What is the pH of a solution where [OH⁻]=0. 00030M

Answers

Answer 1

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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Related Questions

A balloon has a volume of 3. 7 Lat a pressure of 1. 1 atm and a temperature of 30 °C. If


the balloon is submerged in water to a depth where the pressure is 4. 7 atm and the


temperature is 15 °C, what will its volume be in L?

Answers

When the balloon is submerged in water at a depth where the pressure is 4.7 atm and the temperature is 15 °C, its volume will be approximately 0.995 L.

From the ideal gas equation, we can use the combined gas law formula, which is:

(P1 × V1) / T1 = (P2 × V2) / T2

Here, P1 = 1.1 atm (initial pressure), V1 = 3.7 L (initial volume), T1 = 30 °C (initial temperature), P2 = 4.7 atm (final pressure), and T2 = 15 °C (final temperature). We need to find V2 (final volume).

First, convert the temperatures to Kelvin by adding 273.15:

T1 = 30 + 273.15 = 303.15 K

T2 = 15 + 273.15 = 288.15 K

Now, plug in the values into the combined gas law formula and solve for V2:

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

(1.1 × 3.7) / 303.15 = (4.7 × V2) / 288.15

    (4.07) / 303.15 = (4.7 × V2) / 288.15

Now, solve for V2:

V2 = (4.07 × 288.15) / (303.15 × 4.7)

V2 ≈ 0.995 L

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If you apply 1,200 Newtons of force to an object and move it 8 meters, how much work do you do on the object?

Answers

To calculate the work done on an object, we use the formula:

Work = Force × Distance × cos(theta)

where "Force" is the magnitude of the force applied, "Distance" is the distance over which the force is applied, and "theta" is the angle between the force and the direction of motion.

In this case, the force is 1,200 Newtons, the distance is 8 meters, and we'll assume the angle between the force and direction of motion is 0 degrees (meaning the force is applied in the same direction as the object is moving). Therefore:

Work = 1,200 N × 8 m × cos(0°)

Work = 9,600 J

So, you do 9,600 joules of work on the object.

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can someone check these answers for me and give the right answer? (explanation would be super helpful but not required) studying for a chem test

Answers

Based on the properties of elements, the correct options for the reactivity and composition of elements and compounds are:

B)A) C)C)B)B)D)D)

What are reactive elements?

Reactive elements are elements that readily react with other elements by gaining or losing electrons.

Reactive elements may be metals such as alkali metals and alkaline earth metals or they may be non-metals such as halogens.

Considering the given questions about the properties of elements, the correct options are:

B) Noble gases are the least reactive group of elements.A) CO is a molecule made up of the elements carbon and oxygen.C) Mg, Ca, and Sr belong to the alkaline earth metal family.C) elements in the periodic table are arranged according to their atomic number.B) the atomic number tells us the number of protons in an atom.B) an electron carries a negative charge and is very small compared to the proton.D) the identity of an element is determined by the number of protons in its atom.D) the outermost electron orbits of noble gases have the maximum number of electrons.False. In a neutral atom, the number of electrons always equals the number of protons.False. In a physical change, no new substance is produced.True. Burning is an example of a chemical change.False. Non-metals are not lustrous, ductile, or malleable.True. Compounds are made up of two or more elements.True. Compounds cannot be broken down into simpler substances by physical means.True. To determine the number of neutrons, subtract the atomic number from the mass number.False. In Bohr's atomic model, the first electron orbit holds a maximum of 2 electrons.True. In the alkali metal family, the elements lower in the column are more reactive.True. Hydrogen, oxygen, and nitrogen are examples of non-metals.True. A gas that can re-ignite a glowing splint is oxygen.A change of state is a physical change.A change of color is evidence of a chemical change.Corrosion is a reaction between a metal and oxygen.

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The nitric acid solution used in a lab had a hydronium ion concentration of 0.53 M.
a. Calculate the pH of the solution
b. Calculate the pOH of the solution.
c. Calculate the hydroxide ion concentration.

Answers

(a) The pH of the nitric acid solution is approximately 0.28.

(b) The pOH of the nitric acid solution is approximately 13.72

(c) The hydroxide ion concentration of the nitric acid solution is approximately 1.89 x 10^-14 M.

What is the pH of the solution?

a. To calculate the pH of the solution, we can use the formula:

pH = -log[H3O+]

where;

[H3O+] is the hydronium ion concentration.

Substituting the given value:

pH = -log(0.53) ≈ 0.28

b. The pOH of the solution can be calculated using the formula:

pOH = -log[OH-]

where;

[OH-] is the hydroxide ion concentration.

To find the pOH, we need to first calculate the [OH-]. We know that:

Kw = [H3O+][OH-] = 1.0 x 10^-14

where;

Kw is the ion product constant for water.

