A 60.2-ml sample of hg (density = 13.6 g/ml) contains how many atoms of hg?

The rate of heat conduction through a composite cylindrical wall and a window can be determined using the formula: Q = (k * A * △T) / d. By comparing the rates of heat conduction for the wall and the window, we can determine which material conducts heat more efficiently.

The rate of heat conduction can be determined using the formula:

Q = (k * A * △T) / d

where Q is the rate of heat conduction, k is the thermal conductivity, A is the area, △T is the temperature difference, and d is the thickness of the material.

For the first scenario, the wall with a thermal conductivity twice that of glass wool, let's assume the thermal conductivity of glass wool is ka. So, the thermal conductivity of the wall is 2 * ka. The thickness of the wall is 13.0 cm and the area is 10.0 m². Since the temperature difference is the same for both scenarios, we can calculate the rate of heat conduction for the wall.

For the second scenario, the window with a thickness of 0.750 cm and an area of 2.00 m², we can calculate the rate of heat conduction using the given formulas and values.

By comparing the two rates of heat conduction, we can determine which material conducts heat more efficiently.

Answer:

A. Organic

Explanation:

The mass of fluoride ion in sodium fluoride, sodium fluorosilicate, and fluorosilicic acid in 100.0-lb containers is calculated using the molecular weight and the weight percentage of fluoride in each compound, and it is found to be 45 kg, 47 kg, and 46 kg respectively.

To calculate the mass of fluoride ion (F-) in a 100-lb container of each of these compounds, we need to first convert the mass from pounds to kilograms: 1lb = 0.4536 kg. Therefore, 100lb = 45.36 kg. Then, calculate the molar mass of each of these three compounds:

The proportion of fluoride ion in each compound is calculated by dividing the molar mass of F by the total molar mass of the compound:

Therefore, a 100-lb container of sodium fluoride contains approximately 20.45 kg, sodium fluorosilicate 27.46 kg, and fluorosilicic acid 35.78 kg of fluoride ion.

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Larger gases like Neon produce more color bands (line spectra) than smaller gases like Hydrogen because they have more energy levels and therefore more possible electronic transitions. The number of color bands in a line spectrum is determined by the number of possible electronic transitions.

When a gas is heated, it emits light in the form of a line spectrum. The line spectrum consists of discrete, colored lines that correspond to specific wavelengths of light. Larger gases like Neon produce more color bands (line spectra) than smaller gases like Hydrogen because larger atoms have more energy levels and therefore more possible electronic transitions.

For example, Neon has ten electrons and its line spectrum consists of several distinct lines in the visible range, including red, orange, and blue. In contrast, Hydrogen has only one electron and its line spectrum consists of four distinct lines, called the Balmer series, with wavelengths in the red, green, blue, and violet regions of the spectrum.

Therefore, the number of color bands in a line spectrum is determined by the number of possible electronic transitions, which is higher for larger gases due to their larger number of energy levels.

The theoretical yield of Cu in the reaction [tex]{\text{C}}{{\text{u}}_{\text{2}}}{\text{S}}+{{\text{O}}_2}\to2{\text{Cu}}+{\text{S}}{{\text{O}}_2}[/tex] is [tex]\boxed{{\text{4 g}}}[/tex]  

Further Explanation:

Stoichiometry of a reaction is used to determine the amount of species present in the reaction by the relationship between the reactants and products. It can be used to determine the moles of a chemical species when the moles of other chemical species present in the reaction is given.

Consider the general reaction,

 [tex]{\text{A}}+2{\text{B}}\to3{\text{C}}[/tex]

Here,

A and B are reactants.

C is the product.

One mole of A reacts with two moles of B to produce three moles of C. The stoichiometric ratio between A and B is 1:2, the stoichiometric ratio between A and C is 1:3 and the stoichiometric ratio between B and C is 2:3.

