how to find relative error of molar mass of oxygen gas

Because of the existence of resonance, the conjugate base is stabilized, making it a weaker base. We infer that the amide is a stronger acid than the amine because a weaker conjugate base is formed from a stronger acid. +) has a lower acidity than the hydronium ion (H3O+).

When the negative charge occurs on an electronegative element and is delocalized over several atoms, a conjugate base is more stable. The stronger the acid, the more stable the conjugate base.

A conjugate acid-base pair, according to the Brnsted-Lowry definition of acids and bases, consists of two compounds that vary solely by the presence of a proton (H+). When a proton is added to a base, a conjugate acid is created, and when a proton is added to a base, a conjugate base is formed.

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Since hydrogen & carbon have comparable levels of electronegativity, the C—H connection is not typically regarded as a covalent polar bond.

A nonpolar covalent bond is formed by a carbon and a hydrogen atom.The shared electrons that result from the formation of covalent bonds between two atoms may be evenly distributed between both or may be drawn more strongly toward one element than the other.

As in the covalent connections that create methane, CH4, hydrogen and carbon atoms share electrons.When hydrogen and carbon atoms join to make ethane, C2H6, the laws of power combination are still followed.

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The intermolecular forces that contribute to creating a solution of CH2Cl2 in H20 are London Dispersion, lon-dipole, dipole-dipole, and H-bonding forces.

Intermolecular forces are the forces of attraction or repulsion that exist between molecules. These forces determine the physical and chemical properties of a substance, such as boiling point, melting point, and viscosity.

The most common intermolecular forces are London dispersion forces, dipole-dipole forces, and hydrogen bonding. London dispersion forces are weak forces that arise from the temporary movement of electrons in a molecule, and can be found in all molecules. Dipole-dipole forces occur between molecules with permanent dipoles, and cause them to be attracted to one another. Hydrogen bonding is a special type of dipole-dipole force that occurs when a hydrogen atom is covalently bonded to an electronegative atom such as oxygen or nitrogen. This type of bond is especially strong, and is responsible for the high boiling and melting points of some substances.

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The volume of pure acetic acid that must be added to 465 mL of 0.0941 M NaOH solution to obtain such a buffer is 8.72 mL.

The chemical formula for sodium hydroxide, also referred to as lye and caustic soda, is NaOH. The sodium cations Na+ and the hydroxide anions OH make up this white solid ionic compound.

Using Henderson · Hasselbalch equation for buffer solution

[tex]{\displaystyle {\ce {pH}}={\ce {p}}K_{{\ce {a}}}+\log _{10}\left({\frac {[{\ce {A^-}}]}{[{\ce {HA}}]}}\right)}[/tex]

[tex]{\displaystyle {\ce {4.35}}={4.745}+\log _{10}\left({\frac {[{\ce {A^-}}]}{[{\ce {HA}}]}}\right)}[/tex]

[tex]$ {\frac {[{\ce {A^-}}]}{[{\ce {HA}}]}} = 0.403[/tex]

HA(amount of acid) = [tex]$ \frac{A^{-}(\text{amount of Naoh})}{0.403}[/tex] = [tex]$ \frac{0.437565}{0.403}[/tex]

= 0.109 moles

Amount of pure acetic acid to be added

= 0.109 + 0.044

= 0.153 moles

Molar Mass of CH₃COOH = 60.05196 g

Mass of CH₃COOH = 0.153 × 60.05196

= 9.188 g

Volume = mass/density = 9.188/1.049

8.72 mL

Thus, The volume of pure acetic acid that must be added to 465 mL of 0.0941 M NaOH solution to obtain such a buffer is 8.72 mL.

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The solution does not change color with the addition of diethyl carbonate in a crystal violet reaction because it does not interfere with the dye-base interaction.

In a crystal violet reaction, the dye crystal violet is dissolved in an acidic solution, where it exists as an ionized species. The addition of a basic compound, such as diethyl carbonate, can alter the pH of the solution and affect the ionization of the dye, potentially changing its color.

However, diethyl carbonate is a weak base that does not interfere with the dye-base interaction and therefore does not alter the color of the solution. This makes it useful as a solvent for crystal violet and other dyes, as it allows the color to be measured without interference from the solvent.

In general, the selection of a solvent for a chemical reaction should consider its effect on the reactants and products, including its ability to alter the color of the solution.

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=> calculate the molar mass of the empirical formula

1 * C * 12.01 + 1 * H * 1.01 + 2 * N * 14.01 = 41.03

204.23/41.03 = 5

the molecular formula is 5(CHN2)

which is
=> C5 H5 N10

The amount of product that can result from the reaction of two moles of reactant B with an excess of reactant A is determined by the reaction's stoichiometry and the limiting reactant.

