Given the following chemical symbol, answer the questions below. This atom has 70 electrons and 114 neutrons. What value should be?Y 76 X^Z

The volume of the ammonia that can be produced from the reaction that has been written is;  155 * 10^7 L

We know that;

PV = nRT

For the hydrogen;

n = PV/RT

n = 155 * 4.0 x 10^7 /0.082 * 776

n = 620 * 10^7/63.63

n = 9.7 * 10^7 moles

Now the reaction equation is;

N₂(g) + 3H₂(g) → 2NH3(g)

3 moles of hydrogen  produced 2 moles of ammonia

9.7 * 10^7 moles will produce  9.7 * 10^7 moles * 2 moles/ 3 moles

x = 6.5 * 10^7 moles

For the volume of the ammonia;

V = nRT/P

V =  6.5 * 10^7 moles * 0.082 * 293.6/1.007

V = 155 * 10^7 L

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Yes, the chemical basis for a metabolic syndrome is the failure of the body to breakdown fatty acids.

Metabolic syndrome is used to describe a collection of health problems that increase the risk of developing other diseases such as diabetes, heart disease, and stroke. The primary cause of metabolic syndrome is obesity, which is why it is frequently referred to as "obesity syndrome."

The syndrome is also linked to other genetic and environmental factors that contribute to insulin resistance, inflammation, and high blood pressure, as well as a failure to break down fatty acids properly in the body. Thus, the chemical basis for metabolic syndrome is the failure to break down the fatty acids in body. This chemical problem can contribute to the development of other fatal diseases and health problems.

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Titration is the best investigation to identify an unknown liquid as acidic, basic, or neutral by measuring its pH level.

A student finds an unlabeled bottle of liquid under his kitchen sink. Titration is the investigation that would best help him identify the unknown liquid as acidic, basic, or neutral.

Titration is the chemical method used to find the amount of acid or base in a given substance. This method is a laboratory technique used to measure the concentration of a known solution (the titrant) with a solution of an unknown concentration (the analyte).

The unknown solution is slowly added to the known solution until it reacts completely, allowing us to calculate the concentration of the unknown solution. Titration may be used to identify an unknown solution as acidic, neutral, or basic by determining its pH level. It's a highly precise technique that's often used in analytical chemistry laboratories to measure the concentration of chemicals.

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The acid-base reactants for this neutralization reaction are LiOH and HNO3.

Explanation : Acid-base reactants for this neutralization reaction are LiOH and HNO3.The reaction between an acid and a base to form a salt and water is known as a neutralization reaction. It is an exothermic reaction because heat is generated when the acid and base are mixed. The products of the reaction are a salt and water (H2O).The neutralization reaction produces H2O and LiNO3. The neutralization reaction between LiOH and HNO3 forms LiNO3 and H2O as products.What is LiOH?LiOH is an alkali compound that is a base with a pH greater than 7. It is commonly known as lithium hydroxide. It is a highly corrosive substance that is used in a variety of industrial processes. It is used in the manufacture of lithium batteries, as well as in rocket fuel, in the purification of natural gas, and as a carbon dioxide absorbent.What is HNO3?Nitric acid is also known as aqua fortis, and it is a highly corrosive mineral acid. It is a potent oxidizing agent that is highly reactive with metals, creating flammable gases upon reaction. It is primarily used in the manufacture of fertilizers, explosives, and various organic chemicals. Nitric acid is a highly corrosive and toxic substance, and proper care should be taken when working with it.

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It appears to be related to a volcanic activity alert system in a certain country. The statement mentions that a volcano is currently at level 4, which is the second-highest level on the country's volcano-alert system.

A volcano is a graphical representation of the relationship between the energy changes and reaction progress in a chemical reaction. It is commonly used to describe acid-base reactions, where the reactants and products have different acid-base properties.

The volcano plot is a graph with the reaction rate or activity of a catalyst on the y-axis and the reaction-free energy or potential on the x-axis. It is named after its shape, which resembles a volcano with a peak representing the maximum reaction rate or activity.

The position of a reactant or catalyst on the volcano plot determines its ability to promote the reaction. If it is to the left of the peak, the reaction is thermodynamically favorable but kinetically slow. If it is to the right of the peak, the reaction is kinetically favorable but thermodynamically less favorable.

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The dense metal named for its use by Romans as pipes for plumbing is lead. Lead is a chemical element with the symbol Pb (Latin: plumbum) and atomic number 82.

Lead a heavy metal that is denser than most common materials. Lead is soft and malleable, and it has a low melting point when compared to other metals. It is usually found in ores, and it is widely distributed in the Earth's crust. Lead is pliable and soft, and it also has a low melting point. Lead has a tinge of blue when it is first cut, and it is bright and grey. When exposed to air, it tarnishes to a drab grey tone.

