For which of the following processes would there be a decrease in entropy?

A. Melting ice

B. Separation of a compound

C. Boiling water

D. Freezing water

i think it A. simple

It's either A or B, I hope this helped XD.

In metallic bonding, delocalized electrons move freely which allows metal atoms to slide past each other, making metals ductile due to the metallic bonding forces. This bond involves the attraction between positive metal ions and a sea of delocalized electrons, which also gives metals their conductive and other distinctive properties.

In metallic bonding, electrons move freely between neighboring atoms. This is often described by the 'sea of electrons' model where valence electrons are delocalized over the entire structure. Because these electrons are not attached to any one atom specifically, they allow the metal atoms to slide past each other without breaking the bond. Therefore, metals are not only malleable but also ductile. The ductility of metals is due to the delocalized electrons serving as a buffer, allowing the metal ions to slide past one another when a force is applied, without the crystal structure shattering like what occurs in the more brittle ionic compounds.

These properties are a consequence of the metallic bonding which involves the electrostatic attraction between the positive metal ions and the sea of delocalized electrons surrounding them. The free electron model of metals helps to explain their ability to conduct heat and electricity, as well as their high melting points and density due to the close packing of the positive nuclei and the strong bonding within the metal lattice.

Correct answers are

CO32-: Reactant  

H2O:  product

CO2:  product

The 2 in front of H+: Coefficient

Species that occur on the left hand side of the reaction equation are reactants while species that occur on the right hand side of a reaction equation are called products.

A chemical reaction involves the combination of two or more substances to form a new substance(s). Sometimes, a chemical reaction may involves the breaking up a substance into other substances.

Given the reaction;

2H+ + CO32- → H2O + CO2

2H+ and CO32- are reactants while H2O  and CO2 are products. The number 2 is a coefficient.

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Answer is: They are often amines.

For example, solution of methylamine (CH₃NH₂) in water.

Balnced chemical reaction:  

CH₃NH₂(aq)+ H₂O(l) ⇌ CH₃NH₃⁺(aq) + OH⁻(aq).

According to  Bronsted-Lowry theory acid are donor of protons and bases are acceptors of protons (the hydrogen cation or H⁺).

Methylamine (CH₃NH₂) is Bronsted base and it can accept proton and become conjugate acid (CH₃NH₃⁺).

Hey There!

aA => bB

[A]o  = 2.80*10⁻³ M

When drew  a plot  1 / [A]t versus time  resulted  a straight line inidicates  second order reation .

Therefore , Rate = K[A]²

Answer A

Hope that helps!

Answer:

The reaction is second order.

The rate law is:

[tex]Rate=K[A]^{2}[/tex]

Explanation:

The following plots and line shows the order of reaction

a) if we are getting a straight line in a plot with concentration versus time, the order of reaction is zero.

b) if we are getting a straight line in a plot with ln(concentration) versus time, the order of reaction is one.

c) if we are getting a straight line in a plot with inverse of concentration versus time, the order of reaction is two.

The reaction is second order.

The rate law is:

[tex]Rate=K[A]^{2}[/tex]

Answer: Option (D) is the correct answer.

Explanation:

When we write a chemical equation then reactants are written on left hand side and products are written on right hand side.

For example, [tex]SiH_{4} + 2O_{2} \rightarrow SiO_{2} + H_{2}O[/tex]

[tex]SiH_{4}[/tex] is the formula of silane. Here, both [tex]SiH_{4}[/tex] and [tex]2O_{2}[/tex] are the reactants. Whereas both [tex]SiO_{2}[/tex] and [tex]H_{2}O[/tex] are the products.

Hence, we can conclude that the chemical equation silane + oxygen [tex]\rightarrow[/tex] silicon dioxide + water, represents a chemical reaction.

Option D correctly represents the chemical reaction where silane and oxygen yield silicon dioxide and water as products.

The chemical reaction in which silane and oxygen are the reactants while silicon dioxide and water are the products is represented by option D: silane + oxygen → silicon dioxide + water. This reaction demonstrates the combination of silane (SiH4) with oxygen (O2) to form silicon dioxide (SiO2) and water (H2O), typical of a combusion reaction involving a silane compound. In a similar way, the reaction of cesium oxide react with water results in the formation of cesium hydroxide, and sulfur trioxide reacts with water to produce sulfuric acid, illustrating different chemical behaviors.

