a 50.0- ml volume of 0.15 m hbr is titrated with 0.25 m koh . calculate the ph after the addition of 17.0 ml of koh .

Answers

Answer 1

The pH after the addition of 17.0 mL of KOH is 0.602.

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Here is the solution to the given problem:Given:Volume of HBr = 50.0 mL

Concentration of HBr = 0.15M

Concentration of KOH = 0.25 M

Volume of KOH added = 17.0 mL

We need to calculate the pH after the addition of KOH.The balanced chemical equation for the reaction between HBr and KOH is:

HBr + KOH → KBr + H2O

Initial moles of HBr = Molarity × Volume

= 0.15 mol/L × (50.0 mL/1000)

= 0.0075

molInitial moles of KOH = Molarity × Volume

= 0.25 mol/L × (17.0 mL/1000) = 0.00425

 sinceNonsense the reaction is a neutralization reaction between a strong acid and a strong base, we can assume that the volume after the reaction would be 50 + 17 = 67 mL or 0.067 L.

The moles of HBr left after reaction = initial moles of HBr - moles of KOH reacted

= 0.0075 - 0.00425= 0.00325 mol

Concentration of HBr after reaction

= Moles of HBr/Volume of solution = 0.00325 mol/0.067

L = 0.0485 MConcentration of H3O+ = Concentration of OH-

= Molarity of KOH added

= 0.25 MSo,

the pH can be calculated using the formula:

pH = -log[H3O+]= -log[0.25]

= 0.602

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Related Questions

which of the following mixtures would create a buffer solution? i. 50 ml of 0.5m hf 50 ml of 0.5m naf ii. 100 ml of 0.5m nh 3 50 ml of 0.5m nh 4 cl iii. 100 ml of 1.0m hcl 50 ml of 0.5m nh 3 iv. 100 ml of 1.0m naoh 50 ml of 0.5m hf a. i only b. ii only c. iii and iv d. i and ii only e. i, ii, and iii only

Answers

a. HF is a weak acid and F- is the conjugate base.

b. NH4+ is a weak acid and NH3 is the conjugate base.

c. HCO3- is a weak acid and (CO3)2- is the conjugate base.

Weak acids are defined as the acids which do not completely dissociate in solution. A weak acid is known as any acid that is not a strong acid. The strength of the weak acid depends on how much it dissociates in the solution.

Conjugate bases are defined as the particle produced when an acid donates a proton.

We can write the equation as,

HF(aq.) <=> [tex]H^{+}[/tex](aq.) + [tex]F^{-}[/tex](aq.),

Here, HF is a weak acid and [tex]F^{-}[/tex] is the conjugate base

[tex]NH_4^{+}[/tex](aq.) <=> [tex]F^{-}[/tex](aq.) + [tex]NH_{3}[/tex](aq.),

Here, [tex]NH_4^{+}[/tex]  is a weak acid and [tex]F^{-}[/tex] is the conjugate base

[tex]HCO_{ 3} ^{-}[/tex](aq.) <=>[tex]H^{+}[/tex] (aq.) + [tex](CO_{3} )_{2} ^{-}[/tex](aq.),

Here, [tex]HCO_{ 3} ^{-}[/tex] is a weak acid and  [tex](CO_{3} )_{2} ^{-}[/tex] is the conjugate base

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Which of the following mixtures are buffers and why?

If it is a buffer, write an equilibrium equation for the conjugate acid/base pair.

a. KF/ HF

b. NH3 / NH4Br

c. KNO3 / HNO3

d. Na2CO3 / NaHCO3

In former times, gas volume was used as a way to measure temperature, using devices called gas thermometers. Consider a gas that has a volume of 0.675 L at 35 C and at 1 atm pressure. What is the temperature (in C)) of a room where the gas has a volume of 0.635 L at 1 atm?

Answers

Answer:   12.55 C

Explanation:

The relationship between gas volume and temperature is described by the Ideal Gas Law:

PV = nRT

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

P1V1 = nRT1 (initial conditions)

P2V2 = nRT2 (final conditions)

Since the number of moles is constant, we can set nRT1 equal to nRT2:

P1V1 = P2V2

We can rearrange this equation to solve for the final temperature:

T2 = (P1V1/T1) * V2/P2

Substituting the given values:

T2 = (1 atm * 0.675 L / 308.15 K) * (0.635 L / 1 atm)

where we converted the initial temperature of 35 C to Kelvin by adding 273.15 K.

Simplifying and solving for T2:

T2 = 285.7 K - 273.15 K

T2 = 12.55 C

Therefore, the temperature of the room where the gas has a volume of 0.635 L at 1 atm is approximately 12.55 C.

Which statement accurately compares the masses of neutrons and protons

Answers

Answer:

Together, the number of protons and the number of neutrons determine an element's mass number: mass number = protons + neutrons.

at 4.00 l , an expandable vessel contains 0.864 mol of oxygen gas. how many liters of oxygen gas must be added at constant temperature and pressure if you need a total

Answers

First, we'll look at the ideal gas equation,

PV = nRT

The temperature and pressure are said to be constant; Additionally, R is a constant already. Along these lines, we get:

V = constant * n

The direct proportional equation is as follows: As a result, we get:

V/n = constant

V₁/n₁ = V₂/n₂

Replace V₂ with the qualities and address.

