A 10.150g sample of a compound known to contain phosphorus and oxygen yields 5.717 g of oxygen. Find the empirical formula of the compound

The balance chemical equations is KCIO3 ==========> KCI + 30₂ .

A chemical equation shows the beginning compound, the reactants on the left, and the final compound, the product on the right, separated via an arrow. In a balanced chemical equation, the numbers of atoms of each detail and the entire charge are identical on both sides of the equation.

A chemical equation is the symbolic illustration of a chemical reaction in the form of symbols and formulae, in which the reactant entities are given on the left-hand side and the product entities at the proper-hand aspect with a plus sign among the entities in each of the reactants and the products and an arrow that points closer to the products.

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The reaction flask contains the mass of 1000.176 g. This calculated using the concept of Mole.

CaCO3 + 2HCl ----->  CaCl2 + CO2 + H2O.

For 1 mole of CaCO3 require 2 moles of HCL to form 1 mole CaCL2 and 1 mole of CO2.

The Molar mass of CaCO3  is 100.0869 g /mole.

The Molar mass of HCL is 36.46 g/mole

The Molar mass of CO2 is 44.01 g/mole.

As 0.21 g of carbon dioxide is given off,

The Moles of CO2 given off =0.21/44.01

The Moles of CO2 given off = 0.00477 moles.

The ratio of Moles of CaCO3 : HCL : CO2 is 1: 2 : 1.

As 0.00477 moles of CO2 is given off, that means 0.00477 moles of CaCO3 and 0.00952 moles of Hydrochloric acid is reacted.

So, the moles = mass of solute /molar mass

For calcium carbonate,

0.00477 moles of calcium carbonate =mass of CaCO3 /100.0869

Mass of CaCO3 becomes 0.477 g

So , 0.477 g of calcium carbonate is reacted to form 0.21 g  of CO2.

The unreacted mass of calcium carbonate =1 - 0.477 = 0.523 g

For, Hydrochloric acid,

Moles = mass of HCL / molar mass of HCL

0.00952 = mass of HCL /36.46

Mass of HCL = 0.347 g.

Mass of Hydrochloric acid reacted = 0.347 g form 0.21 g CO2.

The unreacted mass of hydrochloric acid = 1000 - 0.347

The unreacted mass of HCL= 999.653 g

Total left mass in reaction  flask= unreacted mass of CaCO3 + unreacted mass of Hydrochloric acid

Total left mass in reaction flask is,

                    = 0.523 +999.653

Total left mass in reaction flask is 1000.176 g.

So The reaction flask contains 1000.176 g.

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Answer:

distance and time

Answer:

d. Distance and time

Explanation:

Why was the American Federation of

Labor a different type of labor union

(compared to the Knights of Labor)

and why did it grow during the 20th

century?

Answer:

iron .. titanium.. nickel....aluminum... sulfur... and calcium

Acrylic acid, with the formula C₃H₄O₂, has a pKa value of 4.25 signifies that it is a weak acid.

Acrylic acid is a vital component in the production of various plastics and polymers. The pH of a 0.58 M aqueous solution of acrylic acid is given as 2.25.

The pH value indicates the acidity or alkalinity of a solution, with lower values representing higher acidity. The pKa value, on the other hand, is a measure of the acid's strength and is related to its ability to donate protons.

The pKa value for acrylic acid, 4.25, signifies that it is a weak acid. This means that in an aqueous solution, acrylic acid partially dissociates, releasing hydrogen ions (H⁺). The lower pH of 2.25 suggests that there is a higher concentration of hydrogen ions in the solution, indicating a higher degree of dissociation.

The pKa value is an essential property for acids as it helps determine their behavior in different chemical reactions. Acrylic acid's relatively low pKa value makes it suitable for various applications, including the manufacture of plastics, coatings, adhesives, and textiles.

It enables acrylic acid to react with other compounds, undergo polymerization, and form stable structures with desirable properties.

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Answer:

What is the difference between the number of electrons in an atom of Tin (Sn) which has an atomic number of 50, and the number of electrons in an atom of Chlorine (Cl) which has an atomic number of 17. Which statement accurately describes the atoms of a specific element?

Explanation:

The inflation rate from 2014 to 2015, assuming 2014 as the base year, is 68.09%.

The inflation rate from 2014 to 2015, assuming that 2014 is the base year, can be determined using the Consumer Price Index (CPI). The CPI measures the cost of goods and services over time and is used to calculate inflation. The formula for calculating inflation rate using CPI is as follows: Inflation rate = ((CPI year 2 - CPI year 1) / CPI year 1) x 100To solve this problem, we first need to calculate the CPI for each year using the prices and quantities of nuts and meat.