Rearranging the equation, we can solve for [OH-]:

[OH-] = Kw / [H3O+]

[OH-] = 1.0 x 10^-14 / 0.53

[OH-] ≈ 1.89 x 10^-14

Now, we can calculate the pOH:

pOH = -log(1.89 x 10^-14) ≈ 13.72

c. We can use the [OH-] concentration calculated in part (b) to find the hydroxide ion concentration:

[OH-] = 1.89 x 10^-14

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1. Which alkyl bromide reacts fastest with sodium iodide in acetone: 1-bromobutane or neopentyl bromide? Explain the difference in reactivity even though both of these are primary alkyl bromides.
2. Which alkyl halide reacted fastest with sodium iodide in acetone: allyl bromide or allyl chloride? 1-bromobutane or 1-chlorobutane? Explain how the nature of the leaving group affects the rate in the SN2 reaction.

Answers

1. Neopentyl bromide will react more slowly than 1-bromobutane with sodium iodide in acetone. The difference in reactivity is due to steric hindrance. Neopentyl bromide is a primary alkyl bromide with three bulky methyl groups attached to the primary carbon, which creates significant steric hindrance.

2. Allyl bromide will react faster than allyl chloride, and 1-bromobutane will react faster than 1-chlorobutane with sodium iodide in acetone. The nature of the leaving group affects the rate of the SN2 reaction.

1. Neopentyl bromide will react more slowly than 1-bromobutane with sodium iodide in acetone. The difference in reactivity is due to steric hindrance. Neopentyl bromide is a primary alkyl bromide with three bulky methyl groups attached to the primary carbon, which creates significant steric hindrance. InIn contrast, 1-bromobutane only has one methyl group attached to the primary carbon. In the SN2 reaction, the nucleophile approaches the primary carbon from the backside and displaces the leaving group. The bulky methyl groups in neopentyl bromide create a greater steric hindrance, making it more difficult for the nucleophile to approach the primary carbon from the backside and displace the leaving group. This results in a slower reaction rate compared to 1-bromobutane.

2. Allyl bromide will react faster than allyl chloride, and 1-bromobutane will react faster than 1-chlorobutane with sodium iodide in acetone. The nature of the leaving group affects the rate of the SN2 reaction. In general, a good leaving group is one that can stabilize the negative charge that is formed when it departs. Halogens are good leaving groups because they can stabilize the negative charge through resonance. However, chlorine is a weaker leaving group than bromine because it is larger and has a weaker bond to the carbon. Therefore, it is more difficult to displace the leaving group in allyl chloride and 1-chlorobutane than in allyl bromide and 1-bromobutane, leading to slower reaction rates. Overall, the order of reactivity in SN2 reactions is typically: primary > secondary > tertiary, and iodide > bromide > chloride as nucleophiles, and chloride < bromide < iodide as leaving groups.
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At high altitudes, pressure decreases to 0. 5 atm. Non-smokers can breathe 7. 2L of air per minute. How many liters of air can they breathe at sea level? (1 atm)

Answers

Non-smokers can breathe 3.6 liters of air per minute at sea level (1 atm).

At high altitudes, pressure decreases to 0.5 atm. Non-smokers can breathe 7.2L of air per minute. How many liters of air can they breathe at sea level? (1 atm)

To answer this question, we will use the Boyle's Law, which states that the product of pressure (P) and volume (V) is constant for a given amount of gas at a constant temperature. In this case, we have two different pressure conditions: high altitudes (0.5 atm) and sea level (1 atm).

We are given the volume of air breathed at high altitudes (7.2L) and asked to find the volume at sea level.

Step 1: Write down the given information:
P1 = 0.5 atm (pressure at high altitudes)
V1 = 7.2L (volume of air breathed at high altitudes)
P2 = 1 atm (pressure at sea level)
V2 = ? (volume of air breathed at sea level; this is what we need to find)

Step 2: Apply Boyle's Law:
P1 × V1 = P2 × V2

Step 3: Plug in the given values and solve for V2:
(0.5 atm) × (7.2L) = (1 atm) × V2

Step 4: Solve for V2:
V2 = (0.5 × 7.2) / 1
V2 = 3.6L

So, non-smokers can breathe 3.6 liters of air per minute at sea level (1 atm).

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A 4. 0g sample of glass was heated from 5ᵒC to 45ᵒC after absorbing 32 J of heat. What is the specific heat of the glass?

Answers

The specific heat of the glass is 0.20 J/g°C.

To calculate the specific heat of the glass, we can use the formula:

q = m * c * ΔT

where q is the heat absorbed, m is the mass of the glass, c is the specific heat, and ΔT is the change in temperature.

In this case, we know that the glass absorbed 32 J of heat, has a mass of 4.0g, and the temperature changed from 5ᵒC to 45ᵒC. So, we can plug in these values:

32 J = 4.0g * c * (45ᵒC - 5ᵒC)

Simplifying the equation, we get:

c = 32 J / (4.0g * 40ᵒC)

c = 0.20 J/g°C

Therefore, the specific heat of the glass is 0.20 J/g°C.

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A 0. 225L solution of H2CO3 is neutralized by 0. 0880L of a 1. 22 M Fe(OH)3 solution. What is the concentration of the H2CO3 solution?

