Triglycerides are the most common lipid found in food and in the body, they consist of a _____ backbone attached to three FA

Answer: no answer

Explanation:

Answer:

D Heat

Explanation:

Tell me if you need explain

ALLEN

According to the question the answer is 1.204 x 10^24 molecules of water.

Molecules are the smallest particles of matter that can exist in a stable form. They are made of two or more atoms that are held together by chemical bonds. Molecules are the basis of all living things, and they are the building blocks of all matter. They come in a variety of shapes and sizes, and they can be composed of atoms of different elements. Molecules can be found in the air, in liquids, and in solids. They can be found in both organic and inorganic compounds, and they are essential components of life. Molecules play an important role in many chemical and biological processes, and they can be used to create new materials and products.

The number of water molecules in a block of ice containing 2.00 mol of water (H2O) can be calculated using the Avogadro's number, which is 6.02 x 10^23 molecules per mol. Therefore, the answer is 1.204 x 10^24 molecules of water.

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The balanced equation for the reaction of pentane (C5H12) with oxygen gas (O2) to produce carbon dioxide (CO2) and water (H2O) is: C5H12(l) + 8O2(g) → 5CO2(g) + 6H2O(g).

Reaction is the process of responding to a stimulus or situation. It can be physical, emotional, mental, or social. Reactions can vary depending on the individual and the context, and they can be positive or negative. Examples of reactions include feeling anger, joy, sadness, or fear when faced with a situation.

The ratio of reactants to products in this reaction is 1:5:6:8. This means that for every 1 molecule of pentane (C5H12), 5 molecules of carbon dioxide (CO2), 6 molecules of water (H2O), and 8 molecules of oxygen gas (O2) are required. Therefore, the answer to the question is 8, as 8 molecules of oxygen gas (O2) are needed to react with 1 molecule of pentane (C5H12).

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If the system's pressure is increased, the equilibrium will shift in the direction that decreases the total number of gas molecules in the system.

The effect of changing pressure on an equilibrium depends on the reaction's stoichiometry and the total number of moles of gas present in the system. For example, if the reaction produced more gas molecules on the product side, an increase in pressure would shift the equilibrium to the left, in the direction of the reactants.

Stoichiometry is a branch of chemistry that deals with calculating the quantities of reactants and products involved in a chemical reaction. In any chemical reaction, the reactants combine to form products according to a specific chemical equation that shows the reaction's stoichiometry.

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Mass that is number of protons and  neutrons is lost in an atom  as a result of radioactive decay.

An atom is defined as the smallest unit of matter which forms an element. Every form of matter whether solid,liquid , gas consists of atoms . Each atom has a nucleus which is composed of protons and neutrons and shells in which the electrons revolve.

The protons are positively charged and neutrons are neutral and hence the nucleus is positively charged. The electrons which revolve around the nucleus are negatively charged and hence the atom as a whole is neutral and stable due to presence of oppositely charged particles.

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Answer: 67890iuhnm, m

Explanation:b ghjit6789 k k

Answer:

293 ms

Explanation:

The half-life of a first-order reaction can be calculated using the following formula:

t1/2 = 0.693 / k

Where t1/2 is the half-life and k is the rate constant.

For this reaction, the rate constant is 2.35 x 10^2 L/mol/s, so:

t1/2 = 0.693 / (2.35 x 10^2 L/mol/s) = 0.293 / (2.35 x 10^2) s = 0.000293 s = 293 ms

Answer:

0.293 / 2.35 × 10^2 seconds.

Explanation:

The half-life of a first order reaction can be calculated using the equation:

t1/2 = 0.693 / k

where t1/2 is the half-life, k is the rate constant, and 0.693 is the natural logarithm of 2.

Substituting the values given in the question:

t1/2 = 0.693 / 2.35 × 10^2 L mol-1 s-1 = 0.293 / 2.35 × 10^2 s

So, the half-life of the species is approximately 0.293 / 2.35 × 10^2 seconds.

The percentage by mass of cobalt in cobalt sulfate is 42.39%.

The mass percentage of a solution equals the mass of an element in one mole of the compound divided by the molar mass of the compound, multiplied by 100.

Percent by mass = (atomic mass of element/atomic mass of compound) × 100

According to this question, cobalt sulfate is given in this question. The atomic mass of cobalt is 58.93g/mol while the atomic mass of cobalt sulfate is 138.996g/mol.