The given reaction is,

 [tex]{\text{C}}{{\text{u}}_{\text{2}}}{\text{S}}+{{\text{O}}_2}\to2{\text{Cu}}+{\text{S}}{{\text{O}}_2}[/tex]

• On reactant side,

Number of copper atoms is 2.

Number of sulfur atom is 1.

Number of oxygen atoms is 2.

• On the product side,

Number of copper atoms is 2.

Number of sulfur atom is 1.

Number of oxygen atoms is 2.

The number of atoms of all the species in both the reactant and the product side is the same. So above reaction is balanced. The stoichiometry of the balanced reaction indicates that 1 mole of [tex]{\text{C}}{{\text{u}}_{\text{2}}}{\text{S}}[/tex] reacts with 1 mole of [tex]{{\text{O}}_2}[/tex] to form 2 moles of Cu and 1 mole of [tex]{\text{S}}{{\text{O}}_2}[/tex] .

The formula to calculate the number of moles of [tex]{\text{C}}{{\text{u}}_{\text{2}}}{\text{S}}[/tex] is as follows:

[tex]{\text{Moles of C}}{{\text{u}}_{\text{2}}}{\text{S}}=\frac{{{\text{Given mass of C}}{{\text{u}}_{\text{2}}}{\text{S}}}}{{{\text{Molar mass of C}}{{\text{u}}_{\text{2}}}{\text{S}}}}[/tex]                                               ......(1)

The given mass of [tex]{\text{C}}{{\text{u}}_{\text{2}}}{\text{S}}[/tex] is 5 g.

The molar mass of [tex]{\text{C}}{{\text{u}}_{\text{2}}}{\text{S}}[/tex] is 159.16 g/mol.

Substitute these values in equation (1)

[tex]\begin{aligned}{\text{Moles of C}}{{\text{u}}_{\text{2}}}{\text{S}}{\mathbf{&=}}\left( {5\;{\text{g}}}\right)\left({\frac{{{\text{1}}\;{\text{mol}}}}{{{\text{159}}{\text{.16}}\;{\text{g}}}}}\right)\\&=0.0314\;{\text{mol}}\\\end{aligned}[/tex]

According to the stoichiometry, 1 mole of [tex]{\text{C}}{{\text{u}}_{\text{2}}}{\text{S}}[/tex] react with 1 mole of [tex]{{\text{O}}_2}[/tex] to form 2 moles of Cu.

So the number of moles of Cu formed by 0.0314 moles of [tex]{\text{C}}{{\text{u}}_{\text{2}}}{\text{S}}[/tex] is calculated as follows:

[tex]\begin{aligned}{\text{Moles of Cu}}{\mathbf{&=}}\left(2\right)\times\left( {0.0314}\right)\\&=0.0628\;{\text{mol}}\\\end{aligned}[/tex]

The formula to calculate the mass of Cu is as follows:

[tex]{\mathbf{Mass\:of\:Cu=}}\left({{\mathbf{Moles\:of\:Cu}}}\right){\mathbf{\times}}\left( {{\mathbf{Molar\:mass\:of \:Cu}}}\right)[/tex]  ......(2)

The moles of Cu are 0.0628 mol.

The molar mass of Cu is 63.546 g/mol.

Substitute these values in equation (2)

[tex]\begin{aligned}{\text{Mass of Cu}}&=( {0.0628\text{ mol})\times\left(\dfrac{63.546\text{ g}}{1\text{ mol}}\right)\\&={\text{3}}{\text{.99 g}}\\&\approx {\text{4 g}}\\\end{aligned}[/tex]

So the theoretical yield of Cu during the reaction is 4 g.

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Answer details:

Grade: High School

Subject: Chemistry

Chapter: Mole concept

Keywords: stoichiometry, Cu2S, Cu, O2, Cu2S, moles, A, B, C, theoretical yield, 4g, molar mass, reactants, products, 0.0314 moles, 0.0628 moles, copper, sulfur, oxygen.