Answers

The concentration of the H₂CO₃ solution is 0.162 M.

To solve this problem, we can use the balanced chemical equation for the neutralization reaction between H₂CO₃ and Fe(OH)₃:

2 Fe(OH)₃ + 3 H₂CO₃ → Fe₂(CO₃)+ 6 H₂O

From the balanced equation, we can see that the mole ratio between Fe(OH)3 and H₂CO₃ is 2:3. We can use this information along with the volume and concentration of the Fe(OH)₃ solution to calculate the number of moles of H₂CO₃:

Moles of Fe(OH)₃  = volume x concentration = 0.0880 L x 1.22 M = 0.10776 moles

Moles of H₂CO₃= (2/3) x moles of Fe(OH)₃ = (2/3) x 0.10776 moles = 0.07184 moles

Now, we can calculate the concentration of the H₂CO₃ solution using the volume of the solution provided: concentration = moles / volume = 0.07184 moles / 0.225 L = 0.162 M

Therefore, the molarity of the H₂CO₃ solution has been determined to be 0.162 M.

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If your end product is 200. 0 g KMnO4 how much KOH did you start with?

Answers

Both Scientist A and Scientist B achieved same yield of KMnO₄, indicating they obtained the maximum possible amount based on the starting materials and reaction conditions. The percent yield for Scientist A is approximately 100% and for Scientist B, it is also approximately 100%

To solve these problems, let's go step by step:

1. If the end product is 1.5 moles of KMnO₄, according to the balanced chemical equation:

2 MnO₂ + 4 KOH + O₂ -> 2 KMnO₄ + 2 KOH + H₂

We can see that the stoichiometric ratio between KMnO₄ and MnO₂ is 2:2. Therefore, the number of moles of MnO₂ used in the reaction would be 1.5 moles.

2. To determine how much KOH was used when the end product is 200.0 g of KMnO₄:

Again, using the balanced chemical equation, we can see that the stoichiometric ratio between KMnO₄ and KOH is 2:4. Therefore, the number of moles of KOH used would be twice the number of moles of KMnO₄.

Given that the molar mass of KMnO₄ is approximately 158.034 g/mol, we can calculate the number of moles of KMnO₄:

moles of KMnO₄ = mass of KMnO₄ / molar mass of KMnO₄

moles of KMnO₄ = 200.0 g / 158.034 g/mol

moles of KMnO₄ ≈ 1.265 mol

Since the stoichiometric ratio is 2:4, the number of moles of KOH would be twice that:

moles of KOH = 2 * moles of KMnO₄

moles of KOH = 2 * 1.265 mol

moles of KOH ≈ 2.53 mol

3. To determine the theoretical yield of potassium permanganate when starting with 500 g of MnO₂:

Again, using the balanced chemical equation, we can see that the stoichiometric ratio between MnO₂ and KMnO₄ is 2:2. Therefore, the molar ratio is 1:1.

Given that the molar mass of MnO₂ is approximately 86.9375 g/mol, we can calculate the number of moles of MnO₂:

moles of MnO₂ = mass of MnO₂ / molar mass of MnO₂

moles of MnO₂ = 500 g / 86.9375 g/mol

moles of MnO₂ ≈ 5.75 mol

Since the stoichiometric ratio is 1:1, the theoretical yield of KMnO₄ would be equal to the number of moles of MnO₂:

Theoretical yield of KMnO₄ = moles of MnO₂

Theoretical yield of KMnO₄ ≈ 5.75 mol

4. To calculate the percent yield for Scientist A and Scientist B, we need the actual yields of KMnO₄ produced by each scientist. Let's assume Scientist A produces 83.67 g of KMnO₄ and Scientist B produces 81.35 g of KMnO₄.

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

Percent yield for Scientist A = (83.67 g / (2 * 83.67 g)) * 100 ≈ 100%

Percent yield for Scientist B = (81.35 g / (2 * 81.35 g)) * 100 ≈ 100%

5. Both Scientist A and Scientist B achieved 100% yield, indicating that they obtained the maximum possible amount of KMnO₄ based on the starting amount

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Complete question :

If your end product is 1.5 moles of KMnO4. how many moles of manganese oxide were used in the reaction? The equation for the production of potassium permanganate is as follows: 2 MnO2+ 4 KOH + O2- 2 KMnO4 + 2 KOH + H2 You must show all work to receive full credit If your end product is 200.0 g KMnO4 how much KOH did you start with? The equation for the production of potassium permanganate is as follows: 2 MnO2+ 4 KOH + O2+ 2 KMnO4 + 2 KOH + H2 You must show all work to receive full credit. A company manufacturing KMnO, wants to obtain the highest yield possible Two of their research scientists are working on a technique to increase the yield Both scientists started with 500 g of manganese oxide What is the theoretical yield of potassium permanganate when starting with 500 g MnO2? The equation for the production of potassium permanganate is as follows 2 MnO2+ 4 KOH + 02 - 2 KMnO, +2 KOH + H2 You must show all work to receive tul credit Scientist A produces 83.67 g KMnO4 while Scientist B produces 81.35 g KMnO4 What is the percent yield for Scientist A? What is the percent yield for Scientist B? You must show all work to receive full credit. The equation for the production of potassium permanganate is as follows: 2 MnO2+ 4 KOH + O2-2 KMnO4+2 KOH + H2 of the two scientists' results, whose would you present to the boss as an example of the product your company manufacturers? Justify your answer with evidence and scientific reasoning BIETE

