Complete the following reaction



a. HN03 + KOH -->. +.



b. HCl + LiOH -->. +.



c. H2S + NaOH -->. +

Answer:

Backbone help us to be straight ,walk ,sleep etc

Explanation:

Backbone is the part of human body which is located back of our body.

It effort helps us to be straight do various work

The spine or the backbone is the central structure of the vertebrate body and it serves a few imperative capacities:

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The chemical reaction between potassium and sodium oxide results in the formation of potassium oxide and sodium. The balanced equation for this reaction is:
2K + Na₂O -> K₂O + 2Na


This reaction is an example of a displacement reaction, where a more reactive element (potassium) displaces a less reactive element (sodium) from its compound (sodium oxide). The displacement occurs because potassium has a greater tendency to lose electrons and form cations compared to sodium.

Potassium oxide is an important chemical compound with many industrial applications, including in the production of glass, ceramics, and fertilizers. It is also used as a drying agent and catalyst in organic reactions.

Sodium, on the other hand, is a highly reactive metal that is commonly found in compounds such as sodium chloride (table salt) and sodium hydroxide (lye). It is an essential element for many biological processes, including nerve and muscle function.

Overall, this chemical reaction between potassium and sodium oxide is important because it highlights the reactivity of these elements and the formation of useful compounds such as potassium oxide. It also emphasizes the importance of balancing chemical equations to ensure that the reactants and products are in the correct proportions.

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The pH of the solution where [tex][OH⁻][/tex]=0.00030 M is 11.48. This indicates that the solution is basic, or alkaline, since the pH is greater than 7.

To determine the pH of a solution where[tex][OH⁻][/tex]=0.00030 M, we can use the relationship between the concentrations of hydrogen ions and hydroxide ions in water, which is defined by the equation[tex]Kw = [H⁺][OH⁻].[/tex]At 25°C, the value of Kw is [tex]1.0 x 10^-14[/tex].

If we substitute the concentration of hydroxide ions given in the question ([tex][OH⁻][/tex]=0.00030 M) into this equation, we can solve for the concentration of hydrogen ions:

[tex]Kw = [H⁺][OH⁻]\\1.0 x 10^-14 = H⁺\\[H⁺] = 3.3 x 10^-12 M[/tex]

Now that we know the concentration of hydrogen ions, we can use the formula for pH, which is defined as [tex]pH = -log[H⁺][/tex], to find the pH of the solution:

[tex]pH = -log(3.3 x 10^-12)[/tex]

pH = 11.48

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

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

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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2.00 moles of aluminum are needed to react completely with 213 g of Cl₂.

Prior to calculating the moles of aluminum (Al) required for a complete reaction with 213 g chlorine gas (Cl₂), it is necessary to write and balance the Al and Cl₂ chemical equation:

compute the quantity of Cl₂ in moles

molar mass of Cl₂

= 2 x atomic mass of Cl

= 2 x 35.45 g/mol

= 70.90 g/mol

To obtain moles of Cl₂ simply divide its mass by its molar weight as per this formula:

= 213 g / 70.90 g/mol = 3.00 mol.

moles of Al

= (moles of Cl₂ x 2) / 3

= (3.00 mol x 2) / 3

= 2.00 mol

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Answer: C

Explanation: When distinguishing between opinion and fact, it's important to pick out certain words or phrases.

EX 1: Apple's are healthy, but you shouldn't eat too many of them. Fact

EX 2: I don't think you should eat that banana, they don't taste good to me. Opinion

Try to say the sentence in your head as if you were talking to another person, and try to determine your answer that way.

The empirical formula of a compound made up of 94.5 g of aluminum and 199.5 g of fluorine is AlF₃.

To determine the empirical formula of the compound, we need to first calculate the moles of each element present in the sample.

Moles of aluminum = 94.5 g / 26.98 g/mol = 3.50 mol

Moles of fluorine = 199.5 g / 18.99 g/mol = 10.51 mol

Next, we need to determine the smallest whole number ratio between these two values.