Calculating CPI for 2014:CPI 2014 = (300 x $9) + (175 x $19) = $5,625 Calculating CPI for 2015:CPI 2015 = (420 x $9) + (340 x $14) = $9,460Using the CPI formula, we can calculate the inflation rate from 2014 to 2015:Inflation rate = ((CPI 2015 - CPI 2014) / CPI 2014) x 100= (($9,460 - $5,625) / $5,625) x 100= $3,835 / $5,625 x 100= 68.09% (to 2 decimal places) Therefore, the inflation rate from 2014 to 2015, assuming 2014 as the base year, is 68.09%.

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Answer: left

Explanation: The element that appears farthest to the

✔ left

is written first in the chemical name of a covalent compound.

Explanation:

In a physical change the nature of the substance, the particles of which it is composed and the numbers of particles remain unchanged. In a chemical change the properties of the new substances are different from the original, the particles are different and the number of particles can change

The formation of ionic bonds between elements from Group I (alkali metals) and Group VII (halogens) occurs through a transfer of electrons. Alkali metals have one valence electron in their outermost shell, while halogens require one more electron to complete their outermost shell and achieve a stable electron configuration.

Let's take the example of sodium (Na) from Group I and chlorine (Cl) from Group VII to illustrate the formation of an ionic bond. Sodium has one valence electron, while chlorine requires one electron to complete its outer shell.

In a dot-and-cross diagram, sodium is represented by the symbol Na, with a dot next to it representing its single valence electron. Chlorine is represented by the symbol Cl, with seven dots around it representing its seven valence electrons.

To form an ionic bond, sodium will transfer its single valence electron to chlorine. This results in sodium losing one electron to become a positively charged sodium ion (Na+), as it now has one less electron than protons. Chlorine, on the other hand, gains the electron from sodium, resulting in a negatively charged chloride ion (Cl-), as it now has one more electron than protons.

In the dot-and-cross diagram, the electron transfer is represented by an arrow from sodium to chlorine, indicating the movement of the electron. The final configuration shows the sodium ion (Na+) with no dots around it, indicating the loss of its valence electron, and the chloride ion (Cl-) with eight dots around it, representing the complete octet in its outermost shell.

The resulting sodium ion and chloride ion are held together by the strong electrostatic attraction between the oppositely charged ions. This attraction forms an ionic bond, creating an ionic compound known as sodium chloride (NaCl), commonly known as table salt.

This process of electron transfer and formation of ionic bonds occurs between elements from Group I and Group VII, leading to the creation of stable compounds with full outer shells for both elements.\(\huge{\mathcal{\colorbox{black}{\textcolor{lime}{\textsf{I hope this helps !}}}}}\)

♥️ \(\large{\textcolor{red}{\underline{\texttt{SUMIT ROY (:}}}}\)

The quantity of refrigerant in a system is less critical when the system has increased operating pressures.

A low coolant level can cause the engine to overheat. This can cause the compressor not to start or the circuit breaker to trip prematurely. If left unchecked, the engine will eventually burn out and completely stall. Refrigerants with a low critical temperature have a large decrease in cooling performance.

The critical temperature of the refrigerant should be higher than the condensing temperature to obtain greater heat transfer at a constant temperature. When the air conditioner runs low on refrigerant, it loses its ability to transfer heat from within. This means that the air that's being blown into your AC coil isn't cooling properly, so your vents will start circulating warm air throughout your home.

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The carbon atom has 4 chemical bonds and  an oxygen atom has 2. The  bond a carbon monoxide molecule has is a triple bond between the carbon and the oxygen.

In the carbon monoxide, the carbon atom is  directly bonded with oxygen atom. The molecular formula of the carbon monoxide is the CO. In carbon monoxide structure, the carbon atom is bonded to the oxygen atom by the triple bond. In the triple bond, it contains  the one sigma bond  and the two pi bonds.

Thus, The carbon monoxide contains the triple bons and form the covalent bond. The carbon monoxide is a covalent compound.

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Answer:

first answer

Explanation:

atomic number of bromine is 35

\(1{s}^{2} 2 {s}^{2} 2 {p}^{6} 3 {s}^{2} 3 {p}^{6} 3 {d}^{10} 4 {s}^{2} 4 {p}^{5} \)

Answer:

1s22s22p63s23p64s23d104p5

Explanation:

;)

The particle that makes the atom an unstable isotope is the neutron. When there is an excess or a deficiency of neutrons in an atom's nucleus, it becomes an unstable isotope.

Unstable isotopes are isotopes that decay and emit radiation until they reach a stable state. They are also known as radioactive isotopes. The radioactive isotopes are unstable and have an unpredictable lifespan because they have an unstable ratio of neutrons to protons. This excess of neutrons in the nucleus results in a greater electrostatic repulsion between protons, causing instability and eventually decay.Neutrons are the particles that are responsible for making atoms unstable isotopes. The excess or deficiency of neutrons in an atom's nucleus leads to an unstable state and eventually decay. Radioactive isotopes are important for various practical applications such as nuclear power, radiography, and cancer treatment.