Calculate the poh of a 3.14x10-5 m hisolution.

poh = (round to 2 decimal places)

Answers

The pOH of the 3.14x10^-5 M solution is approximately 9.50 (rounded to 2 decimal places).

To calculate the pOH of a 3.14x10^-5 M solution, first find the pH using the formula:

pH = -log10[H+]

Where [H+] represents the concentration of hydrogen ions in the solution. In this case, the concentration is 3.14x10^-5 M. Then, calculate the pOH using the relationship between pH and pOH:

pH + pOH = 14

First, find the pH:

pH = -log10(3.14x10^-5) ≈ 4.50

Now, calculate the pOH:

pOH = 14 - pH = 14 - 4.50 ≈ 9.50

So, the pOH of the 3.14x10^-5 M solution is approximately 9.50 (rounded to 2 decimal places).

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A mixture contains 1. 00kg of aluminium and 3. 00 kg of iron oxide. The equation for the reaction is 2Al+Fe2O3 =2Fe +Al2o3 Show that aluminium is a limiting reactant Relative atomic masses:O=16 Al=27 Fe=56​

Answers

The maximum amount of Al₂O₃ that can be produced in this reaction is 1.00 kg, which confirms that aluminium is the limiting reactant.

To determine if aluminium is the limiting reactant in this reaction, we need to first calculate the theoretical yield of the reaction using both reactants.

From the balanced equation, we can see that for every 2 moles of aluminium, we need 1 mole of iron oxide.

1.00 kg of aluminium has a mass of 1000 g / 27 g/mol = 37.04 moles.

3.00 kg of iron oxide has a mass of 3000 g / (2 x 56 g/mol + 3 x 16 g/mol) = 13.39 moles.

Since we need half as many moles of iron oxide as aluminium for the reaction, the aluminium is the limiting reactant.

To calculate the theoretical yield of the reaction, we need to use the amount of aluminium as the limiting factor.

Since the balanced equation shows that 2 moles of aluminium react to produce 1 mole of Al₂O₃, we can calculate the theoretical yield of Al₂O₃ as:

37.04 moles Al x (1 mol Al₂O₃ / 2 mol Al) x (2 x 27 g/mol Al₂O₃) = 999.5 g or 1.00 kg (rounded to two significant figures).

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Potassium superoxide (ko2, 71.10 g/mol) can be used to generate oxygen gas. what mass of o2 (32.00 g/mol) can be formed if 500.0 g ko2 reacts with excess h2o? (write the answer to one decimal place)


225.0 g

168.8 g

675.1 g

375.0 g

56.26 g

Answers

When 500 gm of KO2 reacts with excess H2O, 112.6 gm of O2 can be formed.

In order to determine the mass of O2 formed from the reaction of KO2 with excess H2O, we'll need to use stoichiometry. First, let's write down the balanced chemical equation:

2 KO2 + 2 H2O → 2 KOH + H2O2 + O2

Now, let's follow these steps:
1. Convert the given mass of KO2 (500.0 g) to moles using its molar mass (71.10 g/mol):
  (500.0 g KO2) × (1 mol KO2 / 71.10 g KO2) = 7.03 mol KO2


2. From the balanced equation, we can see that 2 moles of KO2 produce 1 mole of O2. So, we'll convert the moles of KO2 to moles of O2:
  (7.03 mol KO2) × (1 mol O2 / 2 mol KO2) = 3.52 mol O2


3. Convert the moles of O2 to mass using its molar mass (32.00 g/mol):
  (3.52 mol O2) × (32.00 g O2 / 1 mol O2) = 112.6 g O2

Therefore, when 500.0 g of KO2 reacts with excess H2O, 112.6 g of O2 can be formed.

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Question 25 of 25
what is indicated by the prefixes cis-and trans-?
a. the size of the molecule
b. the location of the methyl group
c. the type of stereoisomer
d. the type of alkane

Answers

The prefixes cis- and trans- are used to describe stereoisomers, which are molecules that have the same molecular formula and connectivity but differ in their spatial arrangement. The correct answer is option c.

Specifically, they are used to describe molecules that have a carbon-carbon double bond or a ring structure.

Cis- and trans- indicate the type of stereoisomer, specifically geometric isomers. Cis- is used to describe molecules in which the two groups attached to the carbons of the double bond are on the same side, while trans- is used to describe molecules in which the two groups are on opposite sides of the double bond.