Three of lead's isotopes are ends of significant nuclear decay chains of heavier elements, and lead has the highest atomic number of any stable element. Even trace levels of lead are harmful, especially for young infants. Lead's historical significance:

Lead has been used by humans for thousands of years.

Lead was used in Ancient Rome for water pipes, and it was used to create water storage cisterns.

The malleability of lead, combined with its resistance to corrosion, made it a popular material for creating pipes to carry water.

Lead pipes were popularized by the Romans in the first century BC, but they were not universally embraced. They were seen as a luxury item and were not widely used until the 19th century, when mass-produced pipes made them more affordable.

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The melting point of a substance is the temperature at which the particles have enough kinetic energy to break free from the solid phase and enter the liquid phase.

When the melting point is reached, the solid's lattice structure is disrupted and its particles are free to move, increasing the entropy of the system.

At the molecular level, when particles in a solid gain enough energy, they vibrate more intensely and begin to break the bonds between them. This disruption leads to a decrease in entropy, as the particles move around more freely.

When the melting point is reached, this decrease in entropy is overcome by an increase in entropy due to the particles being able to move around more freely in the liquid state. The disruption of the lattice structure also results in a decrease in the intermolecular forces, and thus a decrease in surface tension.

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The hydrogen emission lines in decreasing order of strength are as follows :Balmer α, Balmer β, Balmer γ, Balmer δ and Balmer ε. At a lower energy level, hydrogen is excited by heating or a spark, causing its electrons to jump to higher energy levels.

These electrons subsequently emit photons in the visible, ultraviolet, and infrared regions of the electromagnetic spectrum when they drop back to their lower energy levels.Atomic spectroscopy is a spectroscopic method that examines the spectrum of an atom in the gas phase by absorbing or emitting radiation.  

It is a method of elemental analysis that is widely used in the laboratory and industry to determine the presence and concentration of trace elements in a sample. Atomic spectroscopy is divided into three categories: atomic absorption, atomic emission, and atomic fluorescence. All three techniques involve irradiating a sample with radiation of a specific frequency, resulting in the excitation or ionization of atoms or ions. The difference between the techniques is how the sample's interaction with the radiation is measured.

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The gas law that is employed to deflate a football is Boyle's law.

Boyle's law states that for a fixed amount of gas at a constant temperature, the pressure and volume of the gas are inversely proportional to each other. The equation for Boyle's law is:

[tex]P_{1} V_{1} /P_{2} V_{2}[/tex]

Where [tex]P_{1}[/tex] is the initial pressure of the gas, [tex]V_{1}[/tex]  is the initial volume of the gas,[tex]P_{2}[/tex] is the final pressure of the gas, and [tex]V_{2[/tex] is the final volume of the gas. In the case of deflating a football, the pressure of the air inside the football is reduced by letting some of the air out. The volume of the football decreases as the pressure decreases, and this is in accordance with Boyle's law.

Therefore, The Boyle's Law is used to deflate a football. It states that the volume of a gas is inversely proportional to its pressure, when the temperature is constant.

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13.75 mL of titrant were released from the burette as a whole.

To determine the total volume of titrant dispensed from the burette, you need to subtract the initial reading from the final reading for each trial and add up the results.

For the first trial:

Final reading = 12.75 mL

Initial reading = 3.50 mL

Volume of titrant dispensed = Final reading - Initial reading = 12.75 mL - 3.50 mL = 9.25 mL

For the second trial:

Final reading = 15.60 mL

Initial reading = 12.75 mL

Volume of titrant dispensed = Final reading - Initial reading = 15.60 mL - 12.75 mL = 2.85 mL

For the third trial:

Final reading = 17.25 mL

Initial reading = 15.60 mL

Volume of titrant dispensed = Final reading - Initial reading = 17.25 mL - 15.60 mL = 1.65 mL

The total volume of titrant dispensed from the burette is the sum of the volumes from each trial:

Total volume = 9.25 mL + 2.85 mL + 1.65 mL = 13.75 mL

Therefore, the total volume of titrant dispensed from the burette is 13.75 mL.

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The molecule with the highest boiling point among the given options is 2-propylpentane. This is because the boiling point increases with the size of the molecule and branching lowers the boiling point. Thus, the correct option is C.

The boiling point is the temperature at which a liquid changes to a gas state at normal atmospheric pressure. The boiling point is the temperature at which a liquid's vapor pressure is equal to the atmospheric pressure, which is generally measured in kilopascals. When a liquid's vapor pressure equals the atmospheric pressure, the pressure acting on the surface of the liquid becomes equal to the pressure pushing down on the surface of the liquid.

