Determine the quantity of heat


required to heat 352 g of water


from 20. 0°C to 93. 7°C in an


electric kettle.

Answers

Answer 1

Approximately 108,066 J of heat is required to heat 352 g of water from 20.0°C to 93.7°C in an electric kettle.

To determine the quantity of heat required to heat 352 g of water from 20.0°C to 93.7°C, we need to use the specific heat capacity of water and the equation:

q = m × c × ΔT

ΔT = change in temperature (in °C)

First, we need to calculate the change in temperature:

ΔT = final temperature - initial temperature

ΔT = 93.7°C - 20.0°C

ΔT = 73.7°C

Substituting the given values into the equation, we get:

q = 352 g × 4.184 J/g·°C × 73.7°C

q = 108,066.496 J

q ≈ 108,066 J (rounded to three significant figures)

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Related Questions

This is the chemical formula for cassiterite (tin ore):
sno2
a geochemist has determined by measurements that there are 3.316 moles of tin in a sample of cassiterite. how many moles of oxygen are in the sample?
be sure your answer has the correct number of significant digits.

Answers

The chemical formula for cassiterite is SnO2, which means that there are two moles of oxygen for every one mole of tin in the compound.

Given that there are 3.316 moles of tin in the sample, we can use the mole ratio to determine the number of moles of oxygen:

1 mole Sn : 2 moles O

3.316 moles Sn : x moles O

x = (3.316 moles Sn) x (2 moles O / 1 mole Sn) = 6.632 moles O

Therefore, there are 6.632 moles of oxygen in the sample of cassiterite.

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(marking brainliest!) given the following bond energies:

h-h = 436 kj/mol
i-i = 151 kj/mol
h-i = 297 kj/mol

calculate the enthalpy change for the following reaction:
h-h + i-i ---> 2h-i

-choices are attached!

Answers

Bond energy refers to the amount of energy required to break a bond between two atoms. This energy is required because bonds are formed when electrons are shared between atoms, and breaking a bond requires energy to be put into the system to overcome the electrostatic forces holding the atoms together.

In the case of the reaction given, h-h + i-i ---> 2h-i, we are asked to determine the energy change associated with breaking the H-H and I-I bonds and forming two new H-I bonds. To do this, we can use the bond energies of the individual bonds involved.

According to a standard table of bond energies, the H-H bond has a bond energy of 432 kJ/mol, while the I-I bond has a bond energy of 149 kJ/mol. The H-I bond has a bond energy of 436 kJ/mol. Using these values, we can calculate the energy change for the reaction as follows:

(2 x H-I bond energy) - (H-H bond energy + I-I bond energy)
= (2 x 436 kJ/mol) - (432 kJ/mol + 149 kJ/mol)
= 293 kJ/mol

So the energy change for the reaction is 293 kJ/mol. This means that the reaction is exothermic, as energy is released when the bonds are formed. This energy can be used to do work or heat up the surroundings.

Finally, you mentioned the term "marking brainliest". I assume you are referring to the "Brainliest Answer" feature on certain online platforms, where the person who asks a question can choose which answer they found most helpful or accurate. If this is the case, I hope my answer has been helpful and informative!

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How many moles of ice will form if 105 kJ of heat is removed from liquid
water at 0°C? The enthalpy of solidification for water is 6.01 kJ/mol.​

Answers

17.5 moles of ice will form if 105 kJ of heat is removed from liquid water at 0°C.

What is moles?

Moles are small, burrowing mammals that belong to the Talpidae family. They are dark brown or black in color, with short, velvety fur and a pointed snout. Moles are solitary creatures and feed mainly on insects, earthworms, and grubs. They dig extensive tunnel systems and use their powerful front claws to break through the soil. Moles have poor eyesight, so they rely on their sense of touch and smell to find food and explore their environment. They are found in many parts of the world, including North America, Europe, and Asia. Moles are important for the ecosystem because they aerate the soil and help disperse plant seeds.

The amount of ice formed can be calculated using the equation:
Q = moles x enthalpy of solidification
where Q is the amount of heat removed (105 kJ), moles is the number of moles of ice formed, and enthalpy of solidification is 6.01 kJ/mol.
Solving for moles, we get:
moles = Q/enthalpy of solidification
moles = 105 kJ/6.01 kJ/mol
moles = 17.5 moles.

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Calculate the pH of a solution


in which [H3O+] = 0. 050 M.