For example, in the molecule [tex]2-butene[/tex], there are two possible arrangements of the methyl ([tex]CH3[/tex]) and hydrogen (H) groups around the carbon-carbon double bond. If the two methyl groups are on the same side of the double bond, the molecule is called [tex]cis-2-butene[/tex]. If the two methyl groups are on opposite sides of the double bond, the molecule is called [tex]trans-2-butene[/tex].

The correct answer is option c.

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ENDOTHERMIC


During this chemical reaction energy is absorbed. In the chemistry lab, this would be indicated by a decrease in temperature or if the reaction took place in a test tube, the test tube would feel colder to the touch. Reactions like this one absorb energy because


The reactants have less potential energy than the products

Answers

Reactions like this one absorb energy because the reactants have more potential energy than the products, option C is correct.

In exothermic reactions, the products have less potential energy than the reactants. The difference in potential energy between the reactants and products is the energy released during the reaction. This energy is usually released in the form of heat, which causes an increase in temperature.

The reaction releases energy because the products are more stable than the reactants, which means that less energy is required to maintain their chemical bonds. This extra energy is released during the reaction, resulting in a net release of energy, option C is correct.

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The complete question is:

During this chemical reaction energy is released. In the chemistry lab, this would be indicated by an increase in temperature or, if the reaction took place in a test tube, the test tube would feel warmer to the touch. Reactions like this one absorb energy because

A) the reaction requires activation energy.

B) the reactants have less potential energy than the products.

C) the reactants have more potential energy than the products.

D) the mass of the products is greater than the mass of the reactants.

How many moles of aluminum are required to completely react with 107 ml of 6. 00 m h₂so₄ according to the balanced chemical reaction: 2 al(s) 3 h₂so₄(aq) → al₂(so₄)₃(aq) 3 h₂(g)

Answers

Number of moles required to completely react with 107mL of 6.00 M H₂SO₄ is 0.428.

To determine the number of moles of aluminum (Al) needed to completely react with 107 mL of 6.00 M H₂SO₄, we first need to find the moles of H₂SO₄ in the given volume. Use the molarity formula:

moles = molarity × volume (in liters)

moles of H₂SO₄ = 6.00 M × (107 mL × 1 L / 1000 mL) = 0.642 moles H₂SO₄

Now, use the stoichiometry from the balanced chemical equation:

2 moles Al react with 3 moles H₂SO₄

To find moles of Al needed, set up a proportion:

(2 moles Al / 3 moles H₂SO₄) = (x moles Al / 0.642 moles H₂SO₄)

Solve for x:

x moles Al = (2 moles Al / 3 moles H₂SO₄) × 0.642 moles H₂SO₄ = 0.428 moles Al

So, 0.428 moles of aluminum are required to completely react with 107 mL of 6.00 M H₂SO₄.

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What set of coefficients will balance the chemical equation below:


___NH3 (g) + ___O2 (g) ___H2O (l) + ___NO (g)


What set of coefficients will balance the chemical equation below:

___NH3 (g) + ___O2 (g) ___H2O (l) + ___NO (g)

A. 4,5,6,4

B. 2,3,1,1

C. 1,3,3,1

D. 4,3,1,4

Answers

A. 4,5,6,4 set of coefficients will balance the chemical equation below

4NH3 (g) + 5O2 (g) 6H2O (l) + 4NO (g)

What are the balancing coefficients?

The coefficients necessary to balance a chemical equation are known as stoichiometric coefficients. These are crucial as they link the quantities of reactants consumed and the products produced. Because they are used to determine the equilibrium constants, the coefficients have a connection to them.

The coefficients, which may be modified to make the equation balanced, show how many of each substance is present during the reaction.

Given the amount of bonds each has, it makes reasonable that H2O has a bond order of 2, whereas NH3 has a bond order of 3.

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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

Answers

The percent yield for the given reaction is 85.29%.

The percent yield for this reaction can be calculated using the formula:

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

The theoretical yield can be calculated based on the stoichiometry of the reaction. From the equation given, we know that 1 mole of (E)-stilbene reacts with 1 mole of pyridinium bromide perbromide to produce 1 mole of meso-stilbene dibromide.

First, let's calculate the number of moles of (E)-stilbene:

213 mg (E)-stilbene x 1 g/1000 mg x 1 mol/180.25 g = 0.00118 mol (E)-stilbene

Next, let's calculate the number of moles of pyridinium bromide perbromide:

435 mg pyridinium bromide perbromide x 1 g/1000 mg x 1 mol/319.82 g = 0.00136 mol pyridinium bromide perbromide

Since the stoichiometry is 1:1, the number of moles of meso-stilbene dibromide produced is also 0.00118 mol.

Finally, let's calculate the theoretical yield in grams:

theoretical yield = 0.00118 mol x 340.05 g/mol = 0.401 g

Now we can calculate the percent yield:

percent yield = (0.342 mg / 0.401 g) x 100 = 85.29%

Therefore, the percent yield for this reaction is 85.29%.

