Superheated steam at T 1 ( ° C ) T1(°C) and 20. 0 bar is blended with saturated steam at T 2 ( ° C ) T2(°C) and 10. 0 bar in a ratio (1. 96 kg of steam at 20 bar)/(1. 0 kg of steam at 10 bar). The product stream is at 250°C and 10. 0 bar. The process operates at steady state. Calculate T 1 T1 and T 2 T2, assuming that the blender operates adiabatically. If in fact heat is being lost from the blender to the surroundings, is your estimate of T 1 T1 too high or too low? Briefly explain

Answers

Answer 1

To solve this problem, we can use the conservation of mass and energy principles. The mass balance equation can be written as:

1.96 kg steam at 20 bar = x kg steam at T₁ and 20 bar + (1-x) kg steam at T₂ and 10 bar

Solving for x gives:

x = 0.9014

Therefore, 0.9014 kg of the total steam mass comes from the superheated steam stream, while the remaining 0.0986 kg comes from the saturated steam stream.

The energy balance equation can be written as:

(1.96 kg)(h₁) = (0.9014 kg)(h₁) + (0.0986 kg)(hf₂) + (product stream)

Solving for h₁, we get:

h₁ = 3449 kJ/kg

Similarly, solving for T₂ using the saturation table for steam at 10 bar gives:

T₂ = 179.9°C

To find T₁, we can use the steam tables to look up the enthalpy of superheated steam at 20 bar and use the energy balance equation to solve for T₁:

(1.96 kg)(3188 kJ/kg) = (0.9014 kg)(3449 kJ/kg) + (0.0986 kg)(hf(T₂)) + (product stream)

Solving for T₁ gives:

T₁ = 511.6°C

If heat is being lost from the blender to the surroundings, our estimate of T₁ would be too high. This is because if the system is losing heat, the energy balance equation would be incorrect since it assumes that all the energy input is used to heat up the steam. Thus, T₁ would be overestimated, and the actual value would be lower.

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Related Questions

Determine the mass of one atom of gold,Au.(molar mass of Au:196.97)g

Answers

1 atom Au multiplied by 196.96655g/mol x 1mol/6.022 x 1023 atoms equals 3 x 10-22g Au  

An element's molar mass equals its atomic weight. In the instance of gold, Au, the molecular mass per mole is 196.967 grams.

Au molar mass = 196.96655 g/mol Convert ounces au to moles or moles to au gold to grams Composition percentage by ingredient Determine an organic compound's molecular weight.

As per the given details, the mass of one atom of gold (Au) is approximately 3.27 x [tex]10^_{-22[/tex] grams.

We may use the molar mass of gold and Avogadro's number to calculate the mass of one gold atom (Au). The particle density of Avogadro's number, abbreviated "NA," is roughly 6.022 x [tex]10^{23[/tex] particles per mole.

It is given that,

Molar mass of gold (Au) = 196.97 g/mol

Mass of one atom of gold = (Molar mass of gold) / (Avogadro's number)

Mass of one atom of gold = (196.97 g/mol) / (6.022 x [tex]10^{23[/tex] particles/mol)

Mass of one atom of gold ≈ 3.27 x [tex]10^_{-22[/tex] grams

Thus, the molar mass is 3.27 x [tex]10^_{-22[/tex] grams.

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Based on reference table F describe the solubility of silver iodide in water

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Reference table F lists the solubility of various compounds in water at 25°C. According to the table, the solubility of silver iodide in water is 1.5 x 10⁻³ grams per 100 grams of water.

This means that at 25°C, 1.5 x 10⁻³ grams of silver iodide will dissolve in 100 grams of water.

Silver iodide is a sparingly soluble compound, which means that it has low solubility in water. This is due to the ionic nature of silver iodide, which results in strong attractive forces between the ions in the solid form.

As a result, only a small amount of silver iodide can dissolve in water, even at high temperatures. This low solubility has important implications for the use of silver iodide in various applications, including photography and cloud seeding.

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What percent of zinc in a 25.5 g sample of Zn³(PO4)?​

Answers

Explanation:

From periodic table:  

Zn = 65.38    gm/mole         X 3 =196.14  

P= 30.974

O = 15.999                           X 4 =63.996

Total mole wt = 291.11  gm     of which  196.14 is Zn

196.14 / 291.11 x 100% = 67% Zn

(NOTE that the sample mass of 25.5 g is irrelevant)

in xps the energy of the photoelectron is dependent on the binding energy of the sample. is this also true for an auger electron? explain why or why not.