V₂ = (4 * 1.48) / 0.864

V₂ = 6.85

In the end, 6.85 Liters of gas must be present, so we must add:

6.85 - 4 = 2.85 liters

The volume of a gas is directly proportional to its mole volume at a fixed temperature and pressure.

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Q- At 4.00 L, an expandable vessel contains 0.864 mol of oxygen gas. How many liters of oxygen gas must be added at constant temperature and pressure if you need a total of 1.48mol of oxygen gas in the vessel?

What is the final temperature of a sample of ammonia gas if the sample went from a volume of 250mL, a pressure of 3.84 atm, and 35ºC to a pressure of 5.84 atm and a volume of 215 mL?

T2 = __ K ( Answer Format: XXX.X)

Answers

The ammonia gas's final temperature is 417.3 K. It moved from having a volume of 250 mL, a pressure of 3.84 atm, and a temperature of 35 oC to having a pressure of 5.84 atm and a volume of 215 mL.

To solve this problem, we can use the combined gas law, which states:

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

Where:

P1 = 3.84 atm

V1 = 250 mL

T1 = 35ºC + 273.15 = 308.15 K (temperature must be in Kelvin)

P2 = 5.84 atm

V2 = 215 mL

T2 = ?

We can rearrange this equation to solve for T2:

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

T2 = (5.84 atm * 215 mL * 308.15 K) / (3.84 atm * 250 mL)

T2 = 417.3 K

Therefore, the final temperature of the ammonia gas is 417.3 K.

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hydrochloric acid mixed with Magnesium ribbon a chemical or physical change

Answers

A chemical shift can be seen in this situation. As further proof that a chemical reaction is occurring, there may also be visible changes including bubbling, gas evolution, and heat emission.

A chemical reaction is defined simply.

Chemical reaction is the process by which 1 or more compounds, known as reactants, change into one or more new ones, known as products. Chemical components or compounds make up substances. The atoms that make up the reactants are rearranged in a chemical reaction to produce various products.

How do chemical processes take place?

As moving molecules collide with one another, their connections are broken, resulting in an exchange in atoms that creates new products. Another way that substances can react chemically is by vibrating; if they vibrate vigorously enough, they can disintegrate into smaller molecules.

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calculate the amount of thermal energy required to change 500g of water from the liquid phase to the vapor phase. the molar mass of water is 18.02 g/mol, and the theoretical heat of vapourization of water is 40.65kj/mol

Answers

It would take 1,127.7 kJ of thermal energy to change 500g of water from liquid phase to vapor phase at a constant temperature and pressure, assuming the theoretical heat of vaporization of water.

To calculate the amount of thermal energy required to change 500g of water from liquid phase to vapor phase, we need to use the heat of vaporization (also called enthalpy of vaporization) of water, which is the amount of energy required to convert one mole of liquid water to water vapor at a constant temperature and pressure.

The heat of vaporization of water is given as 40.65 kJ/mol. To calculate the energy required to vaporize 500g of water, we need to first calculate the number of moles of water present in 500g of water:

Number of moles of water = mass of water / molar mass of water

Number of moles of water = 500g / 18.02 g/mol

Number of moles of water = 27.74 mol

Now, we can use the following formula to calculate the amount of thermal energy required:

Energy = Number of moles x Heat of vaporization

Energy = 27.74 mol x 40.65 kJ/mol

Energy = 1,127.7 kJ

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atoms share electrons unequally in a(n) bond. group of answer choices hydrogen polar covalent nonpolar covalent ionic codependent

Answers

Atoms share electrons unequally in a polar covalent bond.

In a polar covalent bond, the electrons are not shared equally between the atoms involved due to differences in electronegativity. Electronegativity is a measure of an atom's ability to attract electrons. When two atoms with different electronegativities form a bond.


The electronegative atom, leading to the formation of a polar bond. Polar covalent bonds can be found in molecules such as water ([tex]H_{2}o[/tex]), where oxygen is more electronegative than hydrogen, leading to an uneven distribution of electron density.


Nonpolar covalent bonds occur when atoms share electrons equally due to similar electronegativities. This results in an even distribution of electron density and no creation of partial charges. Examples of nonpolar covalent bonds can be found in molecules such as methane ([tex]CH_{4}[/tex]).

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A 1.000-g sample of lead metal reacted with oxygen gas to give 1.154g of product. Calculate the empirical formula of the lead oxide.

Answers

To determine the empirical formula of the lead oxide, we need to find the mole ratios of lead and oxygen in the product.