A substance used in a chemical reaction known as a reactant is ingested during the reaction and eventually becomes a component of the end result (s). A chemical reaction begins with reactants, which are then converted into the desired end products. The quantity of reactant used in a reaction can affect the volume of product that is produced, and in some circumstances, using too much reactant can guarantee complete consumption of the other reactant. The target product's yield and reaction rate can both be impacted by the identity, purity, and quantity of each reactant. To guarantee that the reaction goes smoothly and that the desired product is obtained, the reactants must be carefully chosen and handled. Occasionally, the reactants may need.

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Soil bacteria convert nitrates into nitrogen gas. The correct option is A

Atmosphere is a layer of gases that surrounds the Earth and is held in place by the planet's gravitational field. It serves as a protective shield, shielding the surface and its inhabitants from the harmful effects of solar radiation and cosmic rays.

Atmosphere also helps to regulate the Earth's temperature and plays a key role in the water cycle and the cycling of other elements and compounds.

Therefore, Nitrogen returns to the soil when organisms release waste or die and are decomposed by bacteria and fungi.

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According to the research, the correct answer is chemical property. The ability or likelihood of a substance or compound to change or break down easily, rapidly, or continuously is called a chemical property.

It is any obvious property or particularities that lead a certain matter to modify its composition.

In this sense, they make a material react under certain conditions or against certain reagents, which allows the analysis of the composition, structure and transformation of a substance or compound.

Therefore, we can conclude that according to the research, chemical properties determine how a material breaks down easily under given conditions.

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The names of elements in the periodic table do not have Latin versions as they are based on either the elements' natural occurrence, mythology, or scientists who discovered them.

However, some of the element names have roots in Latin and ancient Greek languages. Here are some examples:

These are just a few examples, and the origins of the element names vary.

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Molality of the given solution is 0.000947 mol/kg and its mass percentage is 14.29%.

To calculate molality, we need to know the number of moles of solute (glucose) present in the solution.

Number of moles = mass of solute / molar mass of solute

Number of moles of glucose = 170.1 g / (6 x 12.01 + 12 x 1.01 + 6 x 16.00) = 170.1 g / (6 x 12.01 + 12 x 1.01 + 6 x 16.00) = 170.1 g / 180.18 g/mol = 0.947 moles

Molality (m) = number of moles of solute / mass of solvent (in kilograms) Molality = 0.947 mol / (1000 g / 1000 g/kg) = 0.000947 mol/kg

Percent by mass (mass %) = mass of solute / total mass of solution x 100 Percent by mass = (170.1 g / (1000 g + 170.1 g)) x 100 = 14.29%.

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A student sets up the following equation to solve a problem in solution stoichiometry, (The 7 stands for a number the student is going to calculate.)

[tex] \frac{1.26mol ^{ \frac{1 ml}{ {10}^{ - 3}l } } }{7.9 \frac{mol}{l} } = [/tex]

The units can be obtained as:

[tex] \frac{mol. \frac{ml}{l} }{ \frac{mol}{l} } = [/tex]

the final units are mL.

Stoichiometry comes from the word "stoicheion" in Greek which means to measure. In chemistry, stoichiometry is the study of the quantity of a substance in a chemical reaction. These substances include mass, number of moles, volume, and number of particles. Not only that, stoichiometry is also defined as a chemical calculation that involves the quantitative relationship of the substances involved in the reaction.

A chemical reaction can be said to be a stoichiometric reaction when the reactants in the reaction are completely used up.

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Answer:

Solution

The energy diagram contains two maxima, which indicates that the reaction contains two elementary steps. The first maximum corresponds to the transition state of the first step and the second maximum corresponds to the transition state of the second step. The activation energy of the first step is less than the activation energy of the second step, meaning the first step proceeds at a faster rate than the second step. Therefore, the most probable reaction mechanism is

2A−→−fastB

B−→−−slowC

Explanation:

Answer:

A+B−→−−slowC

C−→−fastD

The energy diagram contains two maxima, which indicates that the reaction contains two elementary steps. The first maximum corresponds to the transition state of the first step and the second maximum corresponds to the transition state of the second step. The activation energy of the first step is greater than the activation energy of the second step, meaning the first step proceeds at a slower rate than the second step.

The answers include the following below:

This is referred to as a collection of materials, books or media that are accessible for use such as reading etc.

Maintaining books is very important because if it stolen or damaged, it won't function as there will be nothing to read by the users.