Answers

The pH of the solution is 1.30

To determine the pH of a solution, the formula:

pH = -log[H3O+]

Given a concentration of H3O+ in the solution as 0.050 M, substituting this value into the formula yields:

pH = -log(0.050)

By evaluating this expression using a calculator, the pH is found to be 1.30. This pH value indicates that the solution is acidic since it is less than 7. The pH scale is logarithmic, meaning that each unit change in pH corresponds to a tenfold change in the acidity or basicity of the solution. Consequently, a solution with a pH of 1 is ten times more acidic than a solution with a pH of 2, and a hundred times more acidic than a solution with a pH of 3, and so forth.

Therefore, a pH of 1.30 denotes a moderately acidic solution.

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How could you use iron oxide to prepare iron nitrate?

Answers

Iron oxide can be reacted with nitric acid to prepare iron nitrate. This reaction involves the displacement of hydrogen ions in nitric acid by iron ions in iron oxide, leading to the formation of iron nitrate and water.

To use iron oxide to prepare iron nitrate, you can follow these steps:

1. Begin with iron oxide (Fe₂O₃), which is a compound consisting of iron and oxygen.

2. Dissolve the iron oxide in a strong acid, such as concentrated nitric acid (HNO₃). This reaction will produce iron nitrate (Fe(NO₃)₃) and water as byproducts. The chemical equation for this reaction is:

  2Fe₂O₃ + 6HNO₃ → 4Fe(NO₃)₃ + 3H₂O

3. After the reaction is complete, you can separate the iron nitrate from the remaining mixture by filtration or evaporation. The iron nitrate can then be collected in a crystalline form for further use.

By following these steps, you can successfully use iron oxide to prepare iron nitrate.

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If a gas occupies 30 L at STP, what would be the volume if the temperature was raised to 323. 15K ?

Answers

At STP, typically defined as a temperature of 0°C (273.15K) and a pressure of 1 atm, the volume of a gas is equal to 30 L.

When the temperature of the gas is increased, the kinetic energy of the gas particles increases, causing them to move more quickly and expand. This expansion of the gas increases its volume.

Using the ideal gas law, the new volume of the gas can be calculated by multiplying the original volume by the ratio of the new temperature (323.15K) to the original temperature (273.15K) and raising that to the power of 1/273.15.

In this case, the new volume of the gas is 33.53 L. In conclusion, when the temperature of a gas is raised, its volume increases.

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A helium filled balloon has a volume of 50. 0L at 25⁰ C and 1. 00 atm. What volume will it have at 0. 855 atm and 10. 0⁰ C?

Answers

A helium filled balloon has a volume of 50. 0L at 25⁰C and 1. 00 atm.  43.6 L will it have at 0. 855 atm and 10. 0⁰C.

To solve this problem, we can use the combined gas law, which relates the pressure, volume, and temperature of a gas. The formula is:

[tex]\frac{{P_1V_1}}{{T_1}} = \frac{{P_2V_2}}{{T_2}}[/tex]

Where P1, V1, and T1 are the initial conditions, and P2, V2, and T2 are the final conditions. Plugging in the given values, we get:

[tex]\left(\frac{{1.00 , \text{atm} \cdot 50.0 , \text{L}}}{{298 , \text{K}}}\right) = \left(\frac{{0.855 , \text{atm} \cdot V2}}{{283 , \text{K}}}\right)[/tex]

Solving for V2, we get:

[tex]V2 = \frac{{1.00 , \text{atm} \cdot 50.0 , \text{L}}}{{298 , \text{K}}} \times \frac{{283 , \text{K}}}{{0.855 , \text{atm}}} = 43.6 , \text{L}[/tex]

Therefore, the helium-filled balloon will have a volume of 43.6 L at 0.855 atm and 10.0⁰C.

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If the original volume of a gas was 300 L at 0. 250 atm and 400. 0 K, what is the volume of the gas at 2. 00 atm and 200. 0 K?

Answers

The volume of the gas at 2.00 atm and 200.0 K is 18.75 L.

We can use the combined to solve this problem:

(P1 * V1) / (T1) = (P2 * V2) / (T2)

where P is pressure, V is volume, and T is temperature.