First, we need to determine the moles of each element present in the product:

Mass of lead = 1.154 g - x (where x is the mass of oxygen in the product)

Mass of oxygen = x

Next, we need to convert the masses of lead and oxygen to moles:

moles of lead = (1.154 g - x) / 207.2 g/mol

moles of oxygen = x / 16.00 g/mol

We can set up a ratio of moles of lead to moles of oxygen:

(1.154 g - x) / 207.2 g/mol : x / 16.00 g/mol

Cross-multiplying and simplifying:

(1.154 g - x) x 16.00 g/mol = 207.2 g/mol x

18.464 g - 16.00 x = 207.2 x

191.736 g = 223.2 x

x = 0.859 g

So, the mass of oxygen in the product is 0.859 g. The mass of lead in the product is 1.154 g - 0.859 g = 0.295 g.

Now we can calculate the moles of each element in the product:

moles of lead = 0.295 g / 207.2 g/mol = 0.001422 mol

moles of oxygen = 0.859 g / 16.00 g/mol = 0.0537 mol

To find the empirical formula, we need to divide the moles of each element by the smallest number of moles:

0.001422 mol / 0.001422 mol = 1

0.0537 mol / 0.001422 mol = 37.7

Rounding to the nearest whole number, we get the empirical formula PbO38.

A reaction's rate constant is measured to be 0.145 1/(M x s). Later on, the same reaction is run again, but this time, the rate constant is measured to be 0.456 1/(M x s). Compare the temperatures at which both measurements were made.

A) The first reaction took place at a higher temperature.

B) The second reaction took place at a higher temperature.

C) Both reactions took place at the same temperature.

D) There is not enough information given to compare the temperatures.

Answers

Answer: The second reaction took place at a higher temperature

Explanation:

Rate is affected by temperature, as higher temperatures cause the reacting molecules to have more energy.

Collision theory states that in order for a reaction to occur, each reacting molecule must collide with one another in the correct orientation and with enough energy, called the activation energy.


A higher energy caused by a higher temperature will cause the molecules to collide much more frequently, leading to a higher chance of a successful collision, and with more energy to satisfy the activation energy.

Therefore, the second reaction must have taken place at a higher temperature, since the molecules had more energy than the first reaction leading to a higher rate of reaction, and a higher rate constant.

For each of the following reactions, write the
missing product(s) and then balance the resulting
equation. Identify each reaction by type.

Answers

a. Balanced chemical reaction: 4Li + O₂ → 2Li₂O

b. Balanced Chemical reaction: Mg(ClO₃)₂→ MgCl₂ + 3O₂

c. Balanced Chemical reaction: 2HNO₃ + Ca(OH)₂ → Ca(NO₃)₂ + 2H₂O

d. Balanced Chemical reaction: C₅H₁₂+ 8O₂→ 5CO₂ + 6H₂O

Lets understand these reaction types:

1. Synthesis: Chemical synthesis is the process in which chemical reactions are performed with the idea of converting a reactant into a product or multiple products.

For example: 4Li + O₂ → 2Li₂O

2. Decomposition: In these reactions chemical species break up into simpler parts.

For example: Mg(ClO₃)₂→ MgCl₂ + 3O₂

3. Double displacement: is a type of chemical reaction where two compounds react, and positive ions and the negative ions of the two reactants switch places, forming two new compounds or products.

For example:  2HNO₃ + Ca(OH)₂ → Ca(NO₃)₂ + 2H₂O

4. Combustion: These reactions occur when oxygen reacts with another substance and gives off heat and light.

For example: C₅H₁₂+ 8O₂→ 5CO₂ + 6H₂O

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Correct form of question

For each of the following reactions, identify the missing reactant(s) or products(s) and then balance the resulting equation. Note that each empty slot may require one or more substances.

a. synthesis: ___ ⟶Li2O

b. decomposition: Mg(ClO3)2⟶___,

c. double displacement: HNO3+Ca(OH)2→___,

d. combustion: C5H12+O2⟶___

8. which of the following statements about the structure of atp are correct? a. it contains three phosphoanhydride bonds. b. it contains two phosphate ester bonds. c. the sugar moiety is linked to the triphosphate by a phosphate ester bond. d. the nitrogenous base is called adenosine. e. the active form is usually in a complex with or

Answers

The correct statements about the structure of ATP are it contains three phosphoanhydride bonds (A), two phosphate ester bonds (B), the sugar moiety is linked to the triphosphate by a phosphate ester bond (C), the nitrogenous base is called adenosine (D), and the active form is usually in a complex with other molecules (E).

ATP is a nucleoside triphosphate that contains three phosphate groups. It is made up of a nucleotide molecule and three phosphate groups that are connected by high-energy bonds. ATP has a sugar backbone that is connected to the nitrogenous base adenosine and is attached to the phosphate groups. The high-energy bonds between the phosphates are referred to as phosphoanhydride bonds (option A).

The bond between the phosphate group and the sugar is a phosphate ester bond (option C), and two phosphate ester bonds are found in ATP (option B). The nitrogenous base in ATP is adenosine (option D). Finally, the active form of ATP is frequently complex with other molecules (option E). Therefore, options A, B, C, D, and E statements are correct.

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a 35.0-milliliter sample of hno3 (aq) is neutralized by 22.1 milliliters of 0.250 m koh(aq). what is the molarity of the hno3 (aq)?