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24. 51 mL of acetic acid, HC2H3O2, of unknown concentration was titrated with the 12. 6 mL of 0. 497 M Ba(OH)2 to reach the equivalence point. Determine the concentration of the acetic acid. 2HC2H3O2 + Ba(OH)2 â Ba(C2H3O2)2 + 2H2O



A. 0. 223 M


B. 0. 836 M


C. 0. 359 M


D. 0. 511 M


E. 0. 979 M

Answers

The concentration of acetic acid is 0.246 M, option A is correct.

The balanced chemical equation for the reaction is:

2HC₂H₃O₂ + Ba(OH)₂ → Ba(C₂H₃O₂)₂ + 2H₂O

According to the equation, one mole of barium hydroxide and two moles of acetic acid react.

The number of moles of Ba(OH)₂ used in the reaction is:

0.497 mol/L × 0.0126 L = 0.00628 mol

Since the reaction is a 1:2 ratio, the number of moles of acetic acid is:

0.00628 mol × 2 = 0.01256 mol

The volume of acetic acid used in the reaction is 51 mL or 0.051 L.

The concentration of acetic acid can be calculated as follows:

concentration = number of moles ÷ volume

concentration = 0.01256 mol ÷ 0.051 L

concentration = 0.246 M

Hence, option A is correct.

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The complete question is:

24. 51 mL of acetic acid, HC₂H₃O₂, of unknown concentration was titrated with the 12. 6 mL of 0. 497 M Ba(OH)₂ to reach the equivalence point. Determine the concentration of the acetic acid. 2HC₂H₃O₂ + Ba(OH)₂ → Ba(C₂H₃O₂)₂ + 2H₂O

A. 0.246 M

B. 0.836 M

C. 0.359 M

D. 0.511 M

E. 0.979 M

Describe how you might use a titration to figure out the concentration of potassium hydroxide in a water sample. Be as descriptive as possible. Discuss the concepts and what the laboratory setup/investigation will look like

Answers

We can use titration to figure out the concentration of potassium hydroxide in a water sample and the laboratory setup/investigation will dry Erlenmeyer flask and other equipment.

To determine the concentration of potassium hydroxide (KOH) in a water sample, we can use an acid-base titration with a known concentration of a strong acid, such as hydrochloric acid (HCl).

The laboratory setup for this titration would involve:

Measuring a precise volume of the water sample containing the KOH and transferring it to a clean and dry Erlenmeyer flask. Adding a few drops of a suitable indicator, such as phenolphthalein, to the Erlenmeyer flask.

Filling a burette with the HCl solution of known concentration. Titrating the HCl solution into the Erlenmeyer flask containing the water sample, slowly and carefully swirling the flask until the indicator changes color. Recording the volume of HCl solution added at the point of color change. The concepts behind this titration involve the neutralization of KOH by HCl:

KOH + HCl → KCl + H2O

The endpoint of the titration occurs when all of the KOH has been neutralized by the HCl, leaving only HCl and KCl in the solution. At this point, the indicator changes color, signaling that the titration is complete.

From the volume and concentration of the HCl solution used in the titration, we can calculate the moles of HCl added. Since the stoichiometry of the reaction is 1:1, the moles of HCl added is equal to the moles of KOH in the water sample.

Finally, we can use the volume and moles of KOH to calculate the concentration of KOH in the water sample, expressed in units of molarity (M).

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Find the hydroxide ion concentration [oh-] of an hcl solution with a ph of 5.71.

[oh-]= m (use 2 decimal places)

Answers

The hydroxide ion concentration [OH⁻] of an HCl solution with a pH of 5.71 is 4.81 x 10^-9 M.

To find the hydroxide ion concentration [OH⁻] of an HCl solution with a pH of 5.71, we need to use the equation:

pH = -log[H⁺]

First, we need to solve for the [H⁺] concentration:

[H⁺] = 10^-pH

[H⁺] = 10^-5.71

[H⁺] = 2.08 x 10^-6 M

Since HCl is a strong acid and completely dissociates in water, the [H⁺] concentration is also the [Cl⁻] concentration.

Now, we can use the equation for the ion product constant of water:

Kw = [H⁺][OH⁻]

At 25°C, Kw = 1.0 x 10^-14.

We can rearrange the equation to solve for [OH⁻]:

[OH⁻] = Kw/[H⁺]

[OH⁻] = (1.0 x 10^-14)/(2.08 x 10^-6)

[OH⁻] = 4.81 x 10^-9 M

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The half life period of a radioactive element is 20. 0 weeks. After 80. 0


weeks, one gram of the element will reduce to


a 0. 0895 g


b 0. 0925 g


с 0,0625 g


d 0. 0325 g

Answers

The remaining amount of the radioactive element, after 80.0 weeks with a half-life of 20.0 weeks, is 0.0625 grams. Thus, the correct answer is с) 0.0625 g.

To solve the problem, we need to calculate the remaining amount of the radioactive element after 80.0 weeks, given a half-life of 20.0 weeks.