Answer: Option (d) is the correct answer.

Explanation:

An equation will be said balanced equation when there are equal number of atoms on both reactant and product side.

For example, [tex]PCl_{5} + 4H_{2}O \rightarrow 5HCl + H_{3}PO_{4}[/tex]

Number of atoms on reactant sides are as follows.

P = 1

Cl = 5

H = 8

O = 4

Number of atoms on product side are as follows.

P = 1

Cl = 5

H = 8

O = 4

Thus, there are equal number of atoms on both reactant and product side. Hence, this equation is balanced.

The astrophysicist who had the first advance idea that the chemical elements origanted are from the hydrogen in the stars is Hubert Reeves. He was a French and Canadian astrophycist in which is also responsible of proposing the idea given in the statement above as he was concluding his studies and researches in regards with hydrogen and helium.

Answer:

table salt (NaCl) - I

TNT (C7H5N3O9) - O

glucose (C6H12O6) - O

2, 4-D (C3H6O3Cl2) - O

limestone (CaCO₃) - I

water (H₂O) - I

hope it helps :)

Answer:

65 g of nitrous oxide contain 2.96 moles of nitrogen.

Explanation:

Given data:

mass of N₂O = 65 g

moles of nitrogen = ?

Solution:

First of all we will calculate the moles of N₂O.

number of moles = mass / molar mass

number of moles = 65 g/ 44.01 g/mol

number of moles = 1.48 mol

One mole of nitrous oxide contain two mole of nitrogen.

we will multiply the moles of nitrous oxide with two.

1.48 mol × 2 = 2.96 moles

So 65 g of nitrous oxide contain 2.96 moles of nitrogen.

Answer: Probability that the shipment is accepted is 92.45%.

Step-by-Step Explanation:

Since we have given that

Number of total pens = 20

Probability of defective pens = 5%

Probability of good pens = 95%

We need to find the probability that the shipment that yields no more than two defective pens.

So, we will use "Binomial distribution:

[tex]P(x\leq 2)=P(x=0)+P(x=1)+P(x=2)\\\\P(x\leq 2)=0.95^{20}+^{20}C_1(0.5)(0.95)^{19}+^{20}C_2(0.05)^2(0.95)^{18}\\\\P(x\leq 2)=0.9245=92.45\%[/tex]

Hence, Probability that the shipment is accepted is 92.45%.

Answer: Option (D) is the correct answer.

Explanation:

It is known that 1 centimeter contains 10 millimeter. Therefore, unit millimeter (mm) is smaller than centimeter (cm).

So, when different substances were dissolved in water then according to the given chart, substance which shows smallest number in millimeters will have the greatest solubility.

Thus, we can conclude that substance Z has the greatest solubility.

Answer:

D)Substance Z has the greatest solubility.

Explanation:

As Tanya actually put the same amount of subtances in the same amount of water, the leftovers that settled at the bottom of each test tube were the amount of that given substance that couldn´t dissolve in the water, so the one that has the least amount of substance settled in the tube is the one with the greatest solubility, as substance Z had only 0.1 mm left, that is the one with the greatest solubility.

Answer:

I got The combined gas law combines the three gas laws: Boyle's Law, Charles' Law, and Gay-Lussac's Law. It states that the ratio of the product of pressure and volume and the absolute temperature of a gas is equal to a constant. When Avogadro's law is added to the combined gas law, the ideal gas law results.

Answer: The given statement is False.

Explanation:

Electronegativity is defined as the tendency of an element to attract a shared pair of electron towards itself.

Electronegativity increases across a period as the atomic number of the elements increases. This happens because the size of an atom decreases on moving across the period. This is so, the electrons get added to the same shell and the nuclear charge keeps on increasing. So, the electrons get more tightly held by the nucleus.

As, the size of an element decreases, the valence electrons come closer to the nucleus or the attraction of the valence electrons increases to the nucleus.