Answers

The molarity of the sample of HNO3 (aq.) is neutralized by 22.1 milliliters of 0.250 m KOH(aq.) is 0.193M

Molarity is also called as molar concentration. Molarity can be defined as the measure of the concentration of a chemical specie of the reaction in particular of a solute in a solution which is in terms of amount of substance per unit volume of solution.

The molarity can be calculated as,

M1 V1 = M2 V2

Hehe, M1 is the molarity of the acid and V1 is the volume  of the an acid. M2 is the molarity of the base and V2 is the volume of the base of the solution.

When 35.0-milliliter sample of HNO3 (aq.) is neutralized by 22.1 milliliters of 0.250 m KOH(aq.)

Putting all the values in the expression we get,

M1=M2V2/V1

    =(0.150) (32.1)/25.0

    = 0.193M

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tia has a sample of pure gold (au). she weighed the sample and the result was 88.4 grams. tia wants to determine the number of atoms in the sample. calculate the number of atoms in 88.4 g of pure gold.

Answers

There are approximately [tex]2.88 * 10^{23}[/tex] atoms in 88.4 g of pure gold (Au).

The quantity of atoms, ions, or molecules contained in one mole of a substance is denoted by the fundamental constant known as Avogadro's number in chemistry and physics.

Tia can use Avogadro's number to determine how many atoms are contained in 88.4 g of pure gold (Au), which is approximately [tex]6.022 * 10^{23}[/tex] atoms/mol.

First, Tia has to determine the molar mass of gold (Au), which is 197 g/mol.

Then, she can use the following formula:

Number of atoms = (Mass of sample in grams) / (Molar mass of the element in grams/mol) * (Avogadro's number)

Plugging in the values:

Mass of sample = 88.4 g

Molar mass of gold (Au) = 197 g/mol

Avogadro's number [tex]= 6.022 * 10^{23}[/tex] atoms/mol

Number of atoms [tex]= (\frac{88.4}{197}) * (6.022 * 10^{23})[/tex]

Number of atoms [tex]= 2.88 * 10^{23}[/tex] atoms

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the pharmacist is asked to prepare one liter of 10% nacl solution for irrigation using a 0.9% solution and a 23.4% solution in stock. using only these products, how many milliliters of the 23.4% solution will be required to compound this prescription?

Answers

23.22 mL of the 23.4% irrigation solution would be required to compound the given prescription.

To prepare a 10% NaCl solution using a 0.9% solution and a 23.4% solution in stock, we can use the formula:

C1V1 + C2V2 = C3V3

where C1 is the concentration of the first solution (0.9%), V1 is the volume of the first solution (unknown), C2 is the concentration of the second solution (23.4%), and so on.

Substituting these values into the formula, we get:

(0.9%)(V1) + (23.4%)(V2) = (10%)(1000 mL)

Simplifying this equation, we get:

0.009V1 + 0.234V2 = 100 mL

We have two unknowns and one equation, so we need another equation to solve for both V1 and V2.

Let’s use a mass balance equation:

mass of NaCl in first solution + mass of NaCl in second solution = mass of NaCl in final solution

The mass of NaCl in each solution is equal to its concentration multiplied by its volume and density.

For the first solution:

mass = (0.9 g/mL)(V1 mL)(0.01 g NaCl/g)

For the second solution:

mass = (23.4 g/mL)(V2 mL)(0.01 g NaCl/g)

For the final solution:

mass = (10 g/mL)(1000 mL)(0.01 g NaCl/g)

Substituting these values into our mass balance equation, we get:

(0.9 g/mL)(V1 mL)(0.01) + (23.4 g/mL)(V2 mL)(0.01) = (10 g/mL)(1000 mL)(0.01)

Simplifying this equation, we get:

0.009V1 + 0.234V2 = 100

Now that we have two equations with two non-specific values, we can answer them both at once.

Multiplying our first equation by -26/3, we get:

-7.8V1 - 6.12V2 = -260

Adding this equation to our second equation, we get:

-6.8V2 = -160

Solving for V2, we get:

V2 = 23.22 mL

Therefore, we need 23.22 mL of the 23.4% solution to compound this prescription.

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6clo3- 10no 2h2o3cl2 10no3- 4h in the above reaction, the oxidation state of nitrogen changes from to . how many electrons are transferred in the reaction?

Answers

The oxidation state of nitrogen changes from 0 to -2. The number of electrons transferred in the reaction are equal to two.

We have a chemical reaction present below, [tex]N_2 + {2 CIO_3}^{-} + H_2O -->{ 2 CIO_4 }^{-} + N_2H_4 \\ [/tex]

We have to determine change in the oxidation state of nitrogen in reaction and total number of electrons transferred in the reaction. Now, first we determine the oxidation state of N in reactants and products side. The oxidation state of Nitrogen, N in reactants is equals to zero. In case of product side, N₂H₄, 2x + 4(1) = 0, where x is oxidation state of N in N₂H₄ ,

=> 2x = -4

=> x = -2

Hence, oxidation state is -2 and total 2 electrons transferred in the above reaction.