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Answer:

C)

Explanation:

In Chemistry, equilibrium means that in a system A + B ↔ C + D, both the reaction and the opposite reaction are happening at the same rate.

In the example, this would mean that C and D are being produced at the same rate that C and D convert into A and B. In other words, the concentration of both reactants and products remains constant.

Thus the answer is C.

There are two terms

a) accuracy : it relates to the exactness of an answer that how an answer is close to the actual answer or actual reading

So 104.6 is accurate

b) Precision : This is related to the closeness of different readings with each other

The first reading is 103.7 and the second one is 108.4  so the second reading is quite different from the first reading so it cannot be called as precised

Again 105.8 has good difference from the second reading hence again this is not precised

However the last reading 104.6 is quite near to 105.8 so 104.6 can be called as precise

105.8°C is the most precise measurement.

Actual temperature is 105.1°C and recorded values are:

By looking at values 105.8C is nearest to actual value. So it is precise one.

Hello!

To find the average atomic mass of boron, we need to use this formula:

Average Mass = (mass of isotope #1)(percent abundance) + (mass of isotope #2)(percent abundance) + ...

Before we use the formula, we need to convert the percentages into decimals. Remember that all percentages are out of 100, so, we divide the percent by 100 to get it into decimal form.

19.8 / 100 = 0.198

80.2 / 100 = 0.802

Average Mass = (10.013 amu)(0.198) + (11.009 amu)(0.802)

Average Mass = 1.98 amu + 8.83 amu

Average Mass = 10.81 amu

Therefore, the average atomic mass of boron is 10.81 amu.

10.8 amu is the atomic mass of boron.

Given:

The two isotopes of boron (B).

Boron-10 has an abundance of 19.8% and Boron -11 has an abundance of 80.2%

To find:

The atomic mass of europium.

Solution:

Mass of Boron-10 = 10.013 amu

The percentage abundance of Boron-10 = 19.8%

The fractional abundance of Boron-10 =0.198

Mass of Boron-11 = 11.009 amu

The percentage abundance of Boron-11= 80.2%

The fractional abundance of Boron-11= 0.802

The average atomic mass of Boron = A.M

[tex]A.M=\Sum{\text{Mass of isotope }\times \text{Fractional abundance of isotope}}\\=10.013 amu\times 0.198+ 11.009 amu\times 0.802=10.81 u\approx 10.8amu[/tex]

10.8 amu is the atomic mass of boron.

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it is b ...................

it is b no problem underwater

The speed of visible light  is equal to the speed of gamma rays.

Both visible light and gamma rays travel through  a vacuum with the same speed which is about 3.0 x 10⁸ meters per second. Both visible light and gamma rays are electromagnetic waves which travel through space with the speed of light which is 3.0 x 10⁸ m/s. The speed of light is the fastest speed possible, nothing travels faster than the speed of light .

The speed of visible light is the same as the speed of gamma rays in a vacuum, both traveling at the constant speed of approximately 3.00 × 108 m/s. This speed is a fundamental universal constant for all electromagnetic waves, independent of their wavelength or frequency.

When discussing the speed of visible light compared to the speed of gamma rays in a vacuum, they both travel at the same speed. This speed is a fundamental constant known as c, which is equal to 299,792,458 m/s, often approximated to 3.00 × 108 m/s. The differences between visible light and gamma rays arise from their wavelength and frequency, which in turn determine their energy levels, with gamma rays having a much shorter wavelength and higher energy compared to visible light. However, these differences do not affect their speed in a vacuum.

All electromagnetic waves, whether they are visible light or gamma rays, travel at this constant speed in a vacuum. This concept is a central part of Einstein's theory of relativity and underscores the fact that the speed of light in a vacuum is a universal physical constant, regardless of the motion of the source or the observer.

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AgNO3(aq) + NaCl(aq) = AgCl(s) + NaNO3  

MWt AgNO3 = 169.87; AgCl = 143.32  

From the eqn 169.87 g of AgNO3 yield 143.32 g of AgCl  

1.000g of AgNO3 yield 143.32/169.87 g of AgCl  

Hence 4.27 g will yield (143.32/169.87)×4.27 g of AgCl  

= 3.60 g of AgCl which is the theoretical yield.  