Answers

In X-ray photoelectron spectroscopy (XPS), the energy of the emitted photoelectron is dependent on the binding energy of the sample. However, this is not necessarily true for an Auger electron.

In Auger electron spectroscopy (AES), an atom is ionized by an incident X-ray photon, and the resulting core hole is filled by an outer-shell electron. This process releases energy, which can be detected as an Auger electron. The energy of the Auger electron is dependent on the energy released in the filling of the core hole, rather than the binding energy of the sample.

The energy released in the filling of the core hole depends on the specific electronic configuration of the atom, rather than the binding energy of the sample. Therefore, the energy of an Auger electron is not necessarily dependent on the binding energy of the sample, but rather on the specific electronic transitions that occur during the Auger process.

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How do you identify a Lewis acid and base in a reaction?

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To identify a Lewis acid and base in a reaction, we might want to consider the steps below: :

Identify the reactants in the reaction.Determine the electron-pair donor and acceptor.Check for lone pairs of electrons. Consider the reaction mechanism.

What is a Lewis acid?

In any chemical reaction, a Lewis acid is described a specie that can accept a pair of electrons, while a Lewis base is a species that can donate a pair of electrons.

In conclusion, in order  to identify a Lewis acid and base in a reaction, we will need to identify the species that can accept or donate a pair of electrons and go ahead to determine which one is the electron-pair donor and acceptor.

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A sample is prepared by completely dissolving 10. 0 grams of NaCl in 1. 0 liter of H2O. Which classification best describes this sample?

(1) homogeneous compound

(2) homogeneous mixture

(3) heterogeneous compound

(4) heterogeneous mixture

Answers

The sample prepared by dissolving 10.0 grams of NaCl in 1.0 liter of H₂O is a homogeneous mixture, which is described by option (2).

A homogeneous mixture is a mixture that has a uniform composition and properties throughout the sample. In this case, the NaCl molecules have been completely dissolved in the water molecules, resulting in a clear, colorless solution.

The NaCl and water molecules are distributed evenly throughout the sample, and the composition and properties of the solution are uniform in all parts of the sample. As a result, the sample is a homogeneous mixture.

Option (1) cannot be correct because NaCl and H₂O are two distinct compounds that have different properties and characteristics. Therefore, they cannot form a single homogeneous compound.

Option (3) cannot be correct because a compound is a substance composed of two or more different elements that are chemically combined in a fixed ratio. NaCl is a compound, but H₂O is also a compound, and they cannot chemically combine to form a heterogeneous compound.

Option (4) cannot be correct because a heterogeneous mixture is a mixture that is not uniform in composition and properties throughout the sample. This is not the case for the NaCl and H₂O solution, which is a homogeneous mixture.

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which statement(s) regarding metal ion indicators in edta titrations is/are true? metal ion indicators are compounds that change color when they bind to a metal ion. useful indicators must bind the metal ion less strongly than edta does. metal ion indicators are also acid-base indicators.

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Metal ion indicators are compounds that change color when they bind to a metal ion. They are commonly used in EDTA (ethylene diamine tetraacetic acid) titrations, where EDTA acts as a chelating agent, binding to the metal ion to form a stable complex.

One important characteristic of a useful metal ion indicator is that it must bind the metal ion less strongly than EDTA does. This is because EDTA is typically added in excess to ensure complete complexation of the metal ion, and a strong metal ion indicator would compete with EDTA for the metal ion and interfere with the accuracy of the titration.

Metal ion indicators are not necessarily also acid-base indicators, but some can be both. In EDTA titrations, pH plays an important role in determining the stability of the metal-EDTA complex, so an indicator that can monitor pH changes as well as metal ion binding can be useful.

In summary, metal ion indicators are compounds that change color when they bind to a metal ion, and useful indicators must bind the metal ion less strongly than EDTA does.

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Identify the phrases that generally apply to molecular compounds a. Contain metals and non-metals b. Are often gases or liquids C. Have low melting points d. Contain ionic bonds e. Use covalent bonding

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Molecular compounds are compounds that generally contain non-metals and are often gases or liquids. These compounds usually have low melting points, which is due to their molecular nature. This type of compound is characterized by the use of covalent bonds to hold the atoms together.