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Complete question:

[tex]N_2 + {2 CIO_3}^{-} + H_2O -->{ 2 CIO_4 }^{-} + N_2H_4 \\ [/tex], in the above reaction, the oxidation state of nitrogen changes from__ to __.

how many electrons are transferred in the reaction?

how does the change in mass of the anode compare with the change in mass of the cathode? what happens to the concentration of

Answers

The change in mass of the anode and cathode in an electrochemical cell can be used to determine the amount of reactants that have been converted into products during the electrochemical reaction. Therefore, the concentration of the electrolyte solution may change during the course of the electrochemical reaction.

The amount of reactants consumed at the anode will be equal to the amount of products produced at the cathode. Therefore, the change in mass of the anode should be equal in magnitude but opposite in sign to the change in mass of the cathode.

For example, in a galvanic cell where zinc is oxidized at the anode and copper is reduced at the cathode, the mass of the anode will decrease as zinc atoms are converted to Zn²⁺ ions and electrons, while the mass of the cathode will increase as copper ions are reduced to copper atoms and gain electrons.

The amount of zinc consumed at the anode should be equal to the amount of copper produced at the cathode, and so the change in mass of the anode should be equal in magnitude but opposite in sign to the change in mass of the cathode.

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--The given question is incorrect, the correct question is

"How does the change in mass of the anode compare with the change in mass of the cathode? what happens to the concentration."--

a buffer solution was made using of , , mixed with of a solution of ? select the of the resulting buffer solution:

Answers

Plug in the values of pKa, C₁, and C₂_new into the equation to find the pH of the resulting buffer solution.

To determine the pH of the resulting buffer solution, we need to first identify the acid and its conjugate base present in the mixture. Since the exact substances are not provided in the student question, I will use a generic example of a weak acid (HA) and its conjugate base (A-).
Let's assume that we have V₁ volume of HA with a concentration of C₁ and V₂ volume of A- with a concentration of C₂.
Step 1: Calculate the total volume of the buffer solution.
V_total = V₁ + V₂
Step 2: Calculate the moles of HA and A- in the mixture.
moles_HA = C₁ * V₁
moles_A- = C₂ * V₂
Step 3: Calculate the new concentrations of HA and A- in the buffer solution.
C₁_new = moles_HA / V_total
C₂_new = moles_A- / V_total
Step 4: Use the Henderson-Hasselbalch equation to determine the pH of the buffer solution.
pH = pKa + log ([A-] / [HA])
Here, pKa is the acid dissociation constant of HA, [A-] represents the concentration of A- (C₂_new), and [HA] represents the concentration of HA (C₁_new).

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10.the recommended pediatric iv dosage of furosemide is 1 mg/kg not to exceed 6 mg/kg. the child weighs 55 lb. available: furosemide 20 mg/2 ml. how many ml will the child receive?

Answers

The recommended pediatric iv dosage of furosemide is 1 mg/kg not to exceed 6 mg/kg. the child weighs 55 lb. available: furosemide 20 mg/2 ml. The child will receive approximately 2.5 mL of furosemide.

To determine the appropriate dosage of furosemide for the child, first convert their weight from pounds to kilograms.

1 lb = 0.453592 kg

55 lb × 0.453592 kg/lb ≈ 24.95 kg

Now, calculate the dosage using the recommended pediatric IV dosage (1 mg/kg):

24.95 kg × 1 mg/kg ≈ 24.95 mg

Since the dosage should not exceed 6 mg/kg:

24.95 kg × 6 mg/kg = 149.7 mg (maximum dosage)

Since the child's calculated dosage (24.95 mg) is less than the maximum dosage, it can be administered.

Next, determine the volume of furosemide to be given. The available concentration is 20 mg/2 mL. Use the proportion:

20 mg/2 mL = 24.95 mg/x mL

Solve for x:

x = (24.95 mg × 2 mL) / 20 mg ≈ 2.495 mL

Therefore,the dosage  of furosemide that will be received by the child is 2.5 mL

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A chemical reaction occurs when reactant particles
1. are separated by great distances
2. have no attractive forces between them
3. collide with proper energy and proper orientation
4. convert chemical energy into nuclear energy

Answers

Answer:

3. collide with proper energy and proper orientation

Explanation:

Option 3, i.e., "collide with proper energy and proper orientation," is the correct answer.

Chemical reactions involve the rearrangement of atoms to form new molecules or compounds. In order for this rearrangement to occur, the reactant particles must collide with each other in a specific way. The collision must be energetic enough to break the existing chemical bonds and form new ones. Additionally, the particles must collide with each other in a specific orientation that allows the atoms to line up properly and form new chemical bonds.

Options 1 and 2 are incorrect as they do not play any role in chemical reactions. The distance between particles and the presence of attractive forces between them do not affect whether a chemical reaction will occur or not. Option 4 is incorrect as chemical reactions do not involve the conversion of chemical energy into nuclear energy.

Hopes this helps

why are the tires for trucks carrying gasoline and other flammable liquids manufactured to be electrically conducting?