The boiling point of a liquid is the temperature at which the vapor pressure equals the external or atmospheric pressure, resulting in the formation of a vapor bubble inside the liquid. When the vapor bubble leaves the liquid's surface, the boiling process is complete. The boiling point of a pure liquid changes with the external pressure, which influences the liquid's vapor pressure.

The reason for the difference in boiling points is the size of the molecule. The greater the size of the molecule, the greater the dispersion forces between molecules, the higher the boiling point. Also, branching lowers the boiling point, as branching reduces the surface area of the molecule, lowering the ability of the molecule to interact with one another.

Therefore, the correct option is C.

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The correct option is A. "more; less; greater; higher".

Explanation: Intermolecular forces refer to the forces of attraction and repulsion between molecules. These forces determine the physical properties of a substance, such as melting point, boiling point, and solubility.

A molecular substance with strong intermolecular forces means that the molecules are held tightly together, which requires more energy to overcome to break the bond.

The molecules at the surface of the liquid are held more tightly and vaporize less easily than molecules with weaker intermolecular forces. Molecules with weaker intermolecular forces are more likely to escape from the surface of the liquid and form the vapor phase.

Therefore, the amount of substance in the vapor phase will be less for molecules with strong intermolecular forces.

The vapor pressure is the pressure exerted by the vapor phase of a substance in equilibrium with its liquid or solid phase. The vapor pressure increases as the temperature increases or the amount of substance in the vapor phase increases.

Since the amount of substance in the vapor phase is less for molecules with strong intermolecular forces, the vapor pressure will be greater for molecules with weaker intermolecular forces.

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If a molecular substance has strong intermolecular forces, the molecules at the surface of the liquid are held less tightly and vaporize more easily than molecules with weaker intermolecular forces. The amount of substance in the vapor phase will be greater than for molecules with weak intermolecular forces and the vapor pressure will therefore be higher.The correct answer is b.

Molecules are held together by the force of attraction between the atoms in them, but there are also forces between the molecules. These forces are called intermolecular forces. For example, the intermolecular forces that exist between water molecules are hydrogen bonding, while the intermolecular forces between propane molecules are van der Waals forces.

The boiling point of a liquid is determined by the strength of the intermolecular forces between the molecules that make up the liquid. The stronger the intermolecular forces, the higher the boiling point.

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notable states in the United States where gold is found include California, Alaska, Colorado, Nevada, and South Dakota.

when:(gold rushes)

   California (1848-1855)

   Colorado (1858-1861)

   Alaska (1896-1899)

   South Dakota (1874-1877)

   Georgia (1828-1849)

   Montana (1862-1864)

   Nevada (1859-1864)

   Oregon (1851-1861)

   North Carolina (1799-1848)

Answer:

The balanced chemical equation for the reaction is:

C + 2H2 → CH4

From the equation, we can see that 1 mole of carbon reacts with 2 moles of hydrogen to produce 1 mole of methane. Therefore, to produce 7.8 moles of methane, we would need:

1 mole of carbon = 1 mole of CH4 / 2 moles of H2 = 1/2 mole of CH4

7.8 moles of CH4 = 7.8 × (1/2) moles of C = 3.9 moles of C

Now, we can use the molar mass of carbon to convert moles to grams:

Atomic mass of carbon (C) = 12.01 g/mol

3.9 moles of C × 12.01 g/mol = 46.8 g of C

Therefore, we need 46.8 grams of carbon to produce 7.8 moles of methane (CH4). Rounded to the nearest tenth, the answer is 46.8 grams.

The electrons donated to the electron transport chain by NADH activate 4 proton pumps, while those donated by FADH2 activate 2 proton pumps. Electron transport is the process by which electrons are passed from one molecule, such as NADH or FADH2, to another molecule, such as oxygen.

The electrons donated to the electron transport chain by NADH activate 10 proton pumps, while those donated by FADH2 activate 6 proton pumps.

What is the electron transport chain?

The electron transport chain (ETC) is a chain of molecules that move electrons down a gradient from a higher energy state to a lower energy state, releasing energy along the way. In eukaryotic cells, the electron transport chain is located in the inner mitochondrial membrane. Electrons from NADH and FADH2 are passed down the chain in the electron transport chain, which eventually generates a proton gradient used to create ATP. In the electron transport chain, NADH and FADH2 donate electrons to a chain of electron carriers, which then pump protons from the mitochondrial matrix to the intermembrane space. The number of proton pumps activated by electrons donated by NADH and FADH2 differ. Electrons donated by NADH activate ten proton pumps, while electrons donated by FADH2 activate six proton pumps. The electron transport chain is responsible for the generation of the proton motive force used by ATP synthase to create ATP, which is the main source of energy for the cell.

