If a 100.0 g sample of water at 84.7°C is added to a 100.0 g sample of water at 79.6°C, determine the final temperature of the water. Assume no heat is lost to the surroundings.

Answer Question 17 kJ

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Answer 1

To determine the final temperature of the water, we need to use the principle of conservation of energy. The heat lost by the hotter water will be gained by the cooler water until they reach thermal equilibrium.

We can use the following equation to calculate the final  temperature :

m1c1ΔT1 + m2c2ΔT2 = 0

where m1 and m2 are the masses of the two samples of water, c1 and c2 are their specific heats, and ΔT1 and ΔT2 are the temperature changes.

In this case, m1 = m2 = 100.0 g and c1 = c2 = 4.184 J/g°C (the specific heat of water). ΔT1 = 84.7°C - T (where Tis the final temperature) and ΔT2 = T - 79.6°C.

Substituting these values into the equation, we get:

100.0 g x 4.184 J/g°C x (84.7°C - T) + 100.0 g x 4.184 J/g°C x (T - 79.6°C) = 0

Solving for T, we get:

T = (100.0 g x 4.184 J/g°C x 84.7°C + 100.0 g x 4.184 J/g°C x 79.6°C) / (100.0 g x 4.184 J/g°C x 2)

T = 82.15°C

Therefore, the final temperature of the water is 82.15°C.

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Related Questions

what type of functional group is formed when aspartic acid reacts with another amino acid to form a peptide bond?

Answers

The type of functional group formed when aspartic acid reacts with another amino acid to form a peptide bond is a carboxyl group.

What is an amino acid?

Amino acids are biomolecules that are the building blocks of proteins, which are fundamental molecules in living organisms that execute a variety of biological functions.

An amino acid has an amine (-NH₂) and a carboxyl (-COOH) functional group linked to a central carbon atom. The R-group, also known as the side chain, varies based on the type of amino acid. The R-group may be anything from a simple hydrogen atom to a complex ring structure.Functional group in aspartic acidAmino acids, such as aspartic acid, have an -NH₂ group attached to the alpha-carbon and an -OH (hydroxyl) group attached to the carboxyl group (also called the acid group).

A functional group is a collection of atoms or groups of atoms in a molecule that gives it characteristic properties. The -OH group is referred to as the carboxyl group since it contributes to the acidity of the molecule in the case of aspartic acid.The peptide bond between two amino acids is formed when the carboxyl group of one amino acid reacts with the amino group (-NH₂) of another amino acid.

The removal of water from the two amino acids results in the formation of a covalent bond known as a peptide bond. This process is known as dehydration synthesis. When aspartic acid reacts with another amino acid to form a peptide bond, the carboxyl group of aspartic acid acts as the donor, while the amino group of the other amino acid acts as the acceptor.

As a result, a carboxyl group is formed when aspartic acid reacts with another amino acid to form a peptide bond.

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How many hydrogen atoms are in an unbranched alkene with one double bond and 3 carbon atoms? number of H atoms: How many hydrogen atoms are in a cycloalkene with one double bond and 3 carbon atoms? number of H atoms:

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The number of hydrogen atoms in an unbranched alkene with one double bond and 3 carbon atoms is 6, while the number of hydrogen atoms in a cycloalkene with one double bond and 3 carbon atoms is 4.

An unbranched alkene with one double bond and 3 carbon atoms has 6 hydrogen atoms. This is because the general formula for an unbranched alkene with one double bond is CnH2n, where n is the number of carbon atoms. In this case, n = 3, so the number of hydrogen atoms can be calculated as follows:

C3H2(3) = C3H6. Therefore, there are 6 hydrogen atoms in an unbranched alkene with one double bond and 3 carbon atoms.

Similarly, a cycloalkene with one double bond and 3 carbon atoms also has 6 hydrogen atoms. This is because the general formula for a cycloalkene with one double bond is CnH2n-2, where n is the number of carbon atoms. In this case, n = 3, so the number of hydrogen atoms can be calculated as follows:

C3H2(3)-2 = C3H4. Therefore, there are 4 hydrogen atoms in a cycloalkene with one double bond and 3 carbon atoms.

In conclusion, the number of hydrogen atoms in an unbranched alkene with one double bond and 3 carbon atoms is 6, while the number of hydrogen atoms in a cycloalkene with one double bond and 3 carbon atoms is 4.