Dividing both values by 3.50, we get:

Moles of aluminum = 1

Moles of fluorine = 3

Therefore, the empirical formula of the compound is AlF₃.

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The sample has approximately 0.000155 moles.

To determine the number of moles in a sample of a substance given the number of particles, we need to use Avogadro's number, which states that there are[tex]6.022 x 10^23[/tex] particles in one mole of a substance.

Using this conversion factor, we can calculate the number of moles in the sample as follows:

[tex]9.3541 x 10^13[/tex]particles x 1 mole / [tex]6.022 x 10^23[/tex] particles ≈ 0.000155 moles

Therefore, the sample has approximately 0.000155 moles.

It's important to note that the number of particles in a sample does not depend on the substance's molar mass or atomic weight, but rather on the number of atoms, molecules, or ions present in the sample. Knowing the number of moles in a sample can be useful in determining other properties of the substance, such as its mass or volume.

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Answer:

1000m/s^2

Explanation:

since F=ma

:a=m/F

Yo convert ur m from kg to g

20×1000

20000

a=20000\20

a=1000m/s^2

When the steam condenses, we can collect 204.06 mL of water.

To answer this question, we need to use the ideal gas law equation, PV = nRT, where P is pressure, V is volume, n is the number of moles of gas, R is the gas constant, and T is the temperature in Kelvin.

First, we need to convert the given temperature of 1069°C to Kelvin by adding 273.15, giving us 1342.15 K. We can then calculate the number of moles of steam needed to fill the drum by rearranging the ideal gas law equation to solve for n: n = PV/RT.

Plugging in the given values, we get n = (1.00 atm)(162 L)/(0.08206 L·atm/mol·K)(1342.15 K) = 11.32 moles of steam.

To calculate the mass of water in grams, we can use the fact that 1 mole of water weighs 18.015 g. Thus, the mass of water needed to fill the drum as steam is 11.32 moles x 18.015 g/mol = 204.06 g.

When the temperature in the drum is decreased to 227°C, all the steam condenses back into water. The heat released by the steam is given off to the surroundings, and the water vapor loses energy and condenses to form liquid water. We can calculate the volume of water that is formed using the fact that 1 mL of water has a mass of 1.00 g.

Thus, the mass of the water that forms is 204.06 g, which is equivalent to 204.06 mL of water. Therefore, when the steam condenses, we can collect 204.06 mL of water.

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23.88  grams of fe2o3 are formed when 16.7 g of fe reacts completely with excess o2.

According to the synthesis reaction 4Fe + 3O₂ → 2Fe₂O₃, we need to determine how many grams of Fe₂O₃ are formed when 16.7 g of Fe reacts completely with excess O₂.

Step 1: Determine the molar mass of Fe and Fe₂O₃.
Fe: 55.85 g/mol
Fe₂O₃: (2 × 55.85) + (3 × 16.00) = 159.69 g/mol

Step 2: Convert grams of Fe to moles of Fe.
moles of Fe = (16.7 g) / (55.85 g/mol) = 0.299 moles

Step 3: Use the stoichiometry of the reaction to determine moles of Fe₂O₃ produced.
The reaction shows that 4 moles of Fe produce 2 moles of Fe₂O₃. Therefore,
moles of Fe₂O₃ = (0.299 moles Fe) × (2 moles Fe₂O₃ / 4 moles Fe) = 0.1495 moles Fe₂O₃

Step 4: Convert moles of Fe₂O₃ to grams of Fe₂O₃.
grams of Fe₂O₃ = (0.1495 moles) × (159.69 g/mol) = 23.88 g

23.88 g of fe203 is formed.

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To find the molarity of 4.18 g MgCl2 in 500 mL of water, we first need to calculate the number of moles of MgCl2 present in the solution.

