gas collected over water at a certain temperature and pressure. We need to determine the volume of the dry gas at STP (standard temperature and pressure).

First, we need to understand why the presence of water is important in this problem. When a gas is collected over water, some of the water vapor dissolves in the gas, which affects the volume of the gas we measure. In order to account for this, we need to use the concept of vapor pressure.

The vapor pressure of water at 22.0°C is 2.64 kPa. This means that at 22.0°C and 98.0 kPa, the total pressure is the sum of the pressure due to the gas and the pressure due to the water vapor. We can use Dalton's Law of Partial Pressures to calculate the pressure due to the gas alone:

P_gas = P_total - P_water vapor
P_gas = 98.0 kPa - 2.64 kPa
P_gas = 95.36 kPa

Now we can use the Ideal Gas Law to calculate the volume of the dry gas at STP:

PV = nRT

where P is the pressure, V is the volume, n is the number of moles, R is the gas constant, and T is the temperature. At STP, P = 101.3 kPa and T = 273.15 K.

We can rearrange the Ideal Gas Law to solve for the volume of the dry gas:

V_dry gas = (V_collected gas * P_gas * T_STP) / (P_STP * T_collected gas)

where V_collected gas is the volume of the gas collected over water, T_collected gas is the temperature of the gas collected over water, and T_STP is the temperature at STP.

Plugging in the numbers, we get:

V_dry gas = (1.85 L * 95.36 kPa * 273.15 K) / (101.3 kPa * 295.15 K)
V_dry gas = 1.60 L

Therefore, the volume of the dry gas at STP is 1.60 L. It's important to note that the volume of the dry gas is smaller than the volume of the gas collected over water, because some of the volume was occupied by water vapor.

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If re glazing do you cover what was forgotten(in the 2nd firing) or you fàreglaze everywhere

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When reglazing, you cover the areas that were forgotten in the 2nd firing as well as reglaze everywhere for a uniform appearance.

Reglazing involves applying a new layer of glaze to a previously fired ceramic piece to improve its appearance, fix any issues from previous firings, or to achieve a specific effect.

In your case, if some areas were missed or improperly glazed during the 2nd firing, you would want to apply glaze to those forgotten areas to ensure a consistent finish.

However, it's important to reglaze the entire piece, not just the missed areas, to maintain a uniform appearance and avoid any inconsistencies in the final result. Before reglazing, make sure the ceramic piece is clean and free of dust or debris.

Apply the glaze evenly, using an appropriate technique such as brushing or dipping, and then fire the piece again according to the glaze's specific firing temperature and instructions. This should result in a well-glazed and visually appealing ceramic piece.

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