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Which band would not appear in the product that was in the starting material in the addition of Br2 to 2-pentene? 0 3000-2850 1800-1650 a. 3400-3600 b. 2260-2200 c. 1680-1620
d. 3100-3000

Answers

The band that would not appear in the product that was in the starting material in the addition of Br2 to 2-pentene is c. 1680-1620.

The product of addition of Br2 to 2-pentene will be 2,3-dibromopentane. During this process, we can observe different bands of functional groups by the IR spectrum method of the reactants and products. Thus, the IR spectrum of 2-pentene and 2,3-dibromopentane are given below: IR spectrum of 2-penteneThe absorption bands of the functional groups of 2-pentene can be observed between 3000-2850, 1660-1620, and 3100-3000. IR spectrum of 2,3-dibromopentane.

The absorption bands of the functional groups of 2,3-dibromopentane can be observed between 3000-2850, 1460-1370, 1360-1280, 1220-1170, 1040-960, 910-840, and 740-690. Therefore, the band that would not appear in the product that was in the starting material in the addition of Br2 to 2-pentene is 1680-1620.

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what important assumption did u make in the alloy part to determine the comosition of the al zn alloy

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The important assumption made in the alloy part to determine the composition of the Al-Zn alloy is that the two elements are present in the alloy in their atomic form.

Alloy

An alloy is a combination of two or more metals, or a metal and a non-metal. This means that an alloy is a mixture of two or more elements, at least one of which is a metal, that has metallurgical properties. An alloy is distinguished from a pure metal by its physical and chemical properties.

Aluminum-Zinc alloys, also known as Zincalume or Galvalume, are primarily made up of aluminum and zinc. The aluminum makes up about 55 percent of the alloy by weight, while the remaining 45 percent is made up of zinc. The alloy's composition will determine its mechanical, physical, and chemical properties. Zinc improves the alloy's strength and resistance to corrosion.The important assumption made in the alloy part to determine the composition of the Al-Zn alloy is that the two elements are present in the alloy in their atomic form.

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i need help since i don't get it ​

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1. The balanced chemical equation shows that 2 moles of H₂P react with 3 moles of CaCl₂ to produce 6 moles of HCI and 1 mole of Ca3P2.

To find the grams of HCI produced, we need to convert the given 70 g of H₂P into moles and then use stoichiometry to calculate the grams of HCI produced.

First, we need to determine the molar mass of H₂P, which is 63.98 g/mol. Therefore, 70 g of H₂P is equal to 1.093 moles of H₂P.

From the balanced chemical equation, 2 moles of H₂P react to produce 6 moles of HCI. Therefore, 1.093 moles of H₂P will produce 3.279 moles of HCI.

Finally, we can use the molar mass of HCI (36.46 g/mol) to convert moles of HCI to grams:

3.279 moles HCI × 36.46 g/mol HCI = 119.6 g HCI

Therefore, 70 g of H₂P will produce 119.6 g of HCI.

2. Following a similar approach, we can use stoichiometry to calculate the grams of Ca3P2 produced from 205 g of CaCl₂.

First, we need to determine the molar mass of CaCl₂, which is 110.98 g/mol. Therefore, 205 g of CaCl₂ is equal to 1.846 moles of CaCl₂.

From the balanced chemical equation, 3 moles of CaCl₂ react to produce 1 mole of Ca3P2. Therefore, 1.846 moles of CaCl₂ will produce 0.615 moles of Ca3P2.

Finally, we can use the molar mass of Ca3P2 (182.18 g/mol) to convert moles of Ca3P2 to grams:

0.615 moles Ca3P2 × 182.18 g/mol Ca3P2 = 111.8 g Ca3P2

Therefore, 205 g of CaCl₂ will produce 111.8 g of Ca3P2.

3. To calculate the grams of H3P needed to make 160 g of Ca₂P₂, we need to first balance the chemical equation for the reaction:

3CaH₂ + 2P → Ca₃P₂ + 2H₃

From the balanced chemical equation, we can see that 2 moles of P react with 3 moles of CaH₂ to produce 1 mole of Ca₃P₂ and 2 moles of H3P. Therefore, we can use stoichiometry to calculate the moles of H3P needed to produce 160 g of Ca₂P₂.

First, we need to determine the molar mass of Ca₂P₂, which is 100.12 g/mol. Therefore, 160 g of Ca₂P₂ is equal to 1.599 moles of Ca₂P₂.