Covalent bonds are formed when two atoms share the same electron, whereas ionic bonds are formed when one atom transfers electrons to another atom. This type of compound does not contain any metals, so the atoms form a molecular lattice structure instead of an ionic lattice structure.

The molecules created from covalent bonds are much more stable than those formed from ionic bonds, making them more likely to remain as gases or liquids. Molecular compounds are important components of many everyday materials, such as plastics and fabrics, and they play an important role in the chemical industry.

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a compound that converts a mixture of two enantiomers and diastereomers by reacting with them is called a

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A compound that can convert a mixture of two enantiomers and diastereomers by reacting with them is called a resolving agent.

Resolving agents are typically chiral compounds that have the ability to selectively interact with one enantiomer or diastereomer in a mixture, leading to the formation of a product that can be separated from the remaining unreacted enantiomer or diastereomer.

Resolving agents can be used in a variety of applications, such as in the synthesis of chiral compounds, the separation of racemic mixtures into their individual enantiomers, and the determination of the absolute configuration of chiral compounds. Common examples of resolving agents include enzymes, chiral metal complexes, and chiral organic molecules such as tartaric acid and its derivatives.

Overall, the use of resolving agents is an important tool in the field of stereochemistry, allowing for the manipulation and separation of chiral compounds in a wide range of applications.

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Which of the following will be more soluble in an acidic solution than in pure water?a. BaSO3b. Zn(OH)2c. CsCIO4d. PbSe. AgCI

Answers

The following will be more soluble in an acidic solution than in pure water is e. AgCl.

AgCl (silver chloride) would be more soluble in an acidic solution than in pure water. The solubility of AgCl in water is 0.00013 g/100 mL of water at 25 degrees Celsius, according to the solubility rules. Silver chloride solubility is influenced by the ion concentration in the solution, with higher ion concentrations resulting in greater solubility.

The solubility product constant, Ksp, of AgCl is very low, indicating that it is a sparingly soluble compound. When silver chloride is exposed to light, it decomposes into metallic silver and chlorine. The equation for the reaction is as follows:2 AgCl → 2 Ag + Cl2The other options that were given are not applicable to the given statement.

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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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Kim studies an African ecosystem. She draws a food web to show how energy moves through the ecosystem.

Diagram of a variety of African animals shown as a food web. Producers include Acacia bush, star grass, and red oat grass. Consumers include impala, wildebeest, Thomsons gazelle, warthog, zebra, mongoose, lions, hyena, and cheetahs. There is only one arrow from the acacia bush to the impala, three arrows from the red oat grass to the mouse, zebra, and wildebeest.

According to this diagram, loss of what producer would affect the fewest types of consumers?
A. mouse
B. mongoose
C. acacia bush
D. red oat grass

Answers

C. Acacia bush. The diagram shows that the acacia bush is only connected to the impala, so the loss of the acacia bush would only affect the impala consumer.

The other producers (star grass, red oat grass) are connected to multiple consumers, so the loss of these producers would affect more types of consumers.A huge genus of trees and shrubs of the pea family Fabaceae's subfamily Mimosoideae is known as Acacia bush, sometimes known as Wattles or Acacias. It originally consisted of a collection of plants with natural ranges across Africa and Australia. In food chains, consumers can be found alongside producers and decomposers, two additional groups. All plants are producers because they generate their own energy through photosynthesis using sunshine and nutrients. On the top trophic level of the food chain, plants are present.

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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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To begin today’s experiment you wash a 125 ml erlenmeyer flask and set up the experiment as show in figure 1. After allowing your water to boil for 10 minutes you remove the flask, clamp it and immerse it in water. After performing your calculations you see that your data is a little higher than everyone else’s. What is the probable source of the error?

Answers

One potential source of error could be a measurement error, either in the volume of water added or in the temperature of the water. Another potential source of error could be a problem with the calibration of the thermometer used to measure the temperature of the water.

However, one of the most likely sources of error in this case is the presence of air bubbles in the erlenmeyer flask during the experiment. Air bubbles can act as an insulator, trapping heat and preventing the water from reaching the same temperature as the rest of the water in the flask. This can result in an inaccurate measurement of the water's temperature and ultimately affect the calculation of the experimental data.

To reduce the impact of air bubbles in future experiments, it is recommended to ensure that the erlenmeyer flask is thoroughly cleaned and free of any debris or contaminants that may trap air bubbles. Additionally, carefully swirling the flask during the heating process can help to dislodge any trapped air bubbles and ensure that the water is evenly heated.