% by mass = (58.93 ÷ 138.996) × 100

% by mass = 42.39%

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True. If an employee requests to use a Powered Air-Purifying Respirator (PAPR) in place of a negative pressure respirator.

define Powered Air-Purifying Respirator ?

A Powered Air-Purifying Respirator (PAPR) is a type of respirator that uses a motor to draw air through a filter to clean it before delivering it to the wearer's breathing zone. PAPRs are designed to protect the wearer from inhaling harmful substances, such as dust, smoke, fumes, and particulate matter.

True. If an employee requests to use a Powered Air-Purifying Respirator (PAPR) in place of a negative pressure respirator, the employer must provide the PAPR to the employee if it provides the same or greater level of protection as the negative pressure respirator. This is because the employer has a legal responsibility to provide a safe and healthy work environment for employees, and to ensure that employees are protected from workplace hazards to the extent feasible. Providing a PAPR may be necessary to achieve this goal, depending on the specific circumstances of the workplace and the hazards present.

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The coefficients that correctly balance the given equation is 1. 6, 3,2

The correct option is C

A balanced equation of a reaction is an equation in which the moles of atoms of elements of the reactants are equal to the moles of atoms of the product.

According to the law of conservation of matter, matter is neither created nor destroyed, hence, the mass of the reactants must be equal to the mass of products at the end of any given chemical reaction.

The balanced equation of the given reaction is as follows:

Ba₃N₂+ 6 HOH - -> 3 Ba(OH)₂ + 2 NH₃

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We're given:

First, let's calculate the theoretical yield of NO2.

⇒ [tex]\%\hspace{4}yield=\dfrac{actual\hspace{4}yield}{theoretical\hspace{4}yield}[/tex]

The yield of NO2 we must produce is 13.0 mol.

⇒ [tex]\%\hspace{4}yield=\dfrac{13.0}{theoretical\hspace{4}yield}[/tex]

We're also given that the percentage yield of this reaction is 67.1%.

⇒ [tex]0.671=\dfrac{13.0}{theoretical\hspace{4}yield}[/tex]

⇒ [tex]theoretical\hspace{4}yield=\dfrac{13.0}{0.671}\\\\theoretical\hspace{4}yield=19.3740685544\hspace{4}mol[/tex]

First, construct a mole ratio between O2 and NO2.

From the balanced chemical equation, we know that 1 mol of O2 can produce 2 mol of NO2:

⇒ [tex]\dfrac{n_{O_2}}{1}=\dfrac{n_{NO_2}}{2}[/tex]

We're given that we must theoretically produce 19.3740685544 mol of NO2:

⇒ [tex]\dfrac{n_{O_2}}{1}=\dfrac{19.3740685544}{2}[/tex]

⇒ [tex]n_{O_2}=9.6870342772\hspace{4}mol[/tex]

Round to significant figures (3):

⇒ [tex]n_{O_2}=9.69\hspace{4}mol[/tex]

[tex]n_{O_2}=9.69\hspace{4}mol[/tex]

A physical change is a change to a substance that does not result in the formation of a new substance.

Formation is the process of creating something new. It can refer to the creation of an organization, structure, or system. It is often used in business, when a company is established, or when a new product or service is created. It can also refer to the development of an idea or concept, such as a strategic plan or marketing campaign. Formation is an essential part of any entrepreneurial venture, and involves the development of a plan for a business, including the selection of personnel, market research, and the development of a financial structure. Formation is also used to refer to the development of a team or organization, and the process of creating and maintaining a cohesive and effective team of individuals.

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The mass of ASA - Acetylsalicylic acid per tablet is 214.9 mg. The number of moles present in the tablet, is 0.001190.

For this experiment it is important to find the number of moles of ASA present in the solution. By doing this we will get the amount of ASA in the tablet also.

Students prepared a solution by hydrolyzing 0.3219 g of a crushed aspirin tablet in NaOH and then diluting with DI water in a 100-mL volumetric flask.

Number of moles = mass of ASA / molar mass of ASA

The molar mass of ASA = 180.16 g/mol

Therefore, Number of moles = 0.3219 g / 180.16 g/mol

= 0.001785 mol.

Now finding the number of moles present in the tablet,

Moles in tablet = (moles of ASA from solution) x (mass of tablet / mass of solution)

= 0.001785 mol x (0.4267 g / 0.3219 g x 1.50 mL / 50 mL)

= 0.001190 mol

Now finding the mass of ASA,

Mass of ASA per tablet = (moles of ASA in tablet) x (molar mass of ASA)

= 0.001190 mol x 180.16 g/mol

= 0.2149 g or 214.9 mg

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Answer:

he given density is 0.97 g/cm³, and the volume is 4.00 cm³.