From the balanced chemical equation, 1 mole of Ca₃P₂ is produced from 2 moles of P. Therefore, 1.599 moles of Ca₂P₂ will require 3.198 moles of P.

From the balanced chemical equation, 2 moles of H3P are produced from 2 moles of P. Therefore, 3.198 moles of P will produce 3.198 moles of H3P.

Finally, we can use the molar mass of H3P (33.99 g/mol) to convert moles of H3P to

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what is the optimal conditions for specimen transport, handling, and storage of specimens for clincal chemistry testing

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The optimal conditions for specimen transport, handling, and storage of specimens for clinical chemistry testing are as follows: Transport: Specimens must be transported promptly to the laboratory to minimize changes in composition and to ensure proper analysis. The ideal transportation temperature is between 2 and 8°C.

Chemical analyses should be completed within 24 hours after collection to ensure the quality of the specimen. Handling: Laboratory personnel must take precautions to avoid contamination and errors during handling. Gloves should be worn when handling blood or other potentially hazardous specimens. Storage: After collection, specimens must be appropriately labeled with the patient's name and other identifying information. Specimens should be kept at the appropriate temperature, which is usually between 2 and 8°C for most tests. If the test requires a different temperature range, the specimen should be kept at the appropriate temperature until testing is complete. The specimens must be kept secure, protected from light, and free from vibration, moisture, and heat. In summary, it is crucial to adhere to the optimal conditions for specimen transport, handling, and storage of specimens for clinical chemistry testing. It ensures that the analysis is accurate and reliable, and errors or contamination are avoided.

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help please asap <3 i need for chem class

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The pH that an acid will produce in solution will decrease the stronger the acid is. The negative logarithm of the concentration of hydronium ions is used to calculate pH.

What influences how strong acids and bases are?

An acid's relative strength can be anticipated based on its chemical composition. An acid is often more powerful when the H-A bond is more polar. Additionally, acidity increases with weaker H-A bonds and more stable conjugate bases like A.

What impact does an acid's or base's strength have on its conductivity?

Strong electrical conductivity indicates that an acid or base is a strong acid or base. A weak acid or base is one that conducts electricity only slightly. Demonstration of Acid and Base Conductivity: Using a light bulb equipment, the instructor will measure the conductivity of several solutions.

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what is the definition of partial pressure? question 3 options: the separate contribution of pressure by each individual gas comprising air the sum of the pressures contributed by each of the individual gases comprising air the solubility of a gas the difference of the contribution of nitrogen from oxygen in air

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The definition of partial pressure is the separate contribution of pressure by each individual gas comprising a mixture of gases.

In a mixture of gases, each individual gas exerts a pressure known as its partial pressure. The total pressure of the mixture is equal to the sum of the partial pressures of each gas in the mixture. This is known as Dalton's Law of Partial Pressures.

For example, in a mixture of air, which is primarily composed of nitrogen, oxygen, and small amounts of other gases, the partial pressure of nitrogen is the pressure that nitrogen would exert if it were the only gas present in the same volume. The same concept applies to oxygen and the other gases in the mixture.

Partial pressure is an important concept in various fields, including chemistry, physics, and biology. It is used to determine the concentration of gases in a mixture, the rate of gas diffusion, and the exchange of gases between different phases, such as in the lungs during respiration.

Therefore, option A is the correct definition of partial pressure.

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If a mixture of 15g of methane, CH4 and 52.5g of oxygen, O2 are ignited, carbon dioxide CO2, one of the products was collected and found the weight 24.75g. What is the percentage yield of the reaction? The chemical equation is: CH4+ 2O2----> CO2+ 2H2O (atomic mass: H=1 C=12 O=16)

Answers

The percentage yield of the reaction is 60%. To find the percentage yield of the reaction, we need to first calculate the theoretical yield of carbon dioxide (CO2).

How do you calculate percentage yield?

CH4 + 2O2 → CO2 + 2H2O From the equation, we see that 1 mole of CH4 reacts with 2 moles of O2 to produce 1 mole of CO2. Therefore, we need to calculate the moles of both CH4 and O2 in the given mixture and determine which reactant is limiting the reaction.