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what is the silver ion concentration, [ag ], for a saturated solution of ag2co3 if the ksp for ag2co3 is 8.44 x10-12?

Answers

The silver ion concentration [Ag] for a saturated solution of Ag2CO3, if the Ksp for Ag2CO3 is 8.44 10-12, is 7.30 10-6 M.

What is Ag2CO3?

Ag2CO3, or silver carbonate, is a chemical compound made up of silver, carbon, and oxygen. This inorganic compound is an important precursor for the production of silver-based materials. It is utilized in the creation of mirrors, glass coatings, and catalysts.

A chemical equation is used to describe the dissolution of Ag2CO3 in water, which leads to the creation of Ag+ ions and CO32- ions:

Ag2CO3(s) ⇌ 2Ag+(aq) + CO32−(aq)

What is Ksp?

The equilibrium constant for the solubility product, known as Ksp, is a measure of the tendency of a substance to dissolve in water. Ksp is the product of the concentrations of the dissolved ion powers in a solution, each raised to the power of their stoichiometric coefficients at the solubility equilibrium.

It is a temperature-dependent variable.

The solubility of a substance in water can be calculated using Ksp.

The formula for calculating the Ag2CO3 equilibrium constant is given below:

Ag2CO3(s) ⇌ 2Ag+(aq) + CO32−(aq)Ksp = [Ag+]^2 [CO32-]

Concentration of [Ag+] is 7.30 × 10^-6 M

The concentration of [CO32-] is 4.36  106 M since 2 moles of Ag+ ions are formed for every 1 mole of Ag2CO3 dissolved, and one mole of carbonate ions is produced.

Thus, [CO32-] = 0.5 × [Ag2CO3] = 0.5 × [Ag+]^2

The Ksp of Ag2CO3 is [tex]8.44 * 10^{12}[/tex]

The values can be substituted into the Ksp formula:

[Ag+]^2 × 0.5[Ag+]^2 = Ksp[Ag+]^4 = Ksp × 2/0.5[Ag+]^4 = 8.44 × 10^-12 × 2/0.5[Ag+]^4 = 3.38 × 10^-11[Ag+] = √(3.38 × 10^-11)[Ag+] = 7.30 × 10^-6 M

The silver ion concentration [Ag] for a saturated solution of Ag2CO3, if the Ksp for Ag2CO3 is 8.44  * 10^{12}, is 7.30  [tex]10^{6}[/tex] M

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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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45. a 250.0-ml buffer solution is 0.250 m in acetic acid and 0.250 m in sodium acetate. what is the initial ph of this solution? what is the ph after addition of 0.0050 mol of hcl? what is the ph after addition of 0.0050 mol of naoh?

Answers

The initial pH of the buffer solution is 4.76, the pH after the addition of 0.0050 mol of HCl is 4.63, and the pH after the addition of 0.0050 mol of NaOH is 4.89.

What is buffer solution?

A buffer solution contains a weak acid and its corresponding salt, or a weak base and its corresponding salt. A buffer solution maintains a stable pH when an acid or a base is added to it. The following are the steps to solve the given problem.

The initial pH of a buffer solution can be calculated by the Henderson-Hasselbalch equation.

pH = pKa + log [A-]/[HA]pKa of acetic acid is 4.76A- = concentration of acetate ion = 0.250 mM HA = concentration of acetic acid = 0.250 mm pH = 4.76 + log [0.250]/[0.250]pH = 4.76

The addition of HCl will consume the acetate ions and increase the concentration of H+. The new buffer concentration will have a lesser concentration of acetate ion than the acetic acid, and the pH will decrease. Let x be the change in concentration of acetate ion, and 0.0050 - x be the new concentration of acetate ion.

The concentration of acetic acid is 0.250 M. After calculating x, the new pH can be calculated.

pH = pKa + log [A-]/[HA]x = 0.0050 mol/L of acetate ion consumed.

The concentration of the remaining acetate ion

= 0.250 - x0.250 - x = 0.2450 mol/L of acetate ion remaining [H+] = 0.0050 mol/L HCl added.

initial pH = 4.76

New pH = pKa + log [A-]/[HA] = 4.76 + log [0.2450]/[0.250] + log [0.0050]/[0.2450]

New pH = 4.63

The addition of NaOH will consume H+ ions and generate acetate ions. The new buffer concentration will have a greater concentration of acetate ion than the acetic acid, and the pH will increase.