Plugging in the given values:

(0.250 atm * 300 L) / (400.0 K) = (2.00 atm * V2) / (200.0 K)

Simplifying:

V2 = (0.250 atm * 300 L * 200.0 K) / (2.00 atm * 400.0 K)

V2 = 18.75 L

Therefore, the volume of the gas at 2.00 atm and 200.0 K is 18.75 L.

Gas laws refer to a set of principles that describe the behavior of gases under different conditions, including pressure, temperature, and volume.

There are several gas laws, including Boyle's law, Charles's law, Gay-Lussac's law, and the ideal gas law.

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What is the mass of solute in a 500mL solutiom of 0. 200 M Sodium Phosphate

Answers

The mass of solute in a 500mL solution of 0.200 M Sodium Phosphate is approximately 16.394 grams.

To find the mass of solute in a 500mL solution of 0.200 M Sodium Phosphate, we can follow these steps:

1. Identify the molar concentration (M) of the solution, which is given as 0.200 M.
2. Convert the volume of the solution from mL to L: 500mL = 0.500L.
3. Calculate the moles of solute (Sodium Phosphate) using the formula: moles = Molarity × Volume. So, moles = 0.200 M × 0.500 L = 0.100 moles.
4. Find the molar mass of Sodium Phosphate (Na3PO4). The molar mass of Na is 22.99 g/mol, P is 30.97 g/mol, and O is 16.00 g/mol. Therefore, the molar mass of Na3PO4 is (3 × 22.99) + 30.97 + (4 × 16.00) = 163.94 g/mol.
5. Finally, calculate the mass of solute using the formula: mass = moles × molar mass. So, mass = 0.100 moles × 163.94 g/mol = 16.394 g.

In summary, the mass of solute in a 500mL solution of 0.200 M Sodium Phosphate is approximately 16.394 grams.

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What was the mass of zinc used in the first reaction of the experiment? note: depending on the actual amount of substances dispensed in the lab, there is a range of possible answers. Pick the value that is closest to yours

Answers

When zinc reacts with hydrochloric acid, the response bubbles vigorously as hydrogen fueloline is produced.

The manufacturing of a fueloline is likewise an illustration that a chemical response is occurring. When dilute hydrochloric acid is introduced to granulated zinc positioned in a take a look at tube, zinc metallic is transformed to zinc chloride and hydrogen fueloline is developed withinside the response. In the response we will see that a zinc chloride salt is fashioned and hydrogen fueloline is developed. The developed hydrogen fueloline is colourless and odourless. When Zinc granules reacts with Hydrochloric acid ,it'll produces hydrogen fueloline and zinc chloride.

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A piece of unknown metal with a mass of 23.8 g is heated to 100.0°C and is dropped into 50.0 g of water at 24.0°C. The final temperature is 32.5°C. What is the specific heat of the metal?

Answers

The metal has a specific heat of 0.385 J/g°C.

To solve for the specific heat of the metal, we need to use the equation:
Q = mCΔT
where Q is the heat transferred, m is the mass of the substance, C is the specific heat, and ΔT is the change in temperature.

In this case, the heat transferred from the metal to the water can be calculated as:
Q = mcΔT
where c is the specific heat of water (4.184 J/g°C) and ΔT is the change in temperature of the water (from 24.0°C to 32.5°C).

Q = (50.0 g)(4.184 J/g°C)(32.5°C - 24.0°C)
Q = 1743.8 J

The heat transferred from the metal to the water is equal to the heat absorbed by the metal:
Q = mCΔT

where m is the mass of the metal and ΔT is the change in temperature of the metal (from 100.0°C to 32.5°C).
1743.8 J = (23.8 g)C(100.0°C - 32.5°C)
C = 0.385 J/g°C

Therefore, the specific heat of the metal is 0.385 J/g°C.

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14. 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 . Write the complete balanced molecular equation(s) below of the reaction(s) that occurred, including the states of matter. HINT: Try writing ALL possible reactions that could have been created, and then decide which reactions actually occurred.