We can use the formula: [tex]\text{Remaining amount} = \text{Initial amount} \times \left(\frac{1}{2}\right)^{\frac{\text{time elapsed}}{\text{half-life}}}[/tex]

Plugging in the values, we get:

[tex]\text{Remaining amount} = \text{Initial amount} \times \left(\frac{1}{2}\right)^{\left(\frac{80.0 \text{ weeks}}{20.0 \text{ weeks}}\right)}[/tex]

Simplifying the exponent, we have:

[tex]\text{Remaining amount} = \text{Initial amount} \times \left(\frac{1}{2}\right)^{\frac{\text{elapsed time}}{\text{half-life}}}[/tex]

Calculating[tex]\left(\frac{1}{2}\right)^4[/tex], we get:

[tex]\text{Remaining amount} = 1 , \text{gram} \times \frac{1}{16}[/tex]

Therefore, the remaining amount of the element after 80.0 weeks is 1/16 gram, which is equal to (c) 0.0625 grams.

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Can anyone give me the answers of the image???

Answers

Ans 1  = 2 fe +3 cl2 = 2 fecl3

blank 1 = 2

blank 2 = 3

blank 3 = 2

Ans.2 = 4fe +3 o2 = 2fe2o3

blank 1 = 4

blank 2 = 3

blank 3 = 2

Ans.3 = c6h6o3 +H2o = 2c2h3

blank 1 = 1

blank 2 = 1

blank 3 = 2

In terms of chemical bonding, explain the difference in the rate of sugar & acid reaction to the reaction between KI(aq) and Pb(NO₃)₂(aq)

Answers

The difference in the rate of sugar and acid reaction compared to the reaction between KI(aq) and Pb(NO₃)₂(aq) is due to the type of chemical bonding involved.

The reaction between sugar and acid involves covalent bonding, which is a strong bond that requires significant energy input to break. This type of bonding is responsible for the slow rate of the sugar and acid reaction.

In contrast, the reaction between KI(aq) and Pb(NO₃)₂(aq) involves ionic bonding, which is a much weaker bond than covalent bonding. As a result, the ions in the reactants are more easily separated, leading to a faster reaction rate.

Ionic bonding involves the transfer of electrons from one atom to another, whereas covalent bonding involves the sharing of electrons between atoms. This difference in electron sharing or transfer contributes to the different reaction rates observed between covalent and ionic bond containing compounds.

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Dugongs are animals that live in the ocean and eat underwater grasses. The sun is shining on the shallow ocean water where the grasses and dugongs live. What is happening to the carbon in the water around the grasses and the dugongs? Is carbon moving into the water, moving out of the water, or both? Carbon is not moving into the water; it is only moving out of the water. With this information, there is no way to know for sure. Carbon is moving into the water and out of the water, at the same time. Carbon is only moving into the water; it is not moving out of the water

Answers

Both processes (photosynthesis and respiration) occur simultaneously, resulting in carbon moving into and out of the water around the grasses and dugongs.

Regarding the carbon in the water around the grasses and the dugongs, carbon is moving into the water and out of the water, at the same time. Here's a step-by-step explanation:

1. Photosynthesis: The underwater grasses, being plants, utilize sunlight for photosynthesis. During this process, they absorb carbon dioxide (CO₂) from the water and convert it into carbohydrates, thereby taking in carbon.

2. Respiration: Both the underwater grasses and the dugongs perform cellular respiration. In this process, they consume carbohydrates and release carbon dioxide back into the water, contributing to the movement of carbon out of the water.

So, both processes (photosynthesis and respiration) occur simultaneously, resulting in carbon moving into and out of the water around the grasses and dugongs.

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What is the atomic theory of matter?

Answers

The atomic theory of matter states that all matter, whether an element, a compound or a mixture is composed of small particles called atoms.

What is atomic theory?

The atomic theory is any of the several theories that explain the structure of the atom, and of subatomic particles.

The atomic theory of matter, first postulated by John Dalton, seeks to explain the nature of matter-the materials of which the Universe, all galaxies, solar systems and Earth are formed.

The components of the atomic theory are as follows;

All matter is made of very tiny particles called atoms.Atoms are indivisible particles, which cannot be created or destroyed in a chemical reactionAtoms of a given element are identical in mass and chemical propertiesAtoms of different elements have different masses and chemical propertiesAtoms combine in the ratio of small whole numbers to form compoundsThe relative number and kinds of atoms are constant in a given compound

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WILL OFFER BRAINLIEST



Scenario 1: The pitcher throws a fastball down the middle of the plate. The batter takes


a mighty swing and totally misses the ball. The umpire yells, "Strike one!"


Scenario 2: The pitcher throws an off-speed pitch and the batter checks his swing. The


batter just barely makes contact with the ball and it dribbles down in front of the batter's


feet into foul territory. The umpire yells, "Foul ball; strike two!"



Scenario 3: The pitcher throws a curve ball that looks like it might catch the outside


corner of the plate. The batter swings with all his strength, but the bat grazes the


underside of the ball and the ball skews off to the right, flying into the crowd. The umpire


yells, "Foul ball, still two strikes!"