To find the mass, we can use the formula:mass = density x volume

Substituting the given values,

we get:mass = 0.97 g/cm³ x 4.00 cm³mass = 3.88 g

Therefore, the mass of 4.00 cm³ of sodium with a density of 0.97 g/cm³ is 3.88 g.

Explanation:

0.159 grams of aluminum sulfate contains 0.000465 moles.

First we need to first calculate the molar mass of Al2(SO4)3.

Molar mass of Al2(SO4)3 = (2 x atomic mass of Al) + (3 x atomic mass of S) + (12 x atomic mass of O)

= (2 x 26.98 g/mol) + (3 x 32.06 g/mol) + (12 x 16.00 g/mol)

= 342.15 g/mol

Now, we can use the following formula to calculate the number of moles:

number of moles = mass / molar mass

Plugging in the values, we get:

number of moles = 0.159 g / 342.15 g/mol

number of moles = 0.000465 moles

Therefore, 0.159 grams of aluminum sulfate contains 0.000465 moles.

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The coefficients that correctly balance the equation below would be 2,1,2,1. The third option.

A balanced chemical equation will have an equal number of different atoms in the reactants and in the products, irrespective of whether there is a change of form or otherwise.

Thus, the balanced equation of the reaction whose equation is shown would be: [tex]2KOH+BaCI_2- - > 2KCI + Ba(OH)_2[/tex]

In other words, the coefficients of the correctly balanced equation are 2,1,2,1.

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The balanced equation is : Aluminum bromide and chlorine gas react to form aluminum chloride and bromine gas.

AlBr₃ + 3Cl --->   AlCl₃ + 3Br

The Aluminum bromide and chlorine gas will react to form the aluminum chloride and the bromine gas

AlBr₃ + Cl --->   AlCl₃ + Br

             reactant     product

Al                1              1

Br                3              1

Cl                1               3

The chemical equation is said to be the balanced equation if the atoms of the reactants side is equals to the atoms of the product side. Multiplying the 3 in Cl and the 3 in the Br. The equation is as follows :

AlBr₃ + 3Cl --->   AlCl₃ + 3Br

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This question is incomplete, the complete question is :

Balance the chemical equation : Aluminum bromide and chlorine gas react to form aluminum chloride and bromine gas.

Due to the strength of their conjugate acids, I would anticipate that I (ii), (iv), and (vi) would behave as bases if put in an aqueous solution. As both alternatives (a) and (d) contain the conjugate bases of weak acids, they are both accurate.

Strong acids' conjugate bases, such as (v) Br- and (vi) F-, cannot take any more protons since they are already fully deprotonated and cannot function as bases in aqueous solutions. Strong acids have conjugate bases that may receive protons and function as bases in aqueous solutions. These bases include I HCOO-, (ii) HCO3-, (iii) HSO4-, and (iv) H2PO4-. As both alternatives (a) and (d) contain the conjugate bases of weak acids, they are both accurate. Because (v) and (vi), which are conjugate bases of strong acids and cannot function as bases, are included in Option (b), it is wrong. Option (c) is untrue because it only accounts for the conjugate bases of strong acids and ignores those of weak acids.

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The enthalpy of formation of H₂ and O₂ are zero. Then , the enthalpy of formation of water is 285 kJ.

Enthalpy change of a chemical reaction of physical change is the change in heat energy absorbed or evolved during the change or reaction. It is represented as ΔHf⁰.

The enthalpy of formation of elements in molecular state is zero. Hence the enthalpy of formation of H₂ and O₂ are zero.

The enthalpy of formation of water = -285 kJ.

enthalpy of reaction = enthalpy of products  - enthalpy of reactants.

ΔHr = -285 kJ - 0+0 = - 285 kJ.

Therefore, the enthalpy change during the formation of water from its elements is - 285 kJ.

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Your complete question is as follows:

Using tabulated ∆Hf° values in the text, determine the enthalpy change (in kJ) that occurs during the formation of water from its elements:

2 H2 (g) + O2 (g) → 2 H2O (l) ∆H = ?

Answer:

1.50 Gm

Explanation:

The distance from the Earth to the Sun can be converted from kilometers to gigameters (Gm) by dividing by 10^9:

1.50 x 10^8 km / 10^9 = 1.50 Gm

So, the distance from the Earth to the Sun is 1.50 Gm.