Answers

Unknown + Potassium Carbonate → Potassium Nitrate + Unknown Carbonate

[tex]Sr(NO_3)_2[/tex] + [tex]K_2CO_3[/tex] → [tex]2KNO_3[/tex] + [tex]SrCO_3[/tex] (if the unknown is strontium nitrate)

[tex]Mg(NO_3)_2[/tex]+ [tex]K_2CO_3[/tex] → [tex]2KNO_3[/tex] + [tex]MgCO_3[/tex] (if the unknown is magnesium nitrate)

Here are the balanced molecular equations for the reactions that could have occurred between the unknown solution (either strontium nitrate or magnesium nitrate) and potassium carbonate and potassium sulfate: Unknown + potassium carbonate → potassium nitrate + magnesium or strontium carbonate (depending on the unknown)

Unknown + potassium sulfate → potassium nitrate + magnesium or strontium sulfate (depending on the unknown)

Unknown + Potassium Sulfate → Potassium Nitrate + Unknown Sulfate

[tex]Sr(NO_3)_2[/tex] + [tex]K_2SO_4[/tex] → [tex]2KNO_3[/tex] + [tex]SrSO_4[/tex] (if the unknown is strontium nitrate)

[tex]Mg(NO_3)_2[/tex] + [tex]K_2SO_4[/tex] → [tex]2KNO_3[/tex] + [tex]MgSO_4[/tex] (if the unknown is magnesium nitrate)

To determine which reaction occurred, you would need to observe which products were formed. If [tex]SrCO_3[/tex] or [tex]SrSO_4[/tex] were formed, then the unknown was strontium nitrate.

If [tex]MgCO_3[/tex] or [tex]MgSO_4[/tex] were formed, then the unknown was magnesium nitrate.

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How many total electrons are transferred during the reaction of the oxidation of chromium



metal according to the following reaction?



4Cr(s) + 302(g)



-->



2Cr2O3(s)



O4 electrons



6 electrons



8 electrons



O2 electrons

Answers

In the reaction of the oxidation of chromium, 4 chromium atoms each lose 3 electrons to become positively charged ions, and 3 oxygen molecules each gain 4 electrons to become negatively charged ions. This means that a total of 12 electrons are transferred in the oxidation of chromium.


The oxidation of chromium can be broken down into two half-reactions:


1) The oxidation of chromium:
4Cr(s) --> 4Cr³⁺(aq) + 12e-

In this half-reaction, each

chromium atom loses 3 electrons to become a positively charged ion (Cr³⁺), and a total of 12 electrons are

transferred

.

2) The reduction of oxygen:
3O₂(g) + 12e- --> 6O²⁻(aq)

In this half-reaction, each oxygen molecule gains 4 electrons to become a negatively charged ion (O²⁻), and a total of 12 electrons are transferred.

Therefore, the total number of electrons transferred during the reaction of the oxidation of chromium is 12. It is important to note that this reaction involves the transfer of O₂ electrons, not O₄ electrons.

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2NaNO3 + PbO → Pb(NO3)2 + Na₂O
What is the mole ratio between
sodium nitrate and sodium oxide?
[?] mol NaNO3
mol Na₂O
Fill in the green blank.
Enter

Answers

The mole ratio of [tex]NaNO_3[/tex] to [tex]Na_2O[/tex] is 2:1 in the balanced equation

The reasonable compound condition[tex]2NaNO_3 + PbO → Pb(NO_3)_2 + Na_2O[/tex] shows that two moles of sodium nitrate[tex](NaNO_3)[/tex] respond with one mole of lead oxide [tex](PbO)[/tex]to create one mole of sodium oxide [tex]Na_2O[/tex] and one mole of lead nitrate[tex](Pb(NO_3)_2)[/tex] .

In this way, the mole proportion of [tex]NaNO_3[/tex] to [tex]Na_2O[/tex]is 2:1. This intends that for each two moles of [tex]NaNO_3[/tex] utilized, one mole of[tex]Na_2O[/tex] is delivered.

This mole proportion is significant in deciding how much  [tex]Na_2O[/tex]delivered when a known measure of [tex]NaNO_3[/tex] is utilized. For instance, assuming we have 2 moles of [tex]NaNO_3[/tex], we can establish that we will deliver 1 mole of [tex]Na_2O[/tex]. Assuming that we have 4 moles of[tex]NaNO_3[/tex] , we will create 2 moles of [tex]Na_2O[/tex].

Knowing the mole proportion likewise permits us to compute the hypothetical yield of [tex]Na_2O[/tex] in light of how much [tex]NaNO_3[/tex]  utilized. In any case, practically speaking, the genuine yield might contrast because of exploratory mistake or different elements.

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Answer:

Explanation:

it's 2:1 the top person is right and how i know that is because when i was in school i have my notes so the top of me is right!!! :)

Use this equation to answer the following two questions.