Electronegativity decreases down the group because the size of an atom increases as we move down the group as new shell is added and electron gets added up in the new shell. As, the size of an element increases, the valence electrons gets far away from the nucleus. So, the attraction between the nucleus and the shared pair of electrons decreases.

As we know, atomic number increases across a period and also on moving down the group.

So, the trend of electronegativity is not continuous because on moving down the group, it decreases and on moving across a period, it increases.

Hence, the given statement is False

Electronegativity does not increase continuously with atomic number; it increases from left to right across a period due to nuclear charge but decreases from top to bottom in a group due to increased atomic size.

The statement that electronegativity increases continuously as atomic number increases is false. Electronegativity does increase from left to right across each period, mainly due to the increase in nuclear charge. For example, fluorine has a higher electronegativity than carbon because it has more protons, which exert a greater pull on electrons. However, electronegativity decreases as you move down a group, because the atomic size increases, making the nucleus less effective at pulling bonding electrons. This is exemplified by halogens like fluorine (F) having a higher electronegativity than chlorine (Cl), bromine (Br), and iodine (I) as the atom size increases down the group. Additionally, periodic trends indicate that electronegativity and radius typically decrease towards the upper left of the periodic table. The size of an atom is inversely related to electronegativity, with larger atoms exhibiting lower electronegativity.

Answer:

The given alkene is in the Z configuration. The bromination will result in the formation of 2,3 Dibromo 3 methyl pentane.

Explanation:

E and Z forms of the isomers are the configuration in which the polarity of groups on different sides of the double bond is different.

When the polar groups are on the opposite side of the double bond, it results in a Z isomer. When the polar groups are on the same side of the double it results in an E isomer.

The given figure is of [tex]\rm CH_3-CH=CH-CH_2-CH_2[/tex]

There is the presence of polar groups on the opposite side of the isomer. The molecule posses Z isomer.

The bromination of the molecule will result in the formation of 2,3 dibromo-3 methyl pentane.

The image for the bromination is attached below.

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Answer : The number of carbon atoms present in isopropyl alcohol is, [tex]7.51\times 10^{23}[/tex]

Solution : Given,

Mass of isopropyl alcohol = 25 g

Molar mass of isopropyl alcohol = 60 g/mole

In isopropyl alcohol molecule, there are 3 carbon atoms and 8 hydrogen atoms and 1 oxygen atom present.

First we have to calculate the moles of isopropyl alcohol.

[tex]\text{Moles of }C_3H_8O=\frac{\text{Mass of }C_3H_8O}{\text{Molar mass of }C_3H_8O}=\frac{25g}{60g/mole}=0.416moles[/tex]

As we know that 1 mole of gas contains [tex]6.022\times 10^{23}[/tex] number of atoms

As, 1 mole of gas contains [tex]3\times 6.022\times 10^{23}[/tex] number of carbon atoms

So, 0.416 mole of gas contains [tex]0.146\times 3\times 6.022\times 10^{23}=7.51\times 10^{23}[/tex] number of carbon atoms

Therefore, the number of carbon atoms present in isopropyl alcohol is, [tex]7.51\times 10^{23}[/tex]

There are 7.53×10²³ atoms of carbon in 25 g of isopropyl alcohol C₃H₈O

We'll begin by calculating the number of mole in 25 g of C₃H₈O. This can be obtained as follow:

Mass of C₃H₈O = 25 g

Molar mass of C₃H₈O = (12×3) + (8×1) + 12

= 36 + 8 + 16 = 60 g/mol

Mole = mass / molar mass

Mole of C₃H₈O = 25 / 60

Next, we shall determine the number of mole of C in 0.417 mole of C₃H₈O.

1 mole of C₃H₈O contains 3 moles of C.

Therefore, 0.417 mole of C₃H₈O. Will contain = 0.417 × 3 = 1.251 moles of C.