MgCl2 has a molar mass of 95.21 g/mol (Mg is 24.31 g/mol and Cl is 35.45 g/mol). Therefore, the number of moles of MgCl2 in 4.18 g is:

4.18 g / 95.21 g/mol = 0.04396 mol MgCl2

The solution's volume must then be changed from mL to L:

500 mL = 0.5 L

Finally, we can use the formula for molarity:

Molarity = moles of solute / volume of solution in liters

Molarity = 0.04396 mol / 0.5 L = 0.08792 M

Therefore, the molarity of 4.18 g MgCl2 in 500 mL of water is 0.08792 M.

What do you mean by molarity?

The number of moles of solute per liter of solution is known as molarity, which serves as a measurement of a solution's concentration. It is denoted by the symbol "M" and is expressed in units of moles per liter (mol/L).

Molarity is an important concept in chemistry, as it is used to measure the concentration of solutions in a variety of chemical reactions and processes. It is commonly used in stoichiometry calculations to determine the amount of reactants or products required in a chemical reaction, and is also used in titration experiments to determine the concentration of an unknown solution.

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The concentration of free copper (II) ions in equilibrium with Cu(NH₃)₂ is 5.15 x 10⁻¹⁰ M.

1. Write the half-reaction for Cu²⁺ and Cu(NH₃)₂: Cu²⁺ + 2NH₃ ⇌ Cu(NH₃)₂²⁺
2. Use the Nernst equation: E = E° - (0.05916/n) * log(Q)
3. Rearrange for [Cu²⁺]: [Cu²⁺] = 10^((E° - E) * n / 0.05916)
4. Plug in the values: E° = 0.77V, E = 0, n = 2
5. Calculate [Cu²⁺]: [Cu²⁺] = 5.15 x 10⁻¹⁰ M

The calculated value for [Cu²⁺] makes sense, as the Kf for Cu(NH₃)₂ formation is large, indicating a strong complex formation and low [Cu²⁺] concentration.

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Limiting reactant in the given condition is Carbon, Moles of CO formed is 2.40 mol and moles of H2 formed is 2.40 mol

To determine the limiting reactant, we need to compare the amount of each reactant to their stoichiometric coefficients in the balanced chemical equation. The balanced equation for the reaction between carbon and steam is:

C (s) + H2O (g) → CO (g) + H2 (g)

The stoichiometric coefficients tell us that 1 mole of carbon reacts with 1 mole of steam to produce 1 mole of carbon monoxide and 1 mole of hydrogen gas.

So, for 2.40 moles of carbon, we need 2.40 moles of steam to react completely. However, we only have 3.10 moles of steam available, which means that steam is in excess and carbon is the limiting reactant.

To find the number of moles of products formed, we use the stoichiometric coefficients. Since carbon is the limiting reactant, we can use its amount to determine the theoretical yield of products.

From the balanced equation, 1 mole of carbon produces 1 mole of CO and 1 mole of H2. Therefore, 2.40 moles of carbon will produce 2.40 moles of CO and 2.40 moles of H2.

So, the answer to the question is:
Limiting reactant: Carbon
Moles of CO formed: 2.40 mol
Moles of H2 formed: 2.40 mol

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One property that is similar between a spiderweb and a Kevlar jacket is their tensile strength.

Tensile strength is the ability of a material to resist breaking under tension or stretching.

Spider silk is known to be one of the strongest natural fibers, with a tensile strength comparable to steel. Kevlar is a synthetic polymer that is widely used in body armor, ropes, and other products that require high strength-to-weight ratios.

Kevlar has a tensile strength five times stronger than steel, making it an ideal material for applications where high strength and durability are required.

Both spider silk and Kevlar are known for their remarkable strength, and their ability to withstand tensile forces, making them highly desirable for use in a variety of applications where strength and durability are essential.

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0.0030 L - The significant figures are "3" and "0". There are two significant figures in this quantity.

0.1044 g - The significant figures are "1", "0", "4", and "4". There are four significant figures in this quantity.

53,069 mL - All digits are significant. There are five significant figures in this quantity.