Let y be the change in concentration of H+ ion, and 0.0050-y be the new concentration of H+ ion. The concentration of acetate ion is 0.250 M. After calculating y, the new pH can be calculated.

pH = pKa + log [A-]/[HA]y = 0.0050 mol/L of H+ ion consumed.

The concentration of the remaining H+ ion = 0.0050 - y0.250 + y = 0.2550 mol/L of acetate ion remaining[OH-] = 0.0050 mol/L NaOH added

initial pH = 4.76

New pH = pKa + log [A-]/[HA] = 4.76 + log [0.2550]/[0.250] - log [0.0050]/[0.2550]

New pH = 4.89

Therefore, the initial pH of the buffer solution is 4.76, the pH after the addition of 0.0050 mol of HCl is 4.63, and the pH after the addition of 0.0050 mol of NaOH is 4.89.

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

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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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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:

Answers

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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suppose you mix 100.0 g of water at 24.9 oc with 75.0 g of water at 76.4 oc. what will be the final temperature of the mixed water, in oc?

Answers

The final temperature of the mixed water after heat transfer is 46.9°C.

We can use the formula that gives the final temperature after mixing two different temperatures of water.

Using the formula for mixing different temperatures of water:

Q = mC∆T, where m is the mass of water, C is the specific heat of water,  ∆T is the temperature difference between the initial and final temperature of the water after mixing, and Q is the heat transferred.

Then, Q₁ = Q₂ using the formula above.

The final temperature of the mixed water is determined by the equation:

T = (m₁*T₁ + m₂*T₂)/(m₁ + m₂).

In this case, the mass of the first water is 100.0 g and its temperature is 24.9°C, and the mass of the second water is 75.0 g and its temperature is 76.4°C. Therefore, the final temperature is calculated as follows:

T = (100.0 g * 24.9°C + 75.0 g * 76.4°C) / (100.0 g + 75.0 g)

T = (2490 g * °C + 5730 g * °C) / (175.0 g)

T = (8220 g * °C) / (175.0 g)

T = 46.9°C


Therefore, the temperature is 46.9°C.

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Draw a graph of number of electrons in the halogen molecule against the boiling point of the halogen

Answers

A halogen molecule's molecular weight, which is defined by the number of electrons and other atomic characteristics, is closely connected to the boiling point of the molecule. The boiling point of a molecule rises with molecular mass.

What is the halogens' pattern of melting and boiling points?

Going down group 7, the halogens' melting and boiling points rise. This is due to the bigger molecules as you move down to group 7. Stronger intermolecular forces develop.

What is the pattern of halogens' boiling points?

Fluorine's boiling point of -188°C, Chlorine's of -34.6°C, Bromine's of 58.8°C, and iodine's of 184°C, as well as the trend in melting temperatures, are explained by the strengthening intermolecular interactions that bind the halogen molecules together.

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what is the expected chemical shift of an alphatic ketone?

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The expected chemical shift of an aliphatic ketone in a proton NMR spectrum is around δ 2.0-2.3 ppm.

The chemical shift is the location on the ppm scale that indicates the magnetic environment of a proton in a molecule. It is dependent on several factors, such as electron density, hybridization state, and neighboring atoms. In aliphatic ketones, the carbonyl group (C=O) usually appears in the region of δ 2.0-2.3 ppm.

This chemical shift results from the deshielding effect of the carbonyl group, which withdraws electron density from the carbon and its attached protons. The deshielding effect dominates over any shielding effect from the alkyl groups attached to the carbonyl carbon. As a result, the carbonyl proton has a higher chemical shift compared to other protons in the molecule.

Other protons in the molecule may have different chemical shifts, depending on their environment. The actual chemical shift value of the carbonyl proton may vary slightly, depending on the specific compound's structure and the experimental conditions.

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Who can answer these for me?

Answers

Answer:

1. chlorine

2. hydrogen sulfide

3. phosphorus pentoxide

4. Oxygen difluoride

5. Phosphorus trichloride

6.Phosphorus pentoxide

7.Carbon disulfide

8.Nitrogen dioxide

9. Carbon monoxide

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:

Answers

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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what is periodic table

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Answer:

The periodic table, in full periodic table of the elements, in chemistry, the organized array of all the chemical elements in order of increasing atomic number—i.e., the total number of protons in the atomic nucleus. When the chemical elements are thus arranged, there is a recurring pattern called the “periodic law” in their properties, in which elements in the same column (group) have similar properties. The initial discovery, which was made by Dmitry I. Mendeleyev in the mid-19th century, has been of inestimable value in the development of chemistry.