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When starch is treated with iodine solution, its color changes to Blue-black. Option c is correct.

This reaction is used as a test for the presence of starch in a sample. Iodine reacts with the helical amylose component of starch to form a dark blue complex, while amylopectin, which has a branched structure, forms a less intense blue color. This color change occurs due to the formation of an iodine-starch complex, which has a characteristic blue-black color. Therefore, the intensity of the color indicates the amount of starch present in the sample. Hence, option c is correct choice.

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--The complete question is, When starch is treated with iodine solution, its color changes to

(A) Yellow

(B) Red

(C) Blue-black

(D) Green--

1.  0. 0728 mole to Silicon is equals to 2.044 gram.

2. 5. 5mol of H2O is equals to 99.08 gram.

3. 0. 0728 of Ca(H2PO4)2 is equals to 17.038 gram.

The Moles can be converted to mass in grams by multiplying the molecular weight by the number of moles for the substance. The molecular weight is defined as the number of grams per mole for the substance and gives the conversion factor for moles to grams for that particular substance.

The molecular weight is defined as the mass of a given molecule: it is measured in grams per mole. According to Dalton's different molecules of the same compound may have different molecular masses because they contain different isotopes of an element.  

1. 0.0728 mole of silicon.

  The molecular weight of silicon is 28.09 g/mole.

 =  0.0728 mole * 28.09 g/mole

 = 2.044 gram.

2.  5. 5mol of H2O

    The molecular weight of water is 18.01528 g/mole.

   =  5. 5mole * 18.01528 g/mole

   = 99.08 gram

3.  0. 0728 of Ca(H2PO4)2

    Molecular weight of  Ca(H2PO4)2 is 234.05 g/mole.

    = 0. 0728mole * 234.05 g/mole

    = 17.038 gram

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Saddam Hussein's overthrow in 2003 was one of the early results of regime transition in Iraq. Given that Hussein had been in charge of Iraq's government and society for more than 20 years,

this represented a dramatic change in the political landscape of the nation. Regime transition, however, was followed by a turbulent era of political unrest and sectarian warfare. Broader geopolitical repercussions of the US-led invasion of Iraq and subsequent government change included strained ties with other nations in the region, a rise in anti-American sentiment, and the creation of new extremist organizations like ISIS. The long-term implications of the Iraqi government transition are still being discussed and examined, although is clear that the initial outcome was one of significant.

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Answer: carbon and hydrogen 

Explanation:

Hydrocarbons are a group of chemical organic compounds composed of carbon and hydrogen 

According to the following reaction, 26.1 grams of iodine will react with an excess of hydrogen gas to form 27.4 grams of hydrogen iodide:

2HI(g) + I2(s) → 2H2(g) + 2I(s)

To calculate the number of grams of hydrogen iodide formed, use the following equation:

moles of I2 = 26.1g / 126.90g/mol = 0.205 mol I2

Since there is an excess of hydrogen gas, the number of moles of the hydrogen gas used is equal to the number of moles of I2, which is 0.205 mol.

Number of moles of hydrogen iodide formed = 2 x 0.205 = 0.41 mol

Therefore, the number of grams of hydrogen iodide formed = 0.41 mol x 127.90g/mol = 52.6g

Therefore, 52.6g of hydrogen iodide is formed when 26.1g of iodine reacts with an excess of hydrogen gas.

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The statement "the percent ionization of a weak acid in water increases as the concentration of acid decreases" is CORRECT.

It happens because of Le Chatelier's principle which states that a system at equilibrium will respond to any external changes to oppose the changes and re-establish the equilibrium. A weak acid in water is in equilibrium with its ions as follows:

  HA (aq) + H2O (l) ⇌ H3O+ (aq) + A- (aq)

Where HA is the weak acid and A- is its conjugate base.

The extent of ionization or dissociation of the weak acid is measured by its degree of ionization which is expressed as a percentage. It can be calculated as:

Degree of ionization = (amount of HA ionized / initial concentration of HA) × 100

As per the statement, if the concentration of the weak acid is decreased, the system is no longer at equilibrium as the amount of HA will decrease. According to Le Chatelier's principle, the system will shift towards the side with more HA molecules to restore equilibrium. This will result in more dissociation or ionization of HA to form H3O+ and A-. Hence, the degree of ionization or percent ionization of the weak acid will increase with a decrease in the concentration of the acid.