0.00004715 m - In exponential notation, this is 4.715 x 10^-5 m. The significant figures are "4", "7", "1", and "5". There are four significant figures in this quantity.

57,600 s - The significant figures are "5", "7", and "6". There are three significant figures in this quantity.

0.0000007160 cm - In exponential notation, this is 7.160 x 10^-7 cm. The significant figures are "7", "1", "6", and "0". There are four significant figures in this quantity.

57600 - The significant figures are "5", "7", "6", and "0". There are three significant figures in this quantity.

Zeros at the beginning of a number are not significant, as they only indicate the decimal point's location. Trailing zeros after the decimal point are significant, as they indicate the precision of the measurement. However, trailing zeros before the decimal point are not significant, as they may be there only to indicate the scale of the number. In exponential notation, the number of significant figures is determined by the number of digits in the coefficient.

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The balanced chemical equation for the reaction of nitrogen and oxygen to produce nitrogen dioxide is:

2NO + O2 → 2NO2

According to the equation, 1 mole of nitrogen reacts with 0.5 moles of oxygen to produce 1 mole of nitrogen dioxide.

To determine the volume of nitrogen required to react with 33.6 L of oxygen, we need to convert the volume of oxygen to moles, and then use the mole ratio to find the moles of nitrogen required, and finally convert to volume of nitrogen.

Using the ideal gas law, we can convert the given volume of oxygen to moles:

n(O2) = PV/RT

where P is the pressure, V is the volume, R is the gas constant, and T is the temperature in Kelvin.

Assuming standard temperature and pressure (STP) conditions of 1 atm and 273 K, we get:

n(O2) = (1 atm) × (33.6 L) / [(0.0821 L·atm/mol·K) × (273 K)] = 1.37 moles of O2

Using the mole ratio from the balanced chemical equation, we know that 2 moles of NO react with 1 mole of O2. So the number of moles of NO required to react with 1.37 moles of O2 is:

n(NO) = 2 × (1.37 moles of O2) = 2.74 moles of NO

Finally, we can convert the moles of NO to volume using the ideal gas law:

V(NO) = n(NO)RT/P

Assuming STP conditions again, we get:

V(NO) = (2.74 mol) × (0.0821 L·atm/mol·K) × (273 K) / (1 atm) ≈ 60.4 L

Therefore, approximately 60.4 L of nitrogen would be required to react with 33.6 L of oxygen to produce nitrogen dioxide, under the given conditions.

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To solve this problem, we can use the formula:

q = m * c * ΔT

where q is the heat energy absorbed or released, m is the mass of the substance, c is the specific heat capacity of the substance, and ΔT is the change in temperature.

We know that the heat energy released by the iron is 2432 J, the specific heat capacity of iron is 0.448 J/g°C, the initial temperature of the iron is 25.0°C, and the final temperature of the iron is 87.0°C.

The mass of iron that releases 2432 J of energy as its temperature rises from 25.0°C to 87.0°C is 96.2 g.

Substituting the values in the formula, we get:

2432 J = m * 0.448 J/g°C * (87.0°C - 25.0°C)

Simplifying the equation, we get:

m = 2432 J / (0.448 J/g°C * 62.0°C)

m = 96.2 g

Therefore, the mass of iron that releases 2432 J of energy as its temperature rises from 25.0°C to 87.0°C is 96.2 g.

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When 15 g of Mg reacts with 15 g of HCl, 19.6 g of MgCl₂ and 0.208 g mass of H₂ are produced.