Answers

Tires for trucks carrying flammable liquids are made electrically conducting to prevent static electricity buildup, which can create sparks and cause explosions or fires.

Tires for trucks carrying gasoline and other flammable liquids are manufactured to be electrically conducting to prevent static electricity buildup. Static electricity can be generated when the rubber tires rub against the ground or when they come into contact with other objects, such as fuel pumps or other metal objects.

In the presence of flammable liquids or gases, static electricity can create sparks, which can ignite the fuel and cause an explosion or fire. By making the tires electrically conducting, any static charges that build up on the tires are quickly dissipated to the ground, minimizing the risk of ignition. This is an important safety measure that helps to prevent accidents and protect people and property.

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yo uh help, thanks sm <3

Answers

1. The mass of KClO₃ that decomposed to produce 17.4 g of O₂ is 44.4 g

2. The mass of KClO₃ that formed 23.7 g of KCl is 39.0 g

3. The mole of O₂ that is formed from 1.45 moles of KClO₃ is 2.18 moles

4. The mole of KClO₃ that decomposed to produced 167.7 g of KCl is 0.22 mole

1. How do i determine the mass of KClO₃ that decomposed?

The mass of KClO₃ that decomposed to produce 17.4 g of O₂ can be obtain as follow:

2KClO₃ -> 2KCl + 3O₂

Molar mass of O₂ = 32 g/molMass of O₂ from the balanced equation = 3 × 32 = 96 g Molar mass of KClO₃ = 122.5 g/molMass of KClO₃ from the balanced equation = 2 × 122.5 = 245 g

From the balanced equation above,

96 g of O₂ were obtained from 245 g of KClO₃

Therefore,

17.4 g of O₂ will be obtain from = (17.4 × 245) / 96 = 44.4 g of KClO₃

Thus, the mass of KClO₃ that decomposed is 44.4 g

2. How do i determine the mass of KClO₃?

The mass of KClO₃ that formed 23.7 g of KCl can be obtain as follow:

2KClO₃ -> 2KCl + 3O₂

Molar mass of KCl = 74.5 g/molMass of O₂ from the balanced equation = 2 × 74.5 = 149 g Molar mass of KClO₃ = 122.5 g/molMass of KClO₃ from the balanced equation = 2 × 122.5 = 245 g

From the balanced equation above,

149 g of KCl were obtained from 245 g of KClO₃

Therefore,

23.7 g of KCl will be obtain from = (23.7 × 245) / 149 = 39.0 g of KClO₃

Thus, the mass of KClO₃ is 39.0 g

3. How do i determine the mole of O₂ formed?

The mole of O₂ that is formed from 1.45 moles of KClO₃ can be obtained as follow:

2KClO₃ -> 2KCl + 3O₂

From the balanced equation above,

2 mole of KClO₃ reacted to produce 3 moles of O₂

Therefore,

1.45 moles of KClO₃ will react to produce = (1.45 × 3) / 2 = 2.18 moles of O₂

Thus, the mole of O₂ formed is 2.18 moles

4. How do i determine the mole of KClO₃ that decomposed?

First, we shall obtain the mole of 16.7 g of KCl. Details below:

Mass of KCl = 16.7 grams Molar mass of KCl = 74.5 g/mol Mole of KCl =?

Mole = mass / molar mass

Mole of KCl = 16.7 / 74.5

Mole of KCl = 0.22 mole

Finally, we shall determine the mole of KClO₃ that decomposed. Details below:

2KClO₃ -> 2KCl + 3O₂

From the balanced equation above,

2 moles of KCl were obtained from 2 moles of KClO₃

Therefore,

0.22 mole of KCl will also be obtain from 0.22 mole of KClO₃

Thus, the mole of KClO₃ that decomposed is 0.22 mole

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What mass of magnesium, and what volume of 2.0 mol dm-3 hydrochloric acid, will be required to produce 100 cm3 of hydrogen gas at 298 K and 100 kPa?
Equation: Mg(s) + 2HCl(aq) → MgCl2(aq) + H2(g)

Answers

To produce 100 cm3 of hydrogen gas at 298 K and 100 kPa, we need 49.5 mg of magnesium and 2.04 cm3 of 2.0 mol/dm3 hydrochloric acid.

What is HCl?

HCl is the chemical formula for hydrochloric acid, which is a strong, highly corrosive acid that is commonly used in industrial and laboratory applications. It is a colorless, pungent gas that dissolves readily in water to form hydrochloric acid, which is a clear, colorless solution with a strong, acidic taste and a pungent odor.

The balanced chemical equation for the reaction is:

Mg(s) + 2HCl(aq) → MgCl2(aq) + H2(g)

From the equation, we know that 1 mole of magnesium reacts with 2 moles of hydrochloric acid to produce 1 mole of hydrogen gas. Therefore, we need to determine how many moles of hydrogen gas are produced by the given volume and conditions.