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The partial pressure of oxygen in the atmosphere is 0.210 atm.

Therefore, the partial pressure of oxygen in mm Hg is 0.210 atm x 760 = 158.6 mm Hg and the partial pressure of oxygen in torr is 0.210 atm x 760/101.325 = 1.55 torr.

The air in the atmosphere is composed of many different gases. The most common of these gases is nitrogen, which makes up 78% of the atmosphere.

Oxygen makes up 21% of the atmosphere, and the other gases make up 1%. The atmospheric pressure is the pressure created by the weight of the gases in the atmosphere.

The atmospheric pressure is measured in units of atmospheres (atm). The atmospheric pressure at sea level is usually around 1 atm, which is equal to 760 mm Hg and 101.325 torr.

This is the same pressure that you feel when you take a breath of air.

The partial pressure of a gas is the amount of pressure exerted by that gas alone, as opposed to the total atmospheric pressure. The partial pressure of oxygen in the atmosphere is 0.210 atm.

This means that, out of the total atmospheric pressure of 1 atm, 0.210 atm of the pressure is from oxygen.

Partial pressure is often measured in units of mm Hg or torr. To convert from atm to mm Hg, the value is multiplied by 760.

Therefore, the partial pressure of oxygen in mm Hg is 0.210 atm x 760 = 158.6 mm Hg and the partial pressure of oxygen in torr is 0.210 atm x 760/101.325 = 1.55 torr.

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The number of moles of H+ ions present in the following aqueous solutions is as follows:-

(a) 1.40 L of 0.25 M perchloric acid= 0.35 mol H+ ions

(b) 6.8 mL of 0.92 M nitric acid= 0.00626 mol H+ ions

(c) 2.6 L of 0.085 M hydrochloric acid= 0.221 mol H+ ions

Molarity is used to determine the number of moles of a solute present in 1 liter of a solution.

(a) The molarity of perchloric acid is given as 0.25 M. Thus, we can find the number of moles of H+ ions present in the given solution using the below formula:-

Moles of solute = Molarity x Volume in litres= 0.25 x 1.40= 0.35 mol H+ ions

(b) The volume of the given nitric acid is 6.8 mL, i.e. 0.0068 L. Thus, the number of moles of H+ ions present in this solution can be calculated using the below formula:-

Moles of solute = Molarity x Volume in liters= 0.92 x 0.0068= 0.00626 mol H+ ions

(c) The volume of the given hydrochloric acid is 2.6 L. Thus, we can find the number of moles of H+ ions present in the given solution using the below formula:-

Moles of solute = Molarity x Volume in liters= 0.085 x 2.6= 0.221 mol H+ ions

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1. The balanced chemical equation shows that for every 2 molecules of octane burned, 16 molecules of carbon dioxide are produced. Therefore, the number of molecules of carbon dioxide represented by the equation is 16.

2. The balanced chemical equation shows that for every 2 molecules of octane burned, 25 molecules of oxygen are required. Therefore, the ratio of octane to oxygen is 2:25. From this, we can determine the number of moles of octane represented by the equation by dividing the given amount of oxygen by the ratio:

25 mol O2 × (2 mol C8H18 / 25 mol O2) = 2 mol C8H18

Therefore, the equation represents 2 moles of octane.

3. The simplified mole ratio of octane to carbon dioxide can be determined by dividing both sides of the equation by the coefficient of octane (2):

2C8H18(g) +25O2(g) → 16CO2(g) + 18H2O(l)

Dividing by 2, we get:

C8H18(g) + 12.5O2(g) → 8CO2(g) + 9H2O(l)

The simplified mole ratio of octane to carbon dioxide is therefore 1:8.

4. The simplified mole ratio of oxygen to octane can be determined in the same way, by dividing both sides of the equation by the coefficient of octane:

2C8H18(g) +25O2(g) → 16CO2(g) + 18H2O(l)

Dividing by 2, we get:

C8H18(g) + 12.5O2(g) → 8CO2(g) + 9H2O(l)

The simplified mole ratio of oxygen to octane is therefore 12.5:1.

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Answer:

Boron,silicon,germanium,arsenic,antimony,tellurium, polonium, astatine.

The molarity of the solution is 1.0 m

The first step is to convert the mass of KCl to moles:

Number of moles of KCl = 74.5 g / 74.5 g/mol = 1.0 mol

Next, we need to calculate the mass of water in kilograms:

Mass of water = 1000 mL x 1 L/1000 mL x 1 kg/L = 1 kg

Now we can calculate the molality of the solution:

Molality = moles of solute / mass of