The molar mass of Mg is 24.31 g/mol, and the molar mass of HCl is 36.46 g/mol. To determine the number of moles of each substance, we divide the given mass by its molar mass:

moles of Mg = 15 g ÷ 24.31 g/mol = 0.618 mol

moles of HCl = 15 g ÷ 36.46 g/mol = 0.411 mol

Determine the limiting reactant in the reaction by comparing the number of moles of each reactant:

Mg: 0.618 mol

HCl: 0.411 mol × (1 mol Mg ÷ 2 mol HCl) = 0.206 mol

Since HCl is the limiting reactant, it will be completely consumed in the reaction. The amount of MgCl₂ produced can be calculated as:

moles of MgCl₂ = moles of HCl = 0.206 mol

mass of MgCl₂ = moles of MgCl₂ × molar mass of MgCl₂

mass of MgCl₂ = 0.206 mol × 95.21 g/mol = 19.6 g

Similarly, the amount of H₂ produced can be calculated as:

moles of H₂ = moles of HCl × (1 mol H₂ ÷ 2 mol HCl)

moles of H₂ = 0.206 mol × (1 mol H₂ ÷ 2 mol HCl) = 0.103 mol

mass of H₂ = moles of H₂ × molar mass of H₂

mass of H₂ = 0.103 mol × 2.02 g/mol = 0.208 g

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The temperature of the gas at standard pressure is 219.02 °C.

Gay-Lussac's law states that the pressure exerted by a given quantity of gas varies directly with the absolute temperature of the gas.

It is expressed as;

P₁/T₁ = P₂/T₂

We know that the pressure (P1) is 499.0 mmHg at a temperature (T1) of 50.0°C. We want to find the temperature (T2) at standard pressure (P2 = 1 atm = 760 mmHg). We also know that the volume (V1) is constant, so we can write:

P₁/T₁ = P₂/T₂

Solving for T2, we get:

T2 = (P2 × T1)/P1

T2 = (760 mmHg × 323.15 K)/499.0 mmHg

T2 = 492.172 K

Converting this temperature to °C, we get:

T2 = 492.172 K - 273.15

T2 = 219.02 °C

Therefore, the temperature is 219.02 °C.

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Answer:

492.17 K (2 d.p.) = 219.02 °C (2 d.p.)

Explanation:

To find the final pressure inside the steel tank, we can use Gay-Lussac's law since the volume is constant.

[tex]\boxed{\sf \dfrac{P_1}{T_1}=\dfrac{P_2}{T_2}}[/tex]

where:

As we are solving for the final temperature, rearrange the equation to isolate T₂:

[tex]\sf T_2=\dfrac{P_2T_1}{P_1}[/tex]

Convert the initial temperature from Celsius to Kelvin by adding 273.15:

[tex]\implies \sf T_1=50+273.15=323.15\;K[/tex]

The standard pressure is 1 atm = 760 mmHg.

Therefore, the values to substitute into the equation are:

Substitute the values into the equation and solve for T₂:

[tex]\implies \sf T_2=\dfrac{760 \cdot 323.15}{499}[/tex]

[tex]\implies \sf T_2=\dfrac{245594}{499}[/tex]

[tex]\implies \sf T_2=492.172344689...[/tex]

[tex]\implies \sf T_2=492.17\;K\;(2\;d.p.)[/tex]

Therefore, the temperature at standard pressure for a gas with a pressure of 499.0 mmHg at 50.0 °C is 492.17 K (or 219.02 °C).

The area of one tire in contact with the road is approximately 378 square centimeters.

To solve this problem, we need to use the formula:

Pressure = Force/Area

We can rearrange this formula to solve for the area:

Area = Force/Pressure

First, we need to convert the weight of the truck from pounds to newtons, since pressure is typically measured in newtons per square meter. We can use the conversion factor 1 pound = 4.44822 newtons.

Weight of truck = 7280 pounds x 4.44822 newtons/pound
Weight of truck = 32,355.26 newtons

Now we can plug in the values for force and pressure:

Area = 32,355.26 newtons / 87.5 pounds per square centimeter

To convert pounds per square centimeter to newtons per square meter, we need to use the conversion factor 1 pound per square centimeter = 98,066.5 newtons per square meter.