Scenario 4: The pitcher throws another fastball down the middle of the plate. The batter


swings and wallops the ball high into the air and the ball clears the center field wall that


reads 410 feet. The ump yells, "Homerun!"


In which scenario did a chemical reaction occur between reactant A and B?





Question 1 options:



1




2




3




4

Answers

They are all describing events that can occur in a baseball game, where a pitcher is throwing a ball to a batter and an umpire is calling the result of the play.

None of the scenarios involve a chemical reaction between reactant A and B. They all describe events in a baseball game. A chemical reaction involves a change in the chemical composition of one or more substances, resulting in the formation of new substances with different properties. In the scenarios described, there is no mention of any substances undergoing a chemical change, so no chemical reaction is occurring.

In all the scenarios described, there is no indication of any chemical reaction occurring between any reactants. All the scenarios are related to the sport of baseball, in which a pitcher throws a ball (the reactant) towards the batter who tries to hit the ball with a bat. The umpire is responsible for making calls, determining if the ball is a strike, a foul ball, or a home run based on the specific rules of the game.

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Element, Compound or Mixture. I need help for this whole side of the worksheet please!

Answers

An element is made up of only one type of atom.

A compound is made up of different atoms that are chemically joined together.

A mixture is made up of two or more different atoms or compounds that are not chemically joined together, but rather are physically mixed together.

What are elements, compounds, and mixtures?

Elements are substances that are composed of the same type of atoms and which cannot be split by an ordinary chemical process. For example, sodium, chlorine, oxygen, etc.

Compounds are substances that are comprised of two or more elements chemically combined together. For example, common salt.

Mixtures are substances that are composed of two or more substances physically combined together. For example, salt and water to form a salt solution.

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Find the volume of 53.5 g of O2 at 30.1°C and 110.0 kPa. Round to the nearest tenth.

Answers

The volume of 53.5 g of O₂ at 30.1°C and 110.0 kPa is 1 m³ approximately

The Charles Law: What is it explained?

According to Charles' Law, while pressure is maintained constant, the volume of a given amount of gas varies in direct proportion to the absolute temperature of the gas. The Kelvin scale is used to measure temperature to determine the absolute temperature.

To find the volume of a gas, we can use the Ideal Gas Law:

PV = nRT

where P is the pressure of the gas, V is the volume of the gas, n is the number of moles of gas, R is the universal gas constant, and T is the temperature of the gas in Kelvin.

First, we need to convert the given temperature of 30.1°C to Kelvin:

T = 30.1°C + 273.15 = 303.25 K

Next, we need to determine the number of moles of O₂ present. We can use the molar mass of O₂ to convert from grams to moles:

molar mass of O₂ = 32.00 g/mol

moles of O₂ = 53.5 g / 32.00 g/mol = 1.671875 mol

Now we can rearrange the Ideal Gas Law to solve for V:

V = nRT / P

V = 1.671875 × 8.3145 × 303.25 /110 k × 1000 Pa / kPa

V = 0.062878 m³

Finally, we round the answer to the nearest tenth: (rounded to one decimal place) V = 1 m³

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What is the mass of a cube of titanium, in micrograms, that measures 3. 67 X 104 micrometers for each edge. The density of Titanium is 4. 5 g/cm3. Answer to be in scientific notation

Answers

The mass of the cube of titanium is 2.02 x 10^6 micrograms.

To find the mass of the cube of titanium in micrograms, we first need to find its volume:

Volume = (edge length)^3 = (3.67 x 10^4 micrometers)^3

            = 4.49 x 10^14 cubic micrometers

Next, we need to convert the density of titanium from grams per cubic centimeter to micrograms per cubic micrometer:

4.5 g/cm^3 = 4.5 x 10^9 micrograms/ (10^4 micrometers)^3

                   = 4.5 x 10^9 micrograms/ (10^12 cubic micrometers)

Now we can calculate the mass of the cube:

Mass = Volume x Density

         = 4.49 x 10^14 cubic micrometers x 4.5 x 10^9 micrograms/ (10^12 cubic micrometers)

         = 2.02 x 10^6 micrograms

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Look at the diagram below, which shows an atom of an element. How man valence electrons does it have? Based on this, would the atom be reactive or unreactive? Explain your reasoning.

Answers

A broad rule of thumb states that an atom with one, two, three, five, six, or seven valence electrons is reactive, however an atom with four valence electrons may be reactive or unreactive depending on the particular reaction conditions.

What is the name of a diagram that just displays an atom's valence electrons?

Since valence electrons are crucial, atoms are frequently depicted by straightforward diagrams that just display their valence electrons. Three of these electron dot diagrams are displayed below.

How do valence electrons determine an element's reactivity?

Valence electrons play a major role in determining an atom's chemical reactivity. Atoms with a fully filled valence electron shell have a propensity to be chemically inert. Very reactive atoms have one or two valence electrons.

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