The molar mass of CH4 is 12 + 4(1) = 16 g/mol. Therefore, the number of moles of CH4 present in the mixture is:

15 g / 16 g/mol = 0.9375 mol

The molar mass of O2 is 2(16) = 32 g/mol. Therefore, the number of moles of O2 present in the mixture is:

52.5 g / 32 g/mol = 1.6406 mol

According to the balanced equation, 1 mole of CH4 reacts with 2 moles of O2 to produce 1 mole of CO2. Therefore, the maximum number of moles of CO2 that can be produced from the given amounts of CH4 and O2 is:

0.9375 mol CH4 × (1 mol CO2 / 1 mol CH4) = 0.9375 mol CO2

Since 1.6406 mol O2 is more than enough to react with the 0.9375 mol CH4, O2 is in excess and CH4 is the limiting reactant. Therefore, the theoretical yield of CO2 is:

0.9375 mol CO2 × (44 g/mol CO2) = 41.25 g CO2

Now we can calculate the percentage yield of the reaction:

Percentage yield = (actual yield / theoretical yield) × 100%

The actual yield of CO2 is given as 24.75 g. Therefore, the percentage yield is:

(24.75 g / 41.25 g) × 100% = 60%

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57.0 ml of 0.90 M solution of HCl was diluted by water. The pH of this diluted solution is 0.90. How much water was added to the original solution Insert your answer rounded to 3 significant figure. Answer:

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350 ml of water was added to 57.0 ml of 0.90 M solution of HCl.

Relationship between molarity and volume

Calculate the concentration of H⁺ ions from the given pH:
pH = -log[H⁺]
0.90 = -log[H⁺]
[H⁺] = 10⁻⁰⁹₂

[H⁺]  = 0.126 M

Since HCl is a strong acid that dissociates completely in water, the concentration of H⁺ ions in the diluted solution is equal to the molarity of HCl in the diluted solution.

Now, let’s use the relationship between molarity and volume to find the volume of water added to the original solution. Since the number of moles of solute remains constant when a solution is diluted, we can write:

M₁V₁ = M₂V₂

where M₁ and V₁ are the molarity and volume of the original solution

M₂ and V₂ are the molarity and volume of the diluted solution.

Substituting the known values into this equation, we get:

(0.90 M)(0.057 L) = (0.126 M)(V₂)

V₂ = (0.90 M)(0.057 L) / (0.126 M) = 0.407 L

Calculate the amount of water added:
Amount of water = V₂ - V₁

= 0.407 L - 0.057 L = 0.350 L

So, approximately 350 mL (rounded to three significant figures) of water was added to the original solution.

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At which step in Glycolysis would the cycle stop if not coupled to ATP hydrolysis?

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At step 1 Glycolysis would the cycle stop if not coupled to ATP hydrolysis.

• Response 1: Phosphorylation of glucose to glucose-6 phosphate.

• This response requires energy thus it is coupled to the

hydrolysis of ATP to ADP and Pi.

• Compound: hexokinase. It has a low Km for glucose; hence, once

glucose enters the cell, it gets phosphorylated.

• This step is irreversible. So the glucose gets caught inside the

cell. (Glucose carriers transport free glucose, as opposed to

phosphorylated glucose)

• Response 2: Isomerization of glucose-6-phosphate to fructose 6-

phosphate. The aldose sugar is changed over into the keto isoform.

• Protein: phosphoglucomutase.

• This is a reversible response. The fructose-6-phosphate is rapidly

consumed and the forward response is inclined toward.

• Response 3: is another kinase response. Phosphorylation of the

hydroxyl bunch on C1 framing fructose-1,6-bisphosphate.

• Compound: phosphofructokinase. This allosteric compound directs

the speed of glycolysis.

• Response is coupled to the hydrolysis of an ATP to ADP and Pi.

• This is the second irreversible response of the glycolytic pathway.

• Response 4: fructose-1,6-bisphosphate is parted into 2 3-carbon

atoms, one aldehyde, and one ketone: dihydroxyacetone

phosphate (DHAP) and glyceraldehyde 3-phosphate (Hole).

• The protein is aldolase.

• Response 5: DHAP and Hole are isomers of one another and can

promptly between convert by the activity of the protein triose-phosphate

isomerase.

• Hole is a substrate for the subsequent stage in glycolysis so all of the

DHAP is at last exhausted. In this way, 2 particles of Hole are framed

from every particle of glucose.

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in the fischer esterification, you will use one reagent in excess. what is the reagent and how will the excess be removed after the reaction? alcohol; removed by filtration through silica. carboxylic acid; removed by filtration through silica.

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In the Fischer esterification, you will use one reagent in excess. The reagent and the excess be removed after the reaction is alcohol ; removed by filtration through the silica.