Area = 32,355.26 newtons / (87.5 pounds per square centimeter x 98,066.5 newtons per square meter per pound per square centimeter)

Area = 0.0378 square meters

Finally, we can convert square meters to square centimeters by multiplying by 10,000:

Area = 0.0378 square meters x 10,000 square centimeters per square meter

Area = 378 square centimeters

Therefore, the area of one tire in contact with the road is approximately 378 square centimeters.

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Nicolaas' model is a scientific model that explains the movement of water on Earth. According to the model, the two primary factors responsible for the movement of water on Earth are evaporation and precipitation.

Evaporation occurs when water changes from a liquid to a gas state due to heat from the sun. This process results in the formation of water vapor that rises into the atmosphere. Precipitation occurs when water vapor condenses in the atmosphere and falls back to the surface as rain, snow, or hail. These two processes play a critical role in the water cycle, which is essential for the survival of life on Earth. Therefore, Nicolaas' model highlights the significance of evaporation and precipitation in the movement of water on Earth.

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Hi! The heat energy will flow from the 98.5°C metal bolt to the 23.1°C water in the calorimeter.

This is because heat always flows from a higher temperature object to a lower temperature object until thermal equilibrium is reached.

This principle is known as the second law of thermodynamics or the law of heat transfer. It describes the natural tendency for heat to move from regions of higher temperature to regions of lower temperature.

Heat transfer occurs through three main mechanisms: conduction, convection, and radiation.

In the given scenario, conduction is the primary mechanism of heat transfer. When the hot metal bolt comes into contact with the water in the calorimeter, the thermal energy from the bolt is transferred to the water molecules in direct contact with it.

The water molecules gain kinetic energy and begin to vibrate more rapidly, thereby increasing their temperature. As a result, the metal bolt loses thermal energy, and its temperature decreases.

This transfer of heat will continue until the metal bolt and water reach thermal equilibrium, where both objects have the same temperature. At this point, the heat flow between them will cease, as there is no longer a temperature difference to drive the transfer of thermal energy.

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Answer:

1,2million or meter

Explanation:

or 1 million until 7m

The percent yield for the reaction of 1.23 g of aluminum with excess sulfuric acid to produce 3.00 g of aluminum sulfate is 38.46%.

To find the percent yield for the reaction of aluminum with sulfuric acid to produce aluminum sulfate, you need to follow these steps:

1. Write the balanced chemical equation for the reaction:
2 Al + 3 H₂SO₄ → Al₂(SO₄)₃ + 3 H₂

2. Calculate the molar mass of aluminum (Al) and aluminum sulfate (Al₂(SO₄)₃):
Al: 26.98 g/mol
Al₂(SO₄)₃: (2 × 26.98) + (3 × [4 × 16.00 + 32.07]) = 53.96 + 342.15 = 342.15 g/mol

3. Determine the moles of aluminum used in the reaction:
moles of Al = mass of Al / molar mass of Al = 1.23 g / 26.98 g/mol = 0.0456 mol

4. Calculate the theoretical yield of aluminum sulfate based on the moles of aluminum:
moles of Al₂(SO₄)₃ = 0.0456 mol Al × (1 mol Al₂(SO₄)₃ / 2 mol Al) = 0.0228 mol Al₂(SO₄)₃
mass of Al₂(SO₄)₃ = moles of Al₂(SO₄)₃ × molar mass of Al₂(SO₄)₃ = 0.0228 mol × 342.15 g/mol = 7.80 g (theoretical yield)

5. Calculate the percent yield:
percent yield = (actual yield / theoretical yield) × 100% = (3.00 g / 7.80 g) × 100% = 38.46%

So, the percent yield for the reaction of 1.23 g of aluminum with excess sulfuric acid to produce 3.00 g of aluminum sulfate is 38.46%.

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At STP, 27.8 liters of H2O gas are produced when 7.25 liters of C3H8 are burned .

When 7.25 liters of C3H8 are burned at STP, according to the balanced chemical equation, 4 moles of H2O gas are produced for every 1 mole of C3H8.