It was not actually recognized until the second decade of the 20th century that the order of elements in the periodic system is that of their atomic numbers, the integers of which are equal to the positive electrical charges of the atomic nuclei expressed in electronic units. In subsequent years great progress was made in explaining the periodic law in terms of the electronic structure of atoms and molecules. This clarification has increased the value of the law, which is used as much today as it was at the beginning of the 20th century, when it expressed the only known relationship among the elements.

Explanation:

is a table of the chemical elements arraged in order of atomic number

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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if 5.0 moles of sulfur dioxide react with 64 grams of oxygen and excess water, how many moles of sulfuric acid are produced

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So the number of moles of H₂SO₄ produced is also 5.0 moles. Therefore, the answer is 5.0 moles of sulfuric acid.

To find the number of moles of sulfuric acid produced, we must first identify the chemical equation for the reaction between sulfur dioxide and oxygen to produce sulfuric acid.A balanced chemical equation for the reaction between sulfur dioxide and oxygen to produce sulfuric acid is as follows:

2SO₂(g) + O₂(g) + 2H₂O(l) → 2H₂SO₄(l)

From the equation above, we can see that the mole ratio of SO₂ to H₂SO₄ is 2:2 or 1:1, which means that for every mole of SO₂ that reacts, we produce one mole of H₂SO₄.

We are given that 5.0 moles of SO₂2 react, so the number of moles of H₂SO₄ produced is also 5.0 moles. Therefore, the answer is 5.0 moles of sulfuric acid.

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Why is it important to keep the NaOH solution stoppered at all times when it is not in use? oro To stop the Na OH solution occur the heat reaction with H2CO3, so the Naot solution can keen the best quality when we use it.

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It is important to keep NaOH solution stoppered at all times when it is not in use because NaOH is a strong base that readily reacts with carbon dioxide (CO2) in air to form sodium carbonate (Na2CO3).

This reaction is exothermic, meaning that it releases heat, and it can also cause the solution to lose its concentration over time. By keeping the NaOH solution stoppered, exposure to air and carbon dioxide is minimized, which helps to maintain the purity and concentration of solution. In addition, the presence of sodium carbonate can interfere with many chemical reactions, so it is important to minimize its formation in the NaOH solution. Therefore, proper storage of NaOH solution is essential to maintain its quality.

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nh3 is a weak base ( b=1.8×10−5 ) and so the salt nh4cl acts as a weak acid. what is the ph of a solution that is 0.079 m in nh4cl at 25 °c?

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The pH of the 0.079 M NH4Cl solution at 25°C is approximately 5.54.

To find the pH of a 0.079 M NH4Cl solution at 25°C, we will first find the H3O+ concentration using the weak acid dissociation constant (Ka) for NH4+.

1. Write the dissociation equation for NH4+:

NH4+ (aq) ↔ NH3 (aq) + H3O+ (aq)

2. Determine the Ka for NH4+ using the relationship between Kb (1.8 × 10⁻⁵) and Kw (1.0 × 10⁻¹⁴):

Ka = Kw / Kb = (1.0 × 10⁻¹⁴) / (1.8 × 10⁻⁵) ≈ 5.56 × 10⁻¹⁰

3. Set up an ICE table to find the equilibrium concentrations of the species:

  NH4+    NH3   H3O+
I: 0.079    0     0
C: -x       +x    +x
E: 0.079-x  x     x

4. Write the Ka expression and substitute equilibrium concentrations:

Ka = (x × x) / (0.079 - x)

5. Since Ka is very small (5.56 × 10⁻¹⁰), we can assume that x is much smaller than 0.079, so we can simplify the expression:

Ka ≈ (x × x) / 0.079

6. Solve for x, which represents the H3O+ concentration:

x = √(Ka × 0.079) = √(5.56 × 10⁻¹⁰ × 0.079) ≈ 2.90 × 10⁻⁶

7. Calculate the pH using the formula pH = -log[H3O+]:

pH = -log(2.90 × 10⁻⁶) ≈ 5.54

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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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