Therefore, neutrons makes the atom an unstable isotope. The decay of unstable isotopes can be used for many practical applications such as nuclear power, radiography, and cancer treatment.

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A titration curve is a graph that shows the change in pH as a titrant is added to a solution. It is constructed by plotting the pH of the analyte solution against the volume of the titrant added, as shown in the graph.

The titration curve for a strong acid-strong base titration is shaped like an S-curve because at low pH values, the addition of base has little effect on the pH of the solution. The pH changes rapidly as the equivalence point is approached because the amount of base added to the solution has become significant.At the equivalence point, the pH of the solution is equal to 7. After the equivalence point, the addition of more base has little effect on the pH of the solution because the excess base is neutralized by the acid in the solution, so the pH of the solution remains relatively constant.This curve has the shape it does because the pH of the solution is determined by the concentration of hydrogen ions, which is dependent on the concentration of the acid or base in solution.

At the start of the titration, the concentration of hydrogen ions is high because the solution contains an excess of acid. As the base is added, it neutralizes the acid and the concentration of hydrogen ions decreases, causing the pH to increase. When all the acid has been neutralized, the concentration of hydrogen ions is zero, and the pH of the solution is determined by the concentration of hydroxide ions, which are produced by the reaction between the base and water.

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Answer:

0.1 moles of N2 will react with 0.3034 moles of Mg.

Explanation:

\(\sf{balanced \ eqaution = 3Mg + N2 \rightarrow Mg3N2}\)

using molar ratio:

3Mg : N2

3 : 1

moles of N2:

\(\hookrightarrow \sf\frac{0.3034 }{3} *1\)

\(\hookrightarrow \sf 0.10113 \ moles \ of \ N2\)

The sentence which is appropriate for a formal lab report in CHM113 lab is that three more trials were conducted and the data was recorded which is therefore denoted as option A.

This refers to a type of facility that provides controlled conditions in which scientific or technological research and experiments are performed by scientists etc.

The laboratory involves taking various measurements and data which are then analyzed so as to arrive at an accurate and logical conclusion about the experiment or research work being done.

Three more trials were conducted and the data was recorded is the appropriate sentence which is used because in lab report procedure as it involves collection of data under various types of conditions.

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If the theoretical yield of a reaction is 24.8 g and the actual yield is 18.5 g,  The percent yield that we get is 74.6%

Percent yield is the percent ratio of actual yield to the theoretical yield. It is calculated to be the experimental yield divided by the theoretical yield multiplied by 100%. If the actual and theoretical yield ​is the same, the percent yield is 100%

Here it is given the actual yield is 18.5g and the theoretical yield is 24.8g

Formula to calculate percent yield:

Percent yield = actual yield/ theoretical yield × 100

                      = 18.5 / 24.8 × 100

                      = 74.6 %

Therefore the percent yield is 74.6%

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A(n) cytokine is any soluble, low molecular-weight protein or glycoprotein released by one population of cells that acts as an intercellular communication/signaling molecule on a different group of cells.

Small, flexible proteins known as cytokines play a crucial role in cell signaling. Peptides like cytokines may be unable to penetrate the lipid bilayer of cells to reach the cytoplasm. As immunomodulating agents, cytokines have just been demonstrated to participate in autocrine, and paracrine, including endocrine signaling.

Small proteins called cytokines play a key role in regulating the development and activity of blood and immune system cells. They instruct the immune response to function once they are released. All blood cells as well as other cells that support the body's immunological and inflammatory responses are affected by cytokines.

Therefore, A(n) cytokine is any soluble, low molecular-weight protein or glycoprotein released by one population of cells that acts as an intercellular communication/signaling molecule on a different group of cells.

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The number of molecules of propene that must be polymerized to make 3.50 g of polypropylene is 5.02 x 10²² molecules.

In order to answer this question, we must first understand the concept of a mole. A mole is a unit of measurement that is equal to 6.022 x 10^23 molecules or particles. This means that in order to calculate the number of molecules of propene required to make 3.50 g of polypropylene, we must convert the mass given (3.50 g) into moles.

We know that the molecular weight of propene is 42g/mol, so we can use the following equation to find the number of moles of propene required: 3.50 g / 42g/mol = 0.0834 mol.

Since a mole is equal to 6.022 x 10²³ molecules of propene, we can now use this equation to find the number of molecules required:

0.0834 mol x (6.022 x 10²³ molecules/mol) = 5.02 x 10²² molecules of propene.

Therefore, in order to make 3.50 g of polypropylene, 5.02 x 10²² molecules of propene must be polymerized.