Finally, we shall determine the number of atoms in 1.251 moles of C. this can be obtained as follow:

From Avogadro's hypothesis,

1 mole of C = 6.02×10²³ atoms

Therefore,

1.251 moles of C = 1.251 × 6.02×10²³

Thus, we can conclude that 25.0 g of isopropyl alcohol, C₃H₈O contains 7.53×10²³ atoms of carbon.

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Ladybug is the consumer that feeds on the aphid species. The number of ladybugs in the garden can be estimated by knowing the dimensions of the garden. Thus, option A is correct.

Dimensions are the proportions or the measurable parameters to estimate the size, like length, volume, height, breadth, and others of the given place or object. They are the coordinates that define enclosed parameters in it.

It is an important part of science as measurements are used in the quantitative analysis of the experiments. In estimating the number of ladybugs in the garden one has to know the area or the parameters of the garden.

Therefore, the dimensions of the garden must be known to estimate the number of ladybugs.

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The complex is named cobalt(III) chloride. Cobalt has an oxidation number of +3, and the complex has a coordination number of six.

The complex is named cobalt(III) chloride. In this complex, cobalt has an oxidation number of +3. The en ligands are neutral, while the Cl ligands have a charge of -1. The coordination number of this complex is six because it has six ligands.

The complex [tex]CoCl_2(en)_2[/tex] is named dichlorobis(ethylenediamine)cobalt(II).

To name the complex [tex]CoCl_2(en)_2[/tex], we follow these steps:

Identify the ligands and metal:

Determine the appropriate prefixes for the number of each ligand:

Find the overall charge of the complex. Ethylenediamine is neutral (0 charge), and each chloro ligand has a [tex]-1[/tex] charge. The cobalt ion's oxidation state is given as [tex]+2[/tex].

Algebraically, calculate the total charge contribution: Co + 2(en) + 2(Cl) = +2 which leads to Co + 0 + (-1) * 2 = 0. Thus, cobalt is in the [tex]+2[/tex] oxidation state.

Write the name of the complex. The ligands are listed alphabetically (ignoring prefixes): dichlorobis(ethylenediamine)cobalt(II).

This question asks for a balanced equation for the reaction between hydrobromic acid and sodium bicarbonate. The balanced equation is HBr(aq) + NaHCO3(aq) → NaBr(aq) + H2O(l) + CO2(g) with respective phases of the substances noted.

The reaction between HBr(aq) and NaHCO3(aq) can be represented as a chemical equation as follows:

HBr(aq) + NaHCO3(aq) → NaBr(aq) + H2O(l) + CO2(g)

Here, the phases are expressed in parentheses. '(aq)' represents an aqueous solution, '(l)' represents a liquid, and '(g)' signifies a gas. In this reaction, hydrobromic acid (HBr) reacts with sodium bicarbonate (NaHCO3) to produce sodium bromide (NaBr), water (H2O), and carbon dioxide (CO2). In the balanced equation, the number of each type of atom on the reactant side (left) is equal to the number of each atom type on the product side (right), and this showcases the Law of Conservation of Mass.

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By doubling concentration [a] from 0.100 M to 0.200 M in a chemical reaction where the rate is proportional to the square of [a], the rate quadruples. Consequently, the new rate is 0.0800 M/s given the original rate was 0.0200 M/s.

The question involves a chemical reaction where the rate is proportional to the square of the concentration of reactant A, given as rate = k[a]2[b]2. When the concentration of A ([a]) is increased from 0.100 M to 0.200 M, the rate of the reaction changes accordingly. Considering the reaction rate's dependence on the concentration, and using the given rate equation, the new rate will be:

Original rate = k(0.100 M)2[b]2

New rate when [a] is doubled = k(0.200 M)2[b]2 = k(4)(0.100 M)2[b]2
= 4 × (original rate)

Therefore, if the original rate is 0.0200 M/s, the new rate when the concentration of A is doubled will be 0.0800 M/s.