In Fischer esterification reaction, the carboxylic acid will be dissolved in the alcohol that is therefore present in the large excess and with the catalytic drop of the strong, the non-nucleophilic acid, and the mixture is then heated. The reaction is the equilibrium with the small equilibrium constant and is then driven to the right as the alcohol is used in the excess.

The one equivalent of the water is produced and dissolves in the alcohol.

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At the normal resting potential of a typical neuron, its sodium-potassium exchange pump transports
3 intracellular sodium ions for 2 extracellular potassium ions

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The sodium-potassium exchange pump in a typical neuron moves 3 sodium ions from inside the cell to outside while transporting 2 potassium ions from outside to inside at the resting potential.

Most mammal cells, including neurons, have an enzyme called the sodium-potassium exchange pump in their membranes. It is in charge of preserving the gradients in sodium (Na+) and potassium (K+) ion content across the cell membrane, which are essential for healthy neural activity.

The exchange pump transports 2 potassium ions from the extracellular space into the intracellular space at the average neuron's quiescent potential while moving 3 sodium ions from the intracellular space to the extracellular space. This procedure uses ATP and aids in keeping the neuron's negative resting potential.

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Write a chemical equation showing Bromine reacting with Hydrogen Disulfide to produce Sulfur and
Hydrogen Monobromide (hydrobromic acid).

Answers

Answer:

Br2 + H2S => 2HBr + S

Explanation:

Br2 + H2S => 2HBr + S

Br = 2

H = 2

S = 1

How does resource availability effect the population of an ecosystem?

Answers

Explanation:

La dinámica demográfica es la principal fuerza conductora del cambio ambiental global, pues constituye una presión para ocupar cada vez más espacios, explotar más recursos, producir más alimentos, consumir más agua, contaminar más, utilizar más energía y emitir más gases de efecto invernadero

for each element, indicate the number of valence electrons, core electrons, and unpaired electrons in the ground state.a. Nitrogenb. Siliconc. Chlorine

Answers

Valence electrons in Nitrogen is 5, Silicon is 4 and Chlorine is 7; Core electrons in Nitrogen is 2 Silicon is 8 and Chlorine is 10; Unpaired electron in the ground state of Nitrogen is 1, Silicon is 0 and Chlorine is 1.

a. Nitrogen - The outermost shell of nitrogen consists of 2s2 2p3 electrons, of which the 2s2 electrons form the core electrons and the 2p3 electrons form the valence electrons. Since there are an odd number of electrons, one of the 2p electrons will be unpaired.

b. Silicon - The outermost shell of silicon consists of 3s2 3p2 electrons, of which the 3s2 electrons form the core electrons and the 3p2 electrons form the valence electrons. Since there are an even number of electrons, all of the 3p electrons will be paired.

c. Chlorine - The outermost shell of chlorine consists of 3s2 3p5 electrons, of which the 3s2 electrons form the core electrons and the 3p5 electrons form the valence electrons. Since there are an odd number of electrons, one of the 3p electrons will be unpaired.

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A dextrose solution with a mass of 200 g has 15.8g of dextrose dissolved in it what is the mass/mass percent concentration of the solution

Answers

Answer: I don’t know I just want the chemistry badge

Explanation:

2) which group in the periodic table would have an an ion of a -2 charge? chapter 9 problem set

Answers

An ion of -2 charge is found in the elements of group 16 (VI A) of the periodic table. This group is also known as the chalcogens or oxygen family.

What are ions? An ion is an atom or molecule that carries an electrical charge resulting from the loss or gain of one or more electrons. A positively charged ion is known as a cation, and a negatively charged ion is known as an anion. The ions that have a positive charge are formed when an atom loses an electron, whereas ions that have a negative charge are formed when an atom gains electrons.

Group 16 of the periodic table: Group 16 of the periodic table is also called the chalcogens or the oxygen family. It contains the elements O, S, Se, Te, and Po. These elements have six valence electrons in their outermost shell, and their electronic configuration is ns²np⁴, where n is the principal quantum number. These elements usually react with metals to form oxides, and with nonmetals to form polyatomic compounds. Charge of -2:An element with an ion charge of -2 will gain two electrons to achieve a stable electronic configuration. Since group 16 elements have six valence electrons, they only need two more to achieve a stable octet configuration. Therefore, the elements in group 16 can form an anion with a charge of -2.