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Answer:

1.29 g of NaCl.

Explanation:

We'll begin by writing the balanced equation for the reaction. This is given below:

HCl(aq) + NaOH(s) —> NaCl(aq) + H2O(l)

Next, we shall determine the masses of HCl and NaOH that reacted and the mass of NaCl produced from the balanced equation.

This is illustrated below:

Molar mass of HCl = 1 + 35.5 = 36.5 g/mol

Mass of HCl from the balanced equation = 1 x 36.5 = 36.5 g

Molar mass of NaOH = 23 + 16 + 1 = 40 g/mol

Mass of NaOH from the balanced equation = 1 x 40 = 40 g

Molar mass of NaCl = 23 + 35.5 = 58.5 g/mol

Mass of NaCl from the balanced equation = 1 x 58.5 = 58.5 g

Summary:

From the balanced equation above,

36.5 g of HCl reacted with 40 g of NaOH to produce 58.5 g of NaCl.

Next, we shall determine the limiting reactant.

The limiting reactant can be obtained as follow:

From the balanced equation above,

36.5 g of HCl reacted with 40 g of NaOH.

Therefore, 1.82 g of HCl will react with = (1.82 x 40)/36.5 = 1.99 g of NaOH

From the calculations made above,

We can see that it will take a higher mass of NaOH i.e 1.99 g than what was given i.e 0.88 g to react completely with 1.82 g of HCl.

Therefore, NaOH is the limiting reactant and HCl is the excess reactant.

Finally, we shall determine the maximum mass of NaCl produced from the reaction.

In this case the limiting reactant will be used as it will produce the maximum mass of the products since all of it were consumed in the reaction.

The limiting reactant is NaOH and the maximum mass of NaCl produced can be obtained as follow:

From the balanced equation above,

40 g of NaOH reacted to produce 58.5 g of NaCl.

Therefore, 0.88 g of NaOH will react to produce = (0.88 x 58.5)/40 = 1.29 g of NaCl.

Therefore, 1.29 g of NaCl were produced from the reaction.

A battery is a device that converts chemical energy into electrical energy through a process known as an electrochemical reaction.

When a battery is connected to a circuit, the electrochemical reaction causes a flow of electrons from the anode to the cathode, generating an electric current that can power a device.

The metal chosen for the anode must be capable of losing electrons easily, while the metal chosen for the cathode must be capable of accepting electrons. The choice of metals can also affect the voltage and capacity of the battery, as well as its overall efficiency.

In general, the metals used in a battery should have a large difference in their electronegativity values, which determines how easily an atom can attract electrons. Common metals used in batteries include zinc, lithium, nickel, and cadmium.

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Answer:

B

Explanation:

Bias may make one side look worse than they actually are.

Answer:

The first one is Propane

The second one is HEPTANE

The third one is octane

The 4th is butane

the 5th is decane

The structures have been named according to IUPAC as \(\rm C_3H_8\) Propane, \(\rm C_7H_{16}\) Heptane, \(\rm C_8H_{18}\) Octane, \(\rm C_4H_{10}\) Butane, and \(\rm C_{10}H_{22}\) Decane.

The images has been the representation of the ball and stick structure of the compounds. The central balls have been the representation of the carbon atom , with small balls attached to the sticks have been the representation of the hydrogen attached.

The following structures has been given as:

The structures have been named according to IUPAC as \(\rm C_3H_8\) Propane, \(\rm C_7H_{16}\) Heptane, \(\rm C_8H_{18}\) Octane, \(\rm C_4H_{10}\) Butane, and \(\rm C_{10}H_{22}\) Decane.

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Answer: 2.94x10^22 atoms of O2

Explanation:

To determine the number of atoms in a given volume of a gas, you need to know the molar volume of the gas and the number of moles of the gas present.

The molar volume of a gas at standard temperature and pressure (STP) is 24.45 L/mol. At STP, the pressure is 1 atm and the temperature is 0°C (273.15 K).

So, to find the number of moles of a gas present in a container, you can use the Ideal Gas Law: PV = nRT.

Where:

P = pressure (atm)

V = volume (L)

n = number of moles

R = ideal gas constant (0.0821 L·atm/mol·K)

T = temperature (K)

So we can rearrange the formula to find n = PV/RT

n = (2.44 atm * 2.54 L) / (0.0821 L·atm/mol·K * 275 K) = 0.049 moles

To find the number of atoms of O2, we just multiply the number of moles by Avogadro's number which is 6.022x10^23 atoms/mol.

So the number of atoms of O2 in 2.54 L at 2.44 atm and 275 K is:

6.022x10^23 atoms/mol * 0.049 moles = 2.94x10^22 atoms of O2

This is the number of atoms of O2 present in the container.

6.94 is much more closet to 7.016, so Li 7 is more abundant