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The number of moles of 14 g of manganese nitrate is 0.078 moles. Then molarity of the solution is 0.312 M. The molarity of Mn²⁺ in the solution is 0.312 M and the molarity [NO₃⁻] is 0.624 M.

Molarity of a solution is the ratio of number of moles of the solute to the volume of solution in liters. It is the common term for representing the concentration of a solution.

Molar mass of manganese nitrate = 178.9 g/mol

no.of moles in 14 g = 14/178.9 = 0.078 moles.

then molarity of [Mn (NO₃)₂] = 0.078/0.25 L = 0.312 M.

In one mole of the solution there is one mole of Mn²⁺.

then [Mn²⁺ ] = [Mn (NO₃)₂]  = 0.312 M.

One mole of the compound contains 2 moles of the nitrate ions. Hence,

[NO₃⁻] = 2 × 0.312 = 0.626 M.

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Answer:

4.67 moles of aluminum

Explanation:

For the reaction:

3Li (s) + AI(NO3)3 (aq) --> 3LiNO3(aq) + Al(s)

The number of moles of aluminum produced from 14 moles of lithium can be determined by using the mole ratio between aluminum and lithium in the balanced chemical equation. The mole ratio between aluminum and lithium in the reaction is 1:3, which means that for every 3 moles of lithium, 1 mole of aluminum is produced. Therefore, the number of moles of aluminum produced from 14 moles of lithium can be calculated as follows:

14 moles of Li / 3 moles of Li per mole of Al = 4.67 moles of Al

So, 14 moles of lithium will produce 4.67 moles of aluminum.

The molecule D shows an isomer of the molecule given below. Therefore, option D is correct.

The term Isomer is defined as the compounds that contain exactly the same number of atoms, i.e., they have exactly the same empirical formula, but differ from each other by the way in which the atoms are arranged.

Isomerism is the phenomenon in which more than one compounds have the same chemical formula, but they have different chemical structures.

Therefore, given molecule and D molecule are isomers of each other because they have the same number of atoms, but they differ in arrangement of the atoms.

Thus, option D is correct.

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Answer:

A = 252 * 0.04 * 0.0028 = 0.275584

Therefore, the absorbance of the solution in a 4.00 mm pathlength cell is approximately 0.28.

Explanation:

Answer:

0.28

Explanation:

The formula to calculate the absorbance of a solution is given by:

A = ε * l * c

Where:

A = absorbance

ε = molar absorptivity (L/mol cm)

l = pathlength (cm)

c = concentration (mol/L)

The molar absorptivity of the solute at 500 nm is 252 M^-1cm^-1, and the concentration of the solute in the solution is 0.00140 moles in 500.0 mL, so c = 0.00140 / 0.500 = 0.0028 M.

A = ε * l * c = 252 M^-1 cm^-1 * 4.00 mm * 0.00280 M = 2.16

So, the absorbance in a 4.00 mm pathlength cell would be 2.16.

Answer:

because it provides a numerical value for the concentration of hydrogen ions in a solution.

Explanation:

Answer:

The pH scale is important in determining the acidity or basicity of a solution because it provides a numerical value for the concentration of hydrogen ions in a solution. The pH of a solution ranges from 0-14, with values below 7 being acidic, values above 7 being basic, and 7 being neutral.

Explanation:

The limiting reactant: Nitrogen gas (N2)

The excess reactant: Hydrogen gas (H₂)

Molar mass of hydrogen gas: 2.016 grams/mol

Molar mass of nitrogen gas: 28.02 grams/mol

Molar mass of ammonia (NH3): 17.04 grams/mol

The Haber process is a high-temperature, pressurized ammonia-gas synthesis. According to the balanced reaction, three moles of hydrogen and one mole of nitrogen gas yield two moles of ammonia gas.

Molecular mass of H₂ is 2 g/mol

molecular mass of N₂ is 28 g/mol

No.of moles in 10 g of H₂ is 10/2

= 5 moles.

no.of moles in 10 g of N₂ is 10/28

= 0.35 moles.

Here, the nitrogen gas is fewer in amount, and it is the limiting reactant in the reaction and hydrogen is the excess reactant.

Molar mass of NH₃ = 17 g/mol

1 mole or 28 g of nitrogen gives  2 moles or 34 g of ammonia. Hence, 10 g of nitrogen gas will give,

(10 × 34) / 28

= 12.14 g of NH₃.

Thus, 12.14 g of NH₃ is produced by 10 g of nitrogen gas in this reaction.

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