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Yes , it is a hydrobromic acid .

What are acids ?

Acids are acid-tasting compounds that react with certain metals to produce hydrogen gas. They can be recognized by their ability to release hydrogen ions (H+) in solution. This increases the concentration of H+ ions and lowers the pH, making the solution more acidic. Strong acids have a high concentration of H+ ions, weak acids have a low concentration. Common examples of acids are hydrochloric acid, sulfuric acid, and acetic acid. Acids play an important role in various fields such as chemistry, biology and industry, and have a wide range of applications in cleaning and food manufacturing.

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Taking into account the definition of calorimetry, the energy released when 240 g of iron is cooled by 65 °C is 7051.2 J.

Calorimetry is the measurement and calculation of the amounts of heat exchanged by a body or a system.

When heat added or removed from a substance causes a temperature change in it without affecting its molecular structure, it is called sensible heat.

The expression that allows to calculate heat exchanges is:

Q = c× m× ΔT

where:

In this case, you know:

Replacing in the definition of calorimetry:

Q = 0.452 J/g°C× 240 g× 65°C

Solving;

Q= 7051.2 J

Finally, the energy is 7051.2 J.

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A base is a hydrogen acceptor according to the Brnsted-Lowry theory of bases and acids whereas an acidity is a proton (H+) donor. A Brnsted-Lowry acid transfers a proton, creating a conjugate base.

In the Brnsted-Lowry theory, proton transport between chemical species is used to characterize acid-base interactions. Any organism that can give a proton is a Brnsted-Lowry acid, followed by H+start paragraph, H, \text, start subscripts, plus, and any species which can receive a proton is a base.

Lewis' hypothesis is based on the movement of electrons, whereas the Brnsted-Lowry theory depends on the passage of protons. Lewis acids arematerial capable of taking in two electrons to create a new connection. They are sometimes known as electrophiles, or people who are looking for an extra electron pair.

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The compound with the highest boiling point is expected to be CH3CH2OH (ethanol).

The boiling point of a substance is the temperature at which its vapor pressure is equal to the pressure surrounding it, allowing it to change from a liquid to a gas. It is often used as a characteristic property to identify a substance.

The boiling point of a substance can be calculated using various models and equations, such as the Clausius-Clapeyron equation, which considers the relationship between the pressure and temperature of a substance, and accounts for the intermolecular forces present in the substance.

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When naming an ionic compound, the cation is stated first, then the anion. Charges that are positive and negative must be equal. Roman numerals are used in parenthesis to name some anions that have several forms.

Three or more elements make up ternary compounds. It is analogous to naming basic ionic compounds to name binary (two-element) molecular molecules. The first component of the formula is only the element's name mentioned. By taking the element name's stem and adding the suffix -ide, the second element is given a name.

The basic rule is that a bond is termed nonpolar if the difference in electronegativities is less than or equal to roughly 0.4; if the difference is larger than 0.4, the bond is considered polar.

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The volume of CO2 produced at STP from the combustion of 10.50 L of C2H6 (measured at 27°C and 778 torr) is 5.32 L.

The volume of carbon dioxide produced from the combustion of a given amount of ethane gas can be determined using the ideal gas law and stoichiometry. This calculation takes into account the temperature, pressure, and volume of the reactants and products, and the balanced chemical equation for the reaction.

To find the volume of CO2 produced from the combustion of 10.50 L of C2H6 (measured at 27°C and 778 torr), we can use the ideal gas law, PV = nRT, where P is pressure, V is volume, n is the number of moles of gas, R is the gas constant, and T is the temperature in kelvins.

First, we need to convert the temperature to kelvins: T = 27°C + 273 = 300 K. Next, we need to find the number of moles of C2H6. We can use the volume of the gas and the pressure to find the number of moles: n = (PV)/(RT) = (778 * 10.50 L)/(0.0821 Latm/K * 300 K) = 0.367 moles.

Next, we need to use the balanced chemical equation to find the number of moles of CO2 produced: 4 moles CO2 are produced for every 2 moles of C2H6. Thus, 0.367 moles of C2H6 produces 0.367 * 2/4 = 0.184 moles of CO2.

Finally, we can use the ideal gas law to find the volume of CO2 produced at STP (standard temperature and pressure, which is 0°C and 1 atm): V = (nRT)/P = (0.184 moles * 0.0821 Latm/K * 273 K) / 1 atm = 5.32 L.

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The chemical compound CH3C-C-C - OH has a total of three pi bonds. There are three double bonds in the complex, which translates to three pi bonds as each double bond is made up of two pi bonds.