% yield = (2.56/3.60)× 100 = 71.1%  

A skilled chemist (e.g., Marie Curie) would get close to 100%.

A.  increase the temperature of the water the higher the temp the more soluble

Answer: Option (A) is the correct answer.

Explanation:

When we increase he temperature then the molecules of sugar ans water will start to vibrate with more energy.

As a result, sugar molecules will spread widely into the water and thus, they will start to dissolve. So, sugar molecules being polar in nature will dissolve easily in polar solve (water) as like dissolve like.

Thus, we can conclude that the action of increasing the water temperature would make sugar more soluble in water.

I guess you are asking what world should go at the beginning of the sentence. If I am right, it is energy.

Answer:

energy

Explanation:

21% oxygen can i be brainest pls

the percentage of oxygen in the air is 20.95%

nitrogen 78.09%

argon 0.93%

carbon 0.04%

water vapor 1%

The process of cell division is different in prokaryotes and eukaryotes as prokaryotes have a primitive cell structure which is not membrane bound. In eukaryotes the process of cell division is termed as mitosis. In prokaryotic cells like a bacterial cell, the cell divides by a process called binary fission, where each cell is cleaved into two identical cells each with its own chromosomal set.  Budding is process of asexual reproduction and is different from cell division.

Therefore, the correct answer will be a. binary fission.

Answer:  A.  It represents the beliefs of most scientists.

Explanation:

Scientific consensus can be define as opinion, judgement and belief in a particular field of scientific study proposed by the scientific community which involves researchers, and science scholars. The agreement of the large population for a same cause can be achieved by communicating about the topic over the conferences, replication or re-implementation of the scientific procedures so as to obtain data which can be accepted by the scientific community.

On the basis of the above explanation, A.  It represents the beliefs of most scientists. is the correct option.

Answer:

It represents the beliefs of most scientists

Explanation:

Explanation:

As it is known that volume of an irregular object cannot be measured because we cannot measure the volume of a curve.

As a result, if we immerse an irregular solid object into a beaker or container filled with water then the volume of water displaced by the object will be equal to the volume of object itself.

Hence, we get to know the volume of irregular solid object by doing so that is why, water displacement is an effective way of measuring the volume of an irregular solid.

Answer:   Knowledge gained by observation or measurement

Explanation: Empirical formula is the formula which is used to determine the basic molecular formula of any compound.

It is determine by the knowledge of the small small particularities of the elements present in the compound.

Thus emperical evidence is the knowledge gained by observation or measurement.

Answer is:  the percent by mass of benzoic acid in the powder is 18.41%.

1) Balanced chemical reaction:

C₆H₅COOH(aq) + NaOH(aq) → C₆H₅COONa(aq) + H₂O(l).

V(NaOH) = 35.3 mL ÷ 1000 mL/L.

V(NaOH) = 0.0353 L; volume of the sodium hydroxide.

c(NaOH) = 0.107 mol/L; molarity of the sodium hydroxide.

n(NaOH) = c(NaOH) · V(NaOH).

n(NaOH) = 0.0353 L · 0.107 mol/L.

n(NaOH) = 0.00378 mol; amount of the sodium hydroxide.

2) From balanced chemical reaction: n(NaOH) : n(C₆H₅COOH).

n(NaOH) = n(C₆H₅COOH).

n(C₆H₅COOH) = 0.0038 mol; amount of the benzoic acid.

M(C₆H₅COOH) = 122.12 g/mol; molar mass of the benzoic acid.

m(C₆H₅COOH) = n(C₆H₅COOH) · M(C₆H₅COOH).

m(C₆H₅COOH) = 0.0038 mol · 122.12 g/mol.

m(C₆H₅COOH) = 0.461 g; mass of the benzoic acid.

m(powder) = 2.505 g; mass of a powder.

ω(C₆H₅COOH) = m(C₆H₅COOH) ÷ m(powder) · 100%.

ω(C₆H₅COOH) = 0.461 g ÷ 2.505 g · 100%.

ω(C₆H₅COOH) = 18.41%; mass percentage of the benzoic acid in a powder.

To determine the percent by mass of benzoic acid in the powder, you can use the molar ratio between benzoic acid and sodium hydroxide as well as the concentration of the sodium hydroxide solution and the volume used. Once you have the number of moles of benzoic acid, you can calculate the mass percentage by dividing the mass of benzoic acid by the mass of the powder sample and multiplying by 100.