Using the ideal gas law equation:

PV = nRT

where P = pressure, V = volume, n = number of moles, R = the gas constant, and T = temperature, we can calculate the number of moles of hydrogen gas produced:

n = PV/RT

where P = 100 kPa, V = 100 cm3 or 0.1 dm3, R = 8.31 J/mol·K (gas constant), and T = 298 K

n = (100 kPa x 0.1 dm3) / (8.31 J/mol·K x 298 K) = 0.00408 moles of H2

According to the balanced chemical equation, 1 mole of magnesium reacts with 1/2 mole of hydrogen gas. Therefore, we need 0.00204 moles of magnesium to produce 0.00408 moles of hydrogen gas.

The molar mass of magnesium is 24.31 g/mol, so the mass of magnesium required is:

mass of Mg = 0.00204 mol x 24.31 g/mol = 0.0495 g or 49.5 mg

The concentration of hydrochloric acid is given as 2.0 mol/dm3. Therefore, we can calculate the number of moles of hydrochloric acid required using the equation:

moles of HCl = concentration x volume

where the volume is in dm3.

moles of HCl = 2.0 mol/dm3 x 0.1 dm3 = 0.2 moles of HCl

According to the balanced chemical equation, 1 mole of magnesium reacts with 2 moles of hydrochloric acid. Therefore, we need half the number of moles of hydrochloric acid as magnesium, which is:

moles of HCl needed = 0.00204 mol x 2 = 0.00408 moles of HCl

Finally, we can calculate the volume of 2.0 mol/dm3 hydrochloric acid needed using the equation:

volume = moles / concentration

volume = 0.00408 moles / 2.0 mol/dm3 = 0.00204 dm3 or 2.04 cm3

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What volume of 02 is consumed when 458g of CH4 are combusted at STP
according to the following equation? CH4 + 202 -> CO2 + 2H2O

Answers

The volume of oxygen consumed when 458 g of CH4 is combusted at STP is 1278.14 L.

What is STP?

STP stands for Standard Temperature and Pressure, which is a standard set of conditions used in chemistry and physics experiments. The standard temperature is 0 degrees Celsius or 273.15 Kelvin, while the standard pressure is 1 atmosphere or 101.3 kilopascals (kPa). At STP, one mole of any ideal gas occupies a volume of 22.4 liters (L). These standard conditions allow scientists to compare the properties of different gases under the same conditions, making it easier to make accurate measurements and predictions.

To find the volume of oxygen consumed during the combustion of methane, we need to use the balanced chemical equation and the ideal gas law.

First, let's find the number of moles of methane used:

Molar mass of CH4 = 12.01 + 4(1.01) = 16.05 g/mol

Number of moles of CH4 = 458 g / 16.05 g/mol = 28.53 mol

According to the balanced chemical equation, one mole of CH4 reacts with two moles of O2, so we need:

28.53 mol CH4 × 2 mol O2/1 mol CH4 = 57.06 mol O2

At STP (standard temperature and pressure), one mole of any ideal gas occupies 22.4 L of volume. Therefore, the volume of oxygen consumed is:

57.06 mol O2 × 22.4 L/mol = 1278.14 L

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does the reaction proceed towards products or reactants at 1000 k if a mixture contains 0.0750 atm co2(g), 0.095 atm h2(g), 0.0340 atm co(g), and 0.0650 atm h2o(g)?

Answers

The reaction in question is the water gas shift reaction:

CO2(g) + H2(g) ⇌ CO(g) + H2O(g)

At 1000 K, this reaction is endothermic, meaning that it requires heat as a reactant and will shift towards the product side at higher temperatures. However, we need to calculate the reaction quotient (Qc) for this system to determine whether the reaction will proceed towards products or reactants.

The reaction quotient Qc is defined as the product of the concentrations of the products, each raised to the power of their stoichiometric coefficients, divided by the product of the concentrations of the reactants, each raised to the power of their stoichiometric coefficients.

Qc = [CO][H2O] / [CO2][H2]

where the square brackets denote the concentration of each species.

We are given the partial pressures of each gas, but we need to convert these to concentrations using the ideal gas law:

PV = nRT

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

For each gas, we can solve for the number of moles (n) and then divide by the total volume to obtain the concentration:

[CO2] = (0.0750 atm)(V) / (RT)

[H2] = (0.095 atm)(V) / (RT)

[CO] = (0.0340 atm)(V) / (RT)

[H2O] = (0.0650 atm)(V) / (RT)

where V is the total volume of the mixture.

Substituting these expressions into the equation for Qc, we obtain:

Qc = [(0.0340 atm)(0.0650 atm)] / [(0.0750 atm)(0.095 atm)]

Qc = 0.0232

If Qc < Kc, the reaction will shift towards the product side to reach equilibrium. If Qc > Kc, the reaction will shift towards the reactant side. If Qc = Kc, the reaction is at equilibrium and there is no net change.

The equilibrium constant (Kc) for the water gas shift reaction at 1000 K is not provided, so we cannot directly compare Qc and Kc. However, the small value of Qc (0.0232) suggests that the reaction is not at equilibrium and may shift towards the product side to reach equilibrium.

Therefore, based on the calculated value of Qc, the reaction may proceed towards products at 1000 K in the given mixture of gases.