In the substance CH3C-C-C - OH, there are a total of three pi bonds. Since there are three double bonds and three pi bonds in the compound, each double bond is made up of two pi bonds. The first double bond, known as the C=C bond, is between the carbon atoms. The second double bond, known as the C=C bond, is between the carbon atoms. The third double bond, known as the C=O bond, is between the oxygen and carbon atoms. The molecule's structure and reactivity are significantly influenced by these pi bonds.

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There are numerous methods for determining if the water collected in the receiving flask during the experiment is salt-free or not like taste test, conductivity test and chemical analysis.

To establish this, the experimenter may utilise one or a combination of the approaches listed below:

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Answer:

Freezing:Liquid changes to solid

Vaporization: Liquid changes to Gas

Condensation:Gas changes to liquid

Melting: Solid changes to liquid

Explanation:

look up changes in states of matter and kinetic theory.

Two elements that are nonmetals bond to form binary covalent compounds. Therefore, option B is correct.

A binary covalent compound is made up of two distinct elements (usually nonmetals). A molecule of chlorine trifluoride, ClF3, for example, contains one chlorine atom and three fluorine atoms.

Covalent bonds are typically formed between nonmetals. In water (H2O), for example, each hydrogen (H) and oxygen (O) atom shares a pair of electrons to form a molecule of two hydrogen atoms single bonded to a single oxygen atom.

Thus, option B is correct.

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The absorbance of light by the solution is measured using spectrophotometry, which is a typical approach.

Concentration in chemistry is defined as the abundance of an ingredient divided by the total volume of a combination. There are four sorts of mathematical descriptions: mass concentration, molar concentration, number concentration, and volume concentration. To apply this approach, produce a series of Gatorade dilutions and test the absorbance of each dilution at a given wavelength, often the wavelength at which the blue dye absorbs light the most strongly. The absorbance of each dilution may then be plotted against its concentration to estimate the concentration of blue dye in the original sample.

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The pH falls as the hydrogen ion concentration rises.

Seven is the neutral pH. An increase in pH above 7 indicates an increase in alkalinity, whereas a fall in pH below 7 indicates an increase in acidity (hydrogen ions) (hydroxyl ions). Each pH unit corresponds to a concentration change of 10 times. The amount of hydronium in the solution rises as H+ ions separate from the acid and unite with water to create hydronium ions. A solution becomes less acidic and more basic as the hydronium concentration declines and the pH rises. We refer to a neutral solution with [H+]=10-7 as having a pH of 7. For instance, this indicates that a solution with a pH of 4 has a hydrogen-ion concentration of 10-4mol/l, or 0.0001 mol of hydrogen ions per liter of the solution.

The hydrogen ion concentration's negative log is known as pH. pH1 is the acidic range. Highest on the scale and very basic is pH 14. However, by comparing two H+ concentrations, we may observe what is taking place:

Since the log of [H+] = 1x10-10 is -10 and there is a negative sign to make it positive, the pH at this concentration is 10.

The pH is -log(10-2), or 2, at larger concentrations, such as 1x10-2 or more. [H3O+] = 10-pH So for pH = 11 , [H3O+] = 10-11 M ,and for pH = 8  , [H3O+] = 10-8.

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The compounds in their order of increasing positive character of carbon are: CH₃Li → CH₃F → CH₄ → CH₃NH₂ → CH₃OH.

The positive character of the carbon atom refers to its electropositive nature or its ability to attract electrons towards itself in a chemical bond. This property of the carbon atom can be influenced by the other atoms or groups bonded to it, as well as their electronegativity, size, and electronic configuration.

The positive character of the carbon atom can be determined by various methods, including chemical reactions, spectroscopic measurements, and theoretical calculations.

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To prepare a buffer solution with a pH of 5.59 (with a pKa of 4.54), we need to add 0.134 mL of 0.1 M NaOH to 24.0 mL of 0.1 M HB.

The pH of a buffer answer is without delay associated with its pKa value. The pKa of a buffer answer is the pH at which the ratio of the conjugate base (B-) to its corresponding acid (HB) is equal to one. At this point, the buffer is handiest at resisting adjustments in pH when small amounts of acid or base are introduced. The closer the pH of the buffer solution is to its pKa value, the extra effective the buffer might be at resisting adjustments in pH. Because of this if the pH of the buffer solution is equal to its pKa, the buffer will be at its maximum buffering potential.

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Answer:

at least one pint

Explanation:

you should not be drinking more than a pint if your going to drive also i don't really understand the question?

Answer: A

Explanation:  Electronegativities are used to determine the polarity of covalent bonds.