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How many mL of a 0.320-molar solution of sucrose in benzene (density = 0.8787 g/mL) are needed to have 0.160 moles of sucrose?
(a) 500 mL
(b) 498 mL
(c) 438 mL
(d) 567 mL
(e) 219 mL

Answers

Answer:

(e) 219 mL

Step-by-step explanation:

The molar mass of sucrose is 342.3 g/mol.

The number of moles of sucrose needed is:

0.160 mol

Using the molarity equation, we can find the number of moles of sucrose present in 1 L of the solution:

0.320 mol/L = x mol/1000 mL

x = 0.320 mol/L × 1000 mL = 320 mol/mL

The mass of sucrose needed is:

0.160 mol × 342.3 g/mol = 54.77 g

Using the density equation, we can find the volume of the solution needed:

density = mass/volume

volume = mass/density = 54.77 g/0.8787 g/mL = 62.37 mL

Therefore, the answer is (e) 219 mL (rounded to the nearest whole number).
Final answer:

Using the concept of molarity, 0.160 moles of a 0.320-molar sucrose solution in benzene corresponds to 500 milliliters of the solution.

Explanation:

To solve for the volume of the sucrose solution in benzene, we apply the definition of molarity (M) which is moles of solute divided by liters of solution. Since we're dealing with molarity, it's important to note that the density of benzene isn't necessary for our calculation.

Using the molarity equation (M=moles/L), we substitute the given values. So, 0.320 M = 0.160 moles / volume in liters. When we rearrange the equation to solve for the volume, we find that volume = 0.160 moles / 0.320 M. Hence, the required volume is 0.5 liters. Given that 1 Liter = 1000 milliliters (mL), we find the answer to be 500 mL. Therefore, (a) 500 mL is the correct answer.

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what is the mass in grams of 4.21 x 1022 atoms of sulfur to the nearest tenth of a gram?

Answers

The final result, when rounded to the closest tenth of a gramme, is 2.2 g. (since the next digit after the tenths place is less than 5). Hence, 4.21 x 1022 sulphur atoms have a mass of 2.2 grammes.

How are atoms transformed into grammes and moles?

12 grammes of pure carbon-12 are equal to one mole of carbon-12 atoms, or 6.022 1023 atoms, which is the molecular weight. Avogadro's Number refers to the quantity of particles contained in one mole (6.0221421 x 1023).

We must utilise the atomic mass of sulphur, which is 32.06 g/mol, to get the mass of 4.21 x 1022 sulphur atoms. The following steps can be used:

Calculate the number of moles of sulfur:

moles of sulfur = number of atoms / Avogadro's number

moles of sulfur = 4.21 x 10²² / 6.022 x 10²³

moles of sulfur = 0.070 moles

Calculate the mass of sulfur in grams:

mass of sulfur = moles of sulfur x atomic mass of sulfur

mass of sulfur = 0.070 moles x 32.06 g/mol

mass of sulfur = 2.2422 g

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At constant pressure, which of these systems do work on the surroundings? Check all that apply.
a. 2A(g)+3B(g) --> 4C(g)
b. A(s)+B(g) --> 2C(g)
c. A(g)+B(g) --> 3C(g)
d. A(s)+2B(g) --> C(g)

Answers

b. A(s) + B(g) --> 2C(g). c. A(g) + B(g) --> 3C(g). d. A(s) + 2B(g) --> C(g). Systems that involve a change in the number of moles of gas can do work on the surroundings at constant pressure.

In the case of (b), (c), and (d), the number of moles of gas changes from the reactants to the products, resulting in a volume change and work being done on the surroundings. In contrast, system (a) has the same number of moles of gas on both sides of the equation, so it does not involve a volume change and does not do work on the surroundings at constant pressure.

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How many atoms of N , H , C , O , are contained in 0.250 moles of (nh4)2co3?

Answers

There are approximately [tex]3.011 * 10^{23}[/tex] atoms of N, [tex]4.817 * 10^{24}[/tex] atoms of H, [tex]1.505 * 10^{23}[/tex] atoms of C, and [tex]4.517 * 10^{23}[/tex] atoms of O in 0.250 moles of [tex](NH_4)_2CO_3[/tex].

The molecular formula of ammonium carbonate ([tex](NH_4)_2CO_3[/tex]) contains 2 nitrogen atoms (N), 8 hydrogen atoms (H), 1 carbon atom (C), and 3 oxygen atoms (O).