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you are performing the acetylation reaction (part 1) of activity 9 at double scale, where you need twice the volume of aniline as written in the original activity 9 procedure. your lab has 0.5 ml, 1.0 ml, and 2.0 ml syringes available to add aniline to your reaction flask. what is the best syringe option for safely transferring the aniline?

Answers

The best syringe option for safely transferring aniline would be the 2.0 mL syringe, since it has the largest volume capacity and would require fewer transfers to add the required amount of aniline to the reaction flask.

This would reduce the risk of spillage and minimize the chances of exposure to aniline, which can be toxic and irritating to the skin, eyes, and respiratory system. It is important to use proper personal protective equipment (PPE) and work in a well-ventilated area when handling aniline or any other hazardous chemicals.

Acetylation is a chemical reaction that involves the introduction of an acetyl group (-COCH₃) into a molecule. In organic chemistry, the most common acetylation reaction involves the reaction of an acetylating agent, such as acetic anhydride or acetyl chloride, with an organic compound containing an amine (-NH₂) or hydroxyl (-OH) functional group.

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Which of the following molecules contain a covalent bond?
A,CaO B,HCI C,CO2 D,SO2 E,Na2O F,PCL3 G,MgO H,NaH I,CH2

Answers

Answer:

B, C, D, F, I

Explanation:

A covalent bond is a chemical bond between two nonmetals (their electronegativity difference must be greater than 1.5-1.6)

.

A. Ca is a metal and O is nonmetal, so the bond in CaO is ionic

B. Both H and Cl are nonmetals, so the bond in HCl is covalent

C. Both C and O are nonmetals, so the bond in CO2 is covalent

D. Both S and O are nonmetals, so the bond in SO2 is covalent

E. Na is a metal and O is nonmetal, so the bond in Na2O is ionic

F. Both P and Cl are nonmetals, so the bond in PCl3 is covalent

G. Mg is a metal and O is nonmetal, so the bond in MgO is ionic

H. Na is a metal and H is nonmetal, so the bond in NaH is ionic

I. Both C and H are nonmetals, so the bond in CH2 is covalent

What is the molality of a solution of naphthalene dissolved in chloroform if the solution has a boiling point of 63.2 ºC?

Answers

The molality of the solution is 0.55 m. Molarity is commonly used in chemical calculations and in the preparation of solutions of known concentration.

What is Molarity?

Molarity (M) is a measure of concentration in chemistry, defined as the number of moles of solute per liter of solution. It is represented by the formula M = n/V, where n is the number of moles of solute and V is the volume of the solution in liters.

We can use the following equation to calculate the molality of the solution:

ΔTb = Kb * molality

where ΔTb is the boiling point elevation, Kb is the boiling point elevation constant for the solvent, and molality is the molality of the solution.

Since the solvent is chloroform, we can look up its boiling point elevation constant in a reference table, such as:

Kb for chloroform = 3.63 ºC/m

The boiling point of the solution is given as 63.2 ºC, which is the boiling point of chloroform plus the boiling point elevation:

63.2 ºC = 61.2 ºC + ΔTb

ΔTb = 2.0 ºC

Now we can use the equation to calculate the molality:

molality = ΔTb / Kb

molality = 2.0 ºC / 3.63 ºC/m

molality = 0.55 m

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An aqueous solution that contains exactly 0.0074mole of HCI per 0.05L of solution. What is the concentration?

Answers

The concentration of the HCl solution is 0.148 M.

The concentration of a solution is typically measured in moles per liter (M). We can calculate the concentration of HCl in the given solution as follows:

Concentration (M) = moles of solute/volume of solution (in liters)

We are given that the solution contains 0.0074 moles of HCl in 0.05 liters of solution. Plugging these values into the equation above, we get:

Concentration (M) = 0.0074 mol / 0.05 L

Concentration (M) = 0.148 M

The concentration of the HCl solution is 0.148 M.

A mole is a measurement used to quantify a substance's quantity. A material is said to have one mole if there are the same number of its constituent parts (such as atoms, molecules, or ions) in it as there are 12 grams of carbon-12.

Because they help us connect a substance's bulk to the number of particles it contains, moles are crucial in the study of chemistry. The mass in grams of one mole of a material, for instance, is known as its molar mass.

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Need help with this please help if you know the answer would be much appreciated!

Answers

Identify the unidentified substance using densities of a known substances. Unknown material density Using mass and volume data, identify an unidentified substance and calculate it density: P = 8.6 g/cm3.

How do I calculate density ln g cm3?

Since water served as the foundation for creating the metric system of measurement, density is defined as mass divided in volume (=m/v), meaning that one cubic centimetre (1cm3) if water weighs one gramme (1g). As a result, the density of water is simple to remember: 1g/1cm3 = 1 g/cm3.

How can the density of the an unknown substance be determined?

Pour water into the a graduated cylinder, measure the volume, submerge the object, and measure the volume again. Its volume of a object is the distinction between both volume measurements. To determine the object's density, just divide its mass by the volume.

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