2 Mg + O2 → 2Mgo


5) If you have 7. 8 moles of magnesium and 4. 7 moles of oxygen, which one 2 points


will be the EXCESS reactant if they are allowed to react until ithe reaction


stops?


magnesium


oxygen


O magnesium oxide

Answers

The excess reactant will be oxygen.

To determine the excess reactant, we need to compare the amount of moles of each reactant to the stoichiometry of the balanced equation. The stoichiometric ratio between magnesium and oxygen is 2:1, which means that for every 2 moles of magnesium, 1 mole of oxygen is required for complete reaction.

In this case, we have 7.8 moles of magnesium and 4.7 moles of oxygen. Based on the stoichiometric ratio, we can see that 7.8 moles of magnesium require 3.9 moles of oxygen (2 moles of oxygen for every 1 mole of magnesium). Since we only have 4.7 moles of oxygen, it is the limiting reactant, and magnesium will be in excess.

Therefore, after the reaction is complete, all of the magnesium will be consumed, and some oxygen will be left over. The product of the reaction will be 7.8 moles of magnesium oxide.

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Dangers in your home: knowing how to handle household products containing
hazardous materials or chemicals can reduce the risk of injury. It is important to store
household chemicals where children cannot access them. Remember that common
products such as aerosol cans of hair spray and deodorant, nail polish and nail polish
remover, toilet bowl cleaners and furniture polishes are hazardous
materials. Sometimes using these products incorrectly can result in a dangerous
situation.
Many household cleaners, particularly toilet cleaners and some drain cleaners have
acid in them. This is the equation representing hydrocloric acid plus bleach.
NaCIO + 2 HCI- Cl₂ + H₂O + NaCl
Imagine you have just mixed the two seemingly non-toxic products, toilet bowl
cleaner and bleach to do a really thorough job in your bathroom. All of a sudden you
feel dizzy and your eyes and nose are burning. Explain what has happened.

You mixed the products in a confined space and there is not much oxygen left to
breathe.

By mixing the two, the chemical reaction released a product that is potentially
toxic: chlorine gas.

A chemical reaction occurred and you released sodium chloride into the air that
caused your dizziness.

When the NaCIO decomposes during mixing, the excess oxygen in the air will
produce dizziness.

Answers

By mixing toilet bowl cleaner and bleach, a chemical reaction occurs, which releases a potentially toxic gas: chlorine gas. Chlorine gas can cause irritation to the eyes, nose, and throat, as well as difficulty breathing, coughing, and wheezing. The correct answer is 2.

Inhaling high levels of chlorine gas can even lead to chest pain, vomiting, and death. It is important to always read and follow the labels on household cleaning products and never mix different products together, especially those containing bleach and acids. If you accidentally mix these products and experience symptoms of chlorine gas exposure, seek fresh air and medical attention immediately. Hence option 2 is correct.

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1 point
for the reaction represented by the equation 2na + 2h20 -> 2naoh + h2,
how many grams of sodium hydroxide are produced from 68.97g of sodium with an excess of water?
o a 40.00 g
b. 80.00 g
c. 120.0 g
d. 240.0 g

Answers

The answer is 120.0 g of sodium hydroxide are produced. The correct answer is option c.

The balanced equation for the reaction is:

[tex]2 Na + 2 H2O → 2 NaOH + H2[/tex]

From the equation, it can be seen that 2 moles of NaOH are produced for every 2 moles of Na that react. Therefore, the number of moles of NaOH produced can be calculated as follows:

moles of NaOH = moles of Na = mass of Na / molar mass of Na

molar mass of Na = 22.99 g/mol

moles of NaOH = 68.97 g / 22.99 g/mol = 3.00 mol

So, 3.00 moles of NaOH are produced. To convert to grams, we can use the molar mass of NaOH:

molar mass of NaOH = 40.00 g/mol

mass of NaOH = moles of NaOH x molar mass of NaOH

mass of NaOH = 3.00 mol x 40.00 g/mol = 120.00 g

Therefore, the answer is (c) 120.0 g of sodium hydroxide are produced.

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Converting mass to moles ccc scale proportion and quantity the table shows how many moles are in 6 grams of four elements the equation shows how to use carbon molar mass to find the moles of carbon

Answers

Converting mass to moles ccc requires knowing the molar mass of the substance and using it to divide the given mass to find the number of moles

Moles ccc is a unit used to measure the amount of substance, particularly in chemistry. It is defined as the number of atoms, molecules, or ions in 12 grams of pure carbon-12. One mole of any substance contains Avogadro's number of particles, which is approximately 6.022 x 10^23.