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The number of neutrons in the given neutral atom of beryllium is equal to 5. Therefore, option (B) is correct.

A neutral atom can be described as an atom in which the number of the positive charge is equal to the number of the negative charge. Therefore, the overall charge on the neutral atom is equal to zero.

For a neutral atom, we can say that the number of electrons in an atom is equal to the number of protons in that atom. All chemical elements are arranged in the modern periodic table are present in the neutral state.

The average mass or atomic mass of the atom is equal to the sum of the number of protons and neutrons present in the nucleus of an atom.

Given, the average mass of a neutral atom of beryllium (Be) = 9

Therefore, neutrons + protons = 9 in the Be atom

The number of electrons for the neutral atom of Be = 4

The number of neutrons in Be atom = 9 - 4 = 5

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The mass of calcium chloride by calculating molar mass and multiplying it by given mass the mass will be 10.2g

Molar mass is the specified mass of a substance which is present in moles of a substance. The SI unit is gram per mole .it can be calculated by multiplying the given number in periodic table to the number of moles or atom given in data .

Molar mass of calcium chloride

mass of calcium = 40

mass of chloride = 35

molar mass  = 40.078 + 35.4  × 2 = 110.98

calculating molar mass by Avogadro's number = 2.303 × 10²³ ×  5.55 x 10

Avogadro constant  = 2.303 × 10²³

mass of calcium chloride  = 0.092 mol

mass of calcium chloride = molar mass × calculated molar mass

substituting the value,

mass of calcium chloride = 110.98 × 0.092 mol

mass 0f calcium chloride = 10.2 g

Therefore, the mass of calcium chloride by calculating the molar mass of calcium chloride will be 10.2 g

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The structure of the compounds a,b,c and d are attached in the images below.

Compound is defined as a chemical substance made up of identical molecules containing atoms from more than one type of chemical element.

Molecule consisting atoms of only one element is not called compound.It is transformed into new substances during chemical reactions. There are four major types of compounds depending on chemical bonding present in them.They are:

1)Molecular compounds where in atoms are joined by covalent bonds.

2) ionic compounds where atoms are joined by ionic bond.

3)Inter-metallic compounds where atoms are held by metallic bonds

4) co-ordination complexes where atoms are held by co-ordinate bonds.

They have a unique chemical structure held together by chemical bonds Compounds have different properties as those of elements because when a compound is formed the properties of the substance are totally altered.

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Final answer:

To form a neutral ionic compound with a 4+ cation and a 1- anion, the ratio of cations to anions must be 1:4. The resulting formula would be AB4. The unit cell structure depends on the size of the ions and can be FCC or simple cubic, but the neutrality is dictated by the stoichiometric balance of charges.

Explanation:

If an ionic compound were composed of a 4+ cation (A4+) and a 1- anion (B-), to form a neutral compound, the ratio of cations to anions must reflect the balancing of charges. Since the A cation has a charge of +4, and the B anion has a charge of -1, you would need four B anions to balance the charge of one A cation, giving a formula of AB4. The structure of the unit cell that accommodates this ratio depends on the relative sizes of the ions.

If A4+ and B- vary significantly in size, as in the case of NaCl, the compound may crystallize in a face-centered cubic (FCC) unit cell, with the smaller cations occupying the octahedral holes. However, if the ion sizes are relatively similar, the compound might form a simple cubic structure like CsCl.

Ultimately, the exact structure will depend on experimental data, as crystal structure cannot be precisely predicted by ionic charges alone. Regardless of the cell type, what determines the neutrality of the compound is the stoichiometric balance of the total positive and negative charges, which in the case of A4+ and B-, a 1:4 ratio is necessary to create an electrically neutral compound.

Just like how heat moves from a region of higher temperature to a region of lower temperature, molecules also tend to move from a region of higher concentration to a region of lower concentration. This is called natural diffusion and is naturally happening to reach stability.