Benzoic acid is a weak acid that can be neutralized by sodium hydroxide. In this experiment, a 2.505 g sample of the powder required 35.3 mL of a 0.107M sodium hydroxide solution to neutralize the acid. The molar ratio between benzoic acid and sodium hydroxide is 1:1, so the number of moles of benzoic acid can be calculated using the concentration of sodium hydroxide and the volume used. From there, the mass percentage of benzoic acid in the powder can be determined by dividing the mass of benzoic acid by the mass of the powder sample and multiplying by 100.

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Use equation:  

PV = nRT  

1.4*V = 1*0.082057*332  

V = 27.24/1.4  

V = 19.46L  

Molar mass H2S = 2+32 = 34g/mol  

34g H2S has volume 19.46L  

Density = mass / volume = 34/19.46 = 1.75 g/L

In a Cl2 molecule, the two chlorine atoms share one pair of valence electrons, forming a single covalent bond. This bond is strong enough to keep the two atoms together as a diatomic molecule, which is the stable form of elemental chlorine at room temperature.

The atoms in a chlorine gas (Cl2) molecule share one pair of valence electrons. The type of covalent bond formed is a single covalent bond.

Chlorine (Cl) has an atomic number of 17, which means it has 17 protons in its nucleus and 17 electrons. The electron configuration of chlorine is [tex][Ne]3s^23p^5,[/tex] indicating that it has seven valence electrons in its outermost p orbital. To achieve a stable electron configuration, chlorine needs one more electron to complete its octet (eight electrons in the outer shell).

In a chlorine molecule (Cl2), two chlorine atoms come together and share their unpaired valence electrons to form a covalent bond. Each chlorine atom contributes one electron to the bond, resulting in a shared pair of electrons between the two atoms. This shared pair of electrons completes the octet for both chlorine atoms, making them more stable.

Since there is only one shared pair of electrons between the two chlorine atoms, the bond is classified as a single covalent bond. This is the weakest type of covalent bond, as it involves the sharing of only one pair of electrons. In contrast, double and triple covalent bonds involve the sharing of two and three pairs of electrons, respectively.

(102 900 ÷ 12) + (170 × 1.27) = 8800

Step 1. Evaluate the expressions inside the parentheses (PEMDAS)

102 900 ÷ 12 = 8575

170 × 1.27 = 215.9

In multiplication and division problems, your answer can have no more significant figures than the number with the fewest significant figures.

Thus, the underlined digits are not significant, but we keep them in our calculator to avoid roundoff error.

Step 2. Do the addition (PEMDAS).

   8575

+    215.9

= 8790.9

Everything that you add to an insignificant digit gives an insignificant digit as an answer.

Thus, the underlined digits are not significant.

We must drop them and round up the answer to 8800.

Answer:- 245 kPa.

Solution:- The pressure is given as 2.42 atm and we are asked to convert it to kPa. kPa stands for kilopascal.

1 atm = 101.325 kPa

We could use this conversion factor to convert given atm pressure to kPa as:

[tex]2.42atm(\frac{101.325kPa}{1atm})[/tex]

= 245 kPa

So, 2.42 atm pressure in kPa is 245.

The most accurate molecular model for the shape of a molecule is the space-filling model, which shows the 3D structure of a molecule based on VSEPR theory.

The type of molecular model that is most accurate to the shape of a molecule is the space-filling model. This model reflects the true 3D structure of the molecule, showing the atoms' relative positions as well as their relative sizes, based on valence shell electron pair repulsion (VSEPR) theory. VSEPR characterizes how electron groups are arranged around a central atom and how these arrangements affect the shape of the molecule. The space-filling model does not depict the bonds explicitly, in contrast with other models such as the ball-and-stick or the wedge-and-dash representations. Additionally, the molecular geometry can be predicted based on the number of electron groups and adjoining atoms, influencing factors like bond angles and the overall shape of the molecule.

A., Scientists have discovered new planets orbiting a star by detecting a wobble in the star's motions.

This is because the other questions are saying how scientists still have questions about certain things in space, while answer A is already a confirmed answer.

In 2 hours she traveled 0.2 km

The distance traveled by the girl for the given speed and time is 20 km.

The given parameters;

The distance traveled by the girl is the product of the time she spent in the journey and her speed during the journey.