To convert mass to moles on the ccc scale, you need to know the molar mass of the substance. Molar mass is the mass of one mole of a substance, expressed in grams per mole. To find the number of moles of a substance, you divide the given mass by its molar mass.

For example, the table given shows how many moles are in 6 grams of four elements: oxygen, sulfur, sodium, and iron. To find the number of moles of oxygen, you divide 6 grams by its molar mass, which is 16 grams per mole. This gives you 0.375 moles of oxygen.

The equation given shows how to use carbon molar mass to find the moles of carbon. The molar mass of carbon is 12 grams per mole. Therefore, if you have a sample of carbon with a mass of 24 grams, you can find the number of moles by dividing 24 grams by 12 grams per mole, which equals 2 moles of carbon.

In summary, converting mass to moles ccc requires knowing the molar mass of the substance and using it to divide the given mass to find the number of moles. The moles ccc scale is a useful unit for measuring the amount of substance in chemistry.

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How many moles of gas occupy 128L at a pressure of 4. 2 atm and a temperature of 382K​

Answers

To solve this problem, we need to use the ideal gas law which states that 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. Rearranging this equation, we can solve for n by dividing both sides by RT.

n = PV/RT
Now, we can plug in the given values:
n = (4.2 atm)(128 L)/(0.0821 L*atm/mol*K)(382 K)

n = 16.4 moles
Therefore, 16.4 moles of gas occupy 128L at a pressure of 4.2 atm and a temperature of 382K.

It's important to note that the ideal gas law is only applicable to ideal gases, which follow certain assumptions such as having no intermolecular forces and having particles with negligible volume. Real gases can deviate from these assumptions, especially at high pressures and low temperatures. However, for most practical purposes, the ideal gas law provides a good approximation of gas behavior.

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PLEASEEE HELP MEEEE!!! How many grams of iron (III) oxide will be produced if 4300 kJ of heat energy is released?
4 Fe+ 3 O2 → 2 Fe2O3

ΔH = -1652 kJ

Answers

Answer: 652.8 g of iron (III) oxide produced.

Explanation:

To calculate the amount of iron (III) oxide produced, we use the enthalpy change of the reaction to determine the amount of energy released and convert it to moles of Fe2O3 produced. Then, we multiply by the molar mass of Fe2O3 to obtain the mass of Fe2O3 produced. Using these calculations, we get 652.8 g of iron (III) oxide produced.

580.84 grams of iron (III) oxide will be produced when 4300 kJ of heat energy is released.

Given:

Enthalpy change (∆H) value: ∆H = -1652 kJ

Amount of heat energy released: 4300 kJ

From the balanced equation:

4Fe + 3O₂ → 2 Fe₂O₃

The molar ratio between Fe₂O₃ and ∆H is 2:1652 kJ.

To find the molar amount of Fe₂O₃ produced, the following calculation:

[tex]4300 \times \frac{2}{1652}[/tex] = 5.20 mol Fe₂O₃

To convert this into grams, it is required to multiply the molar amount by the molar mass of Fe₂O₃:

5.20  × 2  × 55.85 = 580.84 g

Therefore, 580.84 grams of iron (III) oxide will be produced when 4300 kJ of heat energy is released.

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How many valence electrons does carbon have available for bonding to other atoms?
a. 2
b. 4
c. 6
d. 8

Answers

Answer:

4 valence electrons.

Explanation:

Carbon has 4 valence electrons because it is in the 14th group on the Periodic Table.

which of these atoms has the most stable nuclei? Ra
Po
Rn
Au

Answers

Answer:

Rn has the most stable nucleus

Rn (Radon) has the most stable nuclei due to its closer proximity to the magic number 126.

Option (3) is correct.

The stability of a nucleus depends on the arrangement of protons and neutrons within it. Certain numbers of protons and neutrons result in more stable nuclei. These numbers are known as magic numbers, and they correspond to complete nuclear shells.

Among the given atoms:

Ra (Radium) has 88 protons and a varying number of neutrons.

Po (Polonium) has 84 protons and a varying number of neutrons.

Rn (Radon) has 86 protons and a varying number of neutrons.