To determine the number of atoms in 0.250 moles of [tex](NH_4)_2CO_3[/tex], we can use Avogadro's number, which is [tex]6.022 * 10^{23}[/tex] atoms per mole.

Number of N atoms = 2 x Avogadro's number x 0.250 = [tex]3.011 * 10^{23}[/tex]atoms of N

Number of H atoms = 8 x Avogadro's number x 0.250 = [tex]4.817 * 10^{24}[/tex] atoms of H

Number of C atoms = 1 x Avogadro's number x 0.250 = [tex]1.505 * 10^{23}[/tex] atoms of C

Number of O atoms = 3 x Avogadro's number x 0.250 = [tex]4.517 * 10^{23}[/tex] atoms of O

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any compound that increases the number of hydronium ions when dissolved in water

Answers

Any compound that increases the number of hydronium ions when dissolved in water is called an acid.

The reality is that anything that raises the concentration of hydronium ions in a solution or causes the production of hydronium ions during its dissociation qualifies as an acid.

As a result, a substance can only dissociate, produce hydronium ions, and be classified as an acid when it is in aqueous solution.

The hydronium ion can form when an acid is present in water, even just in pure water. Its chemical name is H3O+. It can also be produced by the interaction of an H+ ion and an H2O molecule.

The trigonal pyramidal geometry of the hydronium ion is composed of three hydrogen atoms and one oxygen atom.

A proton from the Arrhenius acid molecules, also referred to as a positive hydrogen ion (H+), is transferred to the surrounding water molecules as the Arrhenius acid dissolves in the liquid.

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(ii) State the bond angle in a tetrahedral ion.
(iii) State and explain the shape of a molecule of ammonia.
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Answer:

iii: The NH3 molecule has the charge of either +1 or -3 and nitrogen needs three more molecules to complete its octet structure and each hydrogen needs one more

Explanation:

H

|

H- N-H, so as they complete Nitrogen by completing the lone pairs hydrogen also complete its octet structure by sharing the electrons already

at very low ctp concentrations, kinetic data fitted to the michaelis-menten equation predicts that the initial rate of the cct-catalyzed reaction is most nearly what order with respect to ctp?

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At very low CTP concentrations, kinetic data fitted to the Michaelis-Menten equation predicts that the initial rate of the CCT-catalyzed reaction is most nearly first-order with respect to CTP. This is due to the fact that at low CTP concentrations, the enzyme active sites are not fully saturated with substrate, and the reaction rate increases linearly with the concentration of the limiting substrate.

The Michaelis-Menten equation is a widely used model for enzyme kinetics that describes the relationship between substrate concentration and reaction rate. This equation is based on the assumption that the reaction is a simple two-step process involving the formation of an enzyme-substrate complex followed by the release of products. The initial rate of the reaction is dependent on the concentration of the substrate, the enzyme, and the rate constant for the reaction. By fitting experimental data to the Michaelis-Menten equation, it is possible to determine the kinetic parameters of the reaction, including the maximum reaction rate (Vmax) and the Michaelis constant (Km), which is a measure of the affinity of the enzyme for the substrate.

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benzyltriphenylphosphonium chloride molecular weight is ?

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The molecular weight of benzyl-triphenylphosphonium chloride is 388.87.

Benzyltriphenylphosphonium chloride (BTPPCl) is a quaternary ammonium salt that has three phenyl groups and one benzyl group attached to a central phosphorus atom.

Quaternary ammonium salts are organic compounds that have a central nitrogen atom that is bonded to four organic groups. They are commonly known as quats, and they are widely used as disinfectants, surfactants, and catalysts in the pharmaceutical, cosmetic, and food industries.

Benzyl is an organic compound that contains a phenyl group (C6H5) that is attached to a methyl group (CH2). It is commonly used as a solvent and as a starting material for the synthesis of other organic compounds

Phosphonium is an ion with a central phosphorus atom that is bonded to four organic groups. It is the phosphorus analog of ammonium (NH4+). Phosphonium salts are usually obtained by the reaction of phosphines with alkyl or aryl halides. They are used as precursors for the synthesis of organophosphorus compounds, such as phosphine ligands, catalysts, and reagents.

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Be sure to answer all parts. Give the IUPAC name for the following compound.(CH_3)_3CCH_2CH(CH_2CH_3)_2

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The IUPAC name for the given compound is 2,2-dimethylpentane. To name the compound using IUPAC nomenclature, we first identify the longest continuous carbon chain, which in this case is six carbons long.