Distance = speed x time

Distance = 10 km/hr  x 2 hr

Distance = 20 km

Thus, the distance traveled by the girl for the given speed and time is 20 km.

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Answer;

= C3H5

Explanation and solution;

1 mole of CO2 contains 44 g, of which 12 g are carbon

Thus, mass of carbon in 9.32 g will be;

(12/44) × 9.32 g = 2.542 g

Mass of Hydrogen in 3.18 g of water;

= (2/18) × 3.18 g = 0.353 g

we then find the number of moles;

Moles of carbon ; 2.542 /12 = 0.2118 moles

Moles of Hydrogen = 0.353 moles

The ratios of C ; H ;

= 1 :  0.353 /0.2118

= 1 : 5/3

= 3: 5

Therefore; the empirical formula of the hydrogen carbon is; C3H5

Mass of CO₂ = 9.32g

Molar mass of CO₂ = 44 g/mol

Mass of H₂O = 3.18 g

Molar mass of H₂O = 18 g/mol

Moles = mass/ molar mass

9.32 g CO₂ x (1 mol CO₂ / 44 g CO₂) = 0.2118 mol CO₂  

Every CO₂ molecule has 1 Carbon atom, therefore 0.2118 mol of CO₂ will have 0.2118 moles of C  

3.18 g H₂O x (1 mol H₂O / 18 g H₂O) = 0.177 mol H₂O  

In every H₂O molecule there are 2 atoms of H therefore 0.177 mol of H₂O will have 2 x 0.177 or 0.354 moles of H

Now the ratio of C : H  = 0.2118 : 0.354

To get the whole number we divide both numbers in the ratio by the lowest number.    

C : H  

= (0.2118/0.2118) : (0.354 / 0.2118)  

= 1:1 .67

Since we cannot round, we multiply by 3 to clear the fraction:  

C= 1 x 3 =3

H = 1.67 x 3 = 5

Thus the empirical formula is C₃H₅.

The concentration of Bromide from 115.91g of MgBr2 dissolved in 1.31L of water would be around 88558.78 parts per million (ppm).

The subject of your question is related to the concentration calculation in chemistry, specifically describing the parts per million (ppm) concept using the weight of a solute (MgBr2) and the volume of the solvent (water). The conversion involves the understanding of molarity and the usage of the molecular weight (the weight of one mole). In the case of MgBr2, its molar mass is 184.11 g/mol.

To calculate concentration in ppm, you need to use the following formula: (mass of solute/volume of solution) * 10^6. Here, the mass of the solute (MgBr2) is 115.91g and the volume of the solution is 1.31L. So, (115.91 g / 1.31 l) * 10^6 = 88558.78 ppm approximately.

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After dissolving 115.91g of MgBr2 in 1.31L of water, the resulting concentration of bromide ions would be approximately 76704 ppm.

The concentration of a solute in a solution is typically given in parts per million (ppm). The problem at hand is determining the concentration of bromide in a solution formed by dissolving 115.91 g of MgBr2 (magnesium bromide) in 1.31 L of water.

We first need to convert grams of MgBr2 to moles as moles are needed to calculate molarity. The molar mass of MgBr2 is approximately 184.11 g/mol. So, 115.91 g of MgBr2 is equivalent to approximately 0.63 moles of MgBr2.

Recall that MgBr2 will dissociate into Mg2+ and 2 Br- ions in the solution. So, the total moles of Br- in the solution will be 2 * 0.63 mol = 1.26 mol. We can then find the molarity (M) by dividing the total moles of Br- by the volume of the solution in liters. Hence, M = 1.26 mol / 1.31 L = 0.96 M.

Finally, to convert molarity to ppm, we'll multiply by the molar mass of bromide and by a thousand (to account for the definition of ppm). The molar mass of bromide (Br-) is approximately 79.90 g/mol. So, ppm = 0.96 M * 79.90 g/mol * 1000 = 76704 ppm.

Therefore, the concentration of bromide in the solution is 76704 ppm.

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A stable isotope has just the right number of neutrons for the number of protons (the n:p ratio) to hold the nucleus together against the repulsions of the protons.

A radioactive isotope has either too few or too many neutrons for the nucleus to be stable,

The nucleus will then emit alpha, beta, or gamma radiation in an attempt to become more stable.