Au (Gold) has 79 protons and a varying number of neutrons.

Radon (Rn) has the most stable nuclei because it is closer to the magic number 126 for neutrons. Elements with magic numbers of protons or neutrons tend to have more stable configurations, making Rn the most stable among the options provided.

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2. Draw four reasonable resonance structures for the PO3F
2- ion. The central P atom is bonded to the three O atoms and to the F atom. Show formal charges for all four structures.

Answers

Four reasonable resonance structures for the [tex]PO_3F^2^-[/tex] are:

Structure 1:
O- P(=O)-O- F

Structure 2:
O- P(-O•)-O•- F

Structure 3:
O•- P(-O)-O- F,

Structure 4:
O•- P(-O•)-O•- F

The [tex]PO_3F^2^-[/tex] ion has four reasonable resonance structures, which are shown below:

Structure 1:
O- P(=O)-O- F, with formal charges of +1 on the P atom, -1 on the F atom, and -1 on each of the two terminal O atoms.

Structure 2:
O- P(-O•)-O•- F, with formal charges of 0 on the P atom, -1 on the F atom, and -1 on each of the two terminal O atoms.

Structure 3:
O•- P(-O)-O- F, with formal charges of -1 on the P atom, -1 on the F atom, and 0 on each of the two terminal O atoms.

Structure 4:
O•- P(-O•)-O•- F, with formal charges of -2 on the P atom, -1 on the F atom, and 0 on each of the two terminal O atoms.

To draw four reasonable resonance structures for the [tex]PO_3F^2^-[/tex] ion, consider that the central phosphorus (P) atom is bonded to the three oxygen (O) atoms and to the fluorine (F) atom. Here are the four resonance structures with formal charges:

1. P is double bonded to one O, single bonded to the other two O atoms, and single bonded to F. The O atom with a double bond has a formal charge of 0, the other two O atoms have a formal charge of -1 each, P has a formal charge of +1, and F has a formal charge of 0.

2. P is double bonded to the second O, single bonded to the other two O atoms, and single bonded to F. The O atom with a double bond has a formal charge of 0, the other two O atoms have a formal charge of -1 each, P has a formal charge of +1, and F has a formal charge of 0.

3. P is double bonded to the third O, single bonded to the other two O atoms, and single bonded to F. The O atom with a double bond has a formal charge of 0, the other two O atoms have a formal charge of -1 each, P has a formal charge of +1, and F has a formal charge of 0.

4. P is single bonded to all three O atoms and single bonded to F. One O atom has a formal charge of 0, the other two O atoms have a formal charge of -1 each, P has a formal charge of +1, and F has a formal charge of -1.

These four resonance structures show the distribution of electrons and formal charges for the [tex]PO_3F^2^-[/tex] ion, illustrating its resonance stabilization.

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According to the general procedure of Experiment A2b, 213 mg of (E)-stilbene (180. 25 g/mol) was reacted with 435 mg of pyridinium bromide perbromide (319. 82 g/mol) to afford 342 mg of meso-stilbene dibromide (340. 05 g/mol) as a white solid. Calculate the percent yield for this reaction. Enter your answer as digits only (no units), using the proper number of significant figures

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The percent yield of the reaction is 80%.

To calculate the percent yield, we need to use the following formula:

Percent yield = (actual yield / theoretical yield) x 100

The actual yield of the reaction is 342 mg.

To calculate the theoretical yield, we need to first calculate the number of moles of (E)-stilbene and pyridinium bromide perbromide used in the reaction:

Number of moles of (E)-stilbene

= 213 mg / 180.25 g/mol = 0.001182 mol

Number of moles of pyridinium bromide perbromide

= 435 mg / 319.82 g/mol = 0.001361 mol

Theoretical yield of meso-stilbene dibromide = number of moles of (E)-stilbene x 2 = 0.002364 mol x 340.05 g/mol = 803 mg

Now we can substitute the values into the formula:

Percent yield = (342 mg / 803 mg) x 100 = 80%

Therefore, the percent yield of the reaction is 80%.

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G Trehalose, C12H22O11, is a nonreducing sugar that is only 45% as sweet as sugar. When hydrolyzed by aqueous acid or an alpha-glucosidase, it forms only D-glucose. When it is treated with excess methyl iodide in the presence of Ag2O and then hydrolyzed with water under acidic conditions, only 2,3,4,6-tetra-O-methyl-D-glucose is formed. Complete the structure of trehalose

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The structure of trehalose can be determined based on its chemical formula, [tex]C12H22O11[/tex], and the fact that it only forms D-glucose upon hydrolysis.