First, we need to determine the number of moles of C3H8 in 7.25 liters. We can use the ideal gas law:

PV = nRT

Where P = pressure (STP = 1 atm), V = volume (7.25 L), n = number of moles, R = gas constant (0.0821 L atm/mol K), and T = temperature (STP = 273 K).

Solving for n:

n = PV/RT
n = (1 atm)(7.25 L)/(0.0821 L atm/mol K)(273 K)
n = 0.296 moles

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

1 mole C3H8 : 4 moles H2O

0.296 moles C3H8 x (4 moles H2O/1 mole C3H8) = 1.184 moles H2O

Finally, we can convert moles of H2O to liters of gas at STP using the same ideal gas law:

n = PV/RT

V = nRT/P
V = (1.184 mol)(0.0821 L atm/mol K)(273 K)/(1 atm)
V = 27.8 L

Therefore, 27.8 liters of H2O gas are produced when 7.25 liters of C3H8 are burned at STP.

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To calculate the amount of heat required to change 50 g of mercury into vapor at its boiling point, we need to use the following formula:

Q = m * H_vap

where Q is the amount of heat required, m is the mass of the substance, and H_vap is the heat of vaporization.

We are given that the heat of vaporization of mercury is 296 kJ/kg. To use this value, we need to convert the mass of mercury to kilograms:

m = 50 g = 0.05 kg

Now we can use the formula to calculate the amount of heat required:

Q = 0.05 kg * 296 kJ/kg = 14.8 kJ

Therefore, 14.8 kJ of heat needs to be provided to change 50 g of mercury into vapor at its boiling point.

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If the vascular plants never developed, the Earth would be drastically different. Vascular plants are responsible for much of the oxygen production on our planet, so the atmosphere would contain significantly less oxygen. Additionally, without the root systems of vascular plants, soil erosion would be much more prevalent and the landscape would likely be more barren.

The evolution of many animals, including insects and birds, would have been impacted as well, as many of these species rely on vascular plants for food and shelter. Overall, the absence of vascular plants would have a profound effect on the ecology and biodiversity of our planet.

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Tectonic events can impact the flow of radiant energy in various ways. One of the primary ways is through the formation of mountains and the alteration of landforms.

When tectonic plates collide and push against each other, they can form mountains, which can affect the flow of radiant energy. Mountains can block or redirect the flow of wind, which in turn can affect the amount of solar radiation that reaches the earth's surface.

They can also create changes in atmospheric pressure and temperature that impact the movement of air masses, which can affect the flow of radiant energy.

Tectonic events can also impact the flow of radiant energy by altering the composition of the atmosphere.

For example, volcanic eruptions can release large amounts of sulfur dioxide and other particles into the atmosphere, which can reflect and scatter incoming solar radiation, leading to cooling of the earth's surface.

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To solve for the specific heat capacity of aluminum, we can use the formula:
q = m × c × ΔT, Where q is the heat transferred, m is the mass, c is the specific heat capacity, and ΔT is the change in temperature.

First, we need to calculate the heat transferred from the aluminum to the water:

q = mAl × cAl × ΔTAl
q = (3.90 g) × cAl × (28.6°C - 99.3°C)
q = -978 J

Note that we get a negative value for q because heat is transferred from the aluminum to the water, so the aluminum loses heat.

Next, we can calculate the heat gained by the water:

q = mwater × cwater × ΔTwater

q = (10.0 g) × cw × (28.6°C - 22.6°C)
q = 240 J

Setting these two equations equal to each other, we can solve for the specific heat capacity of aluminum:

mAl × cAl × ΔTAl = mwater × cwater × ΔTwater
cAl = (mwater × cw × ΔTwater) / (mAl × ΔTAl)
cAl = (10.0 g) × (4.184 J/g·°C) × (28.6°C - 22.6°C) / [(3.90 g) × (99.3°C - 28.6°C)]
cAl = 0.900 J/g·°C

Therefore, the specific heat capacity of aluminum is 0.900 J/g·°C.

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