We then number the chain in such a way that the substituents have the lowest possible numbers. In this case, we start numbering from the end closest to the branch, giving us a numbering of 2,2-dimethylpentane. The prefix "2,2-dimethyl" indicates that there are two methyl groups attached to the second carbon of the chain, while the suffix "pentane" indicates that the chain contains five carbons. The IUPAC naming system provides a systematic way to name organic compounds based on their molecular structure, allowing chemists to communicate.

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match each type of electrochemical cell with the appropriate description. for a voltaic cell for a voltaic cell drop zone empty. for an electrolytic cell for an electrolytic cell drop zone empty. work is done on the system in a(n) work is done on the system in a(n) drop zone empty. the system does work on the surroundings in a(n)

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For a voltaic cell DeltaG < 0. For an electrolytic cell DeltaG > 0. Work is done on the system in an electrolytic cell. The system does not work on the surroundings in a voltaic cell.

Voltаic cell is аn electrochemicаl cell thаt chаnges chemicаl energy to electricаl energy by the trаnsfer of electrons. In а voltаic cell, the drop zone is empty.

The electrolytic cell is аn electrochemicаl cell thаt uses electricаl energy to trigger а non-spontаneous redox reаction. In аn electrolytic cells, the drop zone is empty.

Work is done on the system in аn electrolytic cells. In аn electrolytic cell, the externаl energy source or bаttery drives the non-spontаneous reаction, which cаuses work to be done on the system. The system does work on the surroundings in а voltаic cell. In а voltаic cell, the spontаneous redox reаction releаses energy, аnd work is done on the surroundings by the system.

Your question seems incomplete. I could not find the exact question detail online, so I generally answered based on the keywords.

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what single reagent could you add that would allow you to differentiate between the members of each pair of solid compounds below? tell what happens to each substance when the reagent is added and write a balanced net ionic equation wherever a reaction occurs. you may use any reagent. (1pts) 1. hg2cl2 and hgcl2

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The reagent that could be added that would allow you to differentiate between the members of each pair of solid compounds below is the Sodium Thiosulfate (Na2S2O3) reagent.

Let's take a look at the process: Na2S2O3 can be used to distinguish between HgCl2 and Hg2Cl2. They react differently with Na2S2O3 due to the fact that they have different stabilities as mercuric and mercurous compounds. In the presence of HgCl2, Na2S2O3 quickly precipitates yellow-colored Hg2Cl2, which can be readily detected.

The balanced equation for this reaction is as follows:

HgCl2 (s) + Na2S2O3 (aq) → Hg2Cl2 (s) + NaCl (aq) + Na2S2O4 (aq)

Therefore, when Na2S2O3 reagent is added to HgCl2 and Hg2Cl2, Hg2Cl2 precipitates as a yellow-colored precipitate while HgCl2 does not form any precipitate.

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Question 9 2 pts What would you see when titrating if an indicator was not added? no color change would occur; it would not be clear when the equivalence point was reached a color change would still occur; it would not be clear when the equivalence point was reached a color change would still occur, the equivalence point would still be identifiable no color change would occur; the equivalence point would still be identifiable Question 6 4 pts In step 3 of Part A, suppose you add 50 mL of water instead of 75 mL to dissolve the KHP. Would this affect the overall outcome of your data? Why or why not? Hint: try to determine whether or not your calculations are affected by this change. outcome would not be affected; the only numerical data recorded in Part A is the volume of NaOH used outcome would not be affected; the calculation uses mass to determine moles of KHP in the solution outcome would be affected; the lower volume of water increases the volume of NaOH required to reach the end point outcome would be affected; the lower volume of water increased the number of moles of KHP in the flask

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If an indicator is not added during a titration, it becomes difficult to determine the endpoint of the reaction.

The endpoint is the point at which  reaction has been completed, and further addition of titrant does not result in any further reaction. Indicators are added to titrations to provide a visual indication of  endpoint, as they change color in response to changes in pH. Without an indicator, the endpoint of reaction would be difficult to determine, as there would be no visual cue to indicate that the reaction has been completed. This could result in over-titration or under-titration, leading to inaccurate results. Therefore, it is essential to add an appropriate indicator to a titration to ensure accurate and reliable results.

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--The complete question is,  What would you see when titrating if an indicator was not added? ---

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