Trehalose is a disaccharide composed of two glucose molecules linked by an alpha-1,1 glycosidic bond. This means that the glucose molecules are joined together through their first and first carbon atoms, respectively. The structure can be written as:

[tex]HOCH2(CHOH)4α-D-Glc-(1→1)-α-D-Glc-CH2OH[/tex]

where [tex]"α-D-Glc"[/tex] represents a glucose molecule in its alpha configuration.

To visualize the structure, we can draw it in a condensed form, where the two glucose molecules are shown connected by a straight line:

[tex]HOCH2(CHOH)4α-D-Glc-(1→1)-α-D-Glc-CH2OH[/tex]

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how does hydrogen peroxide contribute to photochemical smog?

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Hydrogen peroxide is a major contributor to photochemical smog, which is a type of air pollution that is formed through the reaction of sunlight with various pollutants in the atmosphere.

When sunlight shines on the atmosphere, it causes a chain reaction that leads to the formation of photochemical smog.

Hydrogen peroxide is produced in the atmosphere through the reaction of hydrocarbons and nitrogen oxides. Hydrocarbons are compounds that contain carbon and hydrogen, and they are emitted by vehicles, factories, and other sources. Nitrogen oxides are emitted by vehicles and power plants.

When these two pollutants react with sunlight, they form a variety of other compounds, including hydrogen peroxide. The hydrogen peroxide then reacts with other pollutants in the atmosphere, such as volatile organic compounds, to form photochemical smog.

Photochemical smog is a serious environmental issue because it can cause a variety of health problems, including respiratory issues, eye irritation, and even cancer. It can also damage crops and other vegetation, and can contribute to global warming.

Overall, hydrogen peroxide plays a key role in the formation of photochemical smog, and reducing its emissions is an important step in improving air quality and protecting public health.

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a student is asked to transfer 0.03 ml of a concentrated solution in order to accurately dilute the solution to 0.020 m. which measuring tool would you choose to obtain the needed volume of the original concentrated solution?

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To accurately measure a very small volume of liquid like 0.03 ml, a micropipette would be the most appropriate measuring tool to use.

What is micropipette?

A micropipette is a laboratory instrument commonly used in biology, chemistry, and other related fields to accurately and precisely measure and transfer small volumes of liquids. It typically operates through a piston-driven air displacement system, allowing for very precise measurements in the microliter (μL) or even nanoliter (nL) range.

Micropipettes are commonly used in applications such as DNA sequencing, PCR, and protein assays, where precise and accurate liquid handling is essential for accurate results.

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_____is a sequence of a chain of amino acids

Answers

Answer: polypeptide chain

Explanation:

There is a transfer of chemical energy from producers to consumers. What is this chemical energy?.

Answers

The chemical energy referred to in the transfer from producers to consumers is the energy stored in the organic molecules synthesized by the producers during photosynthesis.

Producers, such as plants and algae, use energy from sunlight to convert carbon dioxide and water into glucose and other organic molecules through the process of photosynthesis. The energy from the sunlight is converted into chemical energy and stored in the organic molecules.

Consumers, such as herbivores and carnivores, obtain this stored chemical energy by consuming the organic molecules synthesized by the producers. The organic molecules are broken down during cellular respiration to release the stored chemical energy, which is used by the consumer to power its cellular processes.

Thus, the transfer of chemical energy from producers to consumers is a fundamental process in the food chain, and it is essential for the maintenance of life on earth.

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8250 J of heat is applied to a piece of aluminum, causing a 40. 0 °C increase in its temperature. The specific heat of aluminum is 0. 9025 J/g ·°C. What is the mass of the aluminum?

Answers

We can use the formula for calculating heat:

Q = m × c × ΔT

where Q is the amount of heat transferred, m is the mass of the substance, c is its specific heat, and ΔT is the change in temperature.

Plugging in the given values, we get:

8250 J = m × 0.9025 J/g ·°C × 40.0 °C

Simplifying, we get:

8250 J = m × 36.1 J/g

Solving for m, we get:

m = 8250 J ÷ 36.1 J/g

m ≈ 228.26 g

Therefore, the mass of the aluminum is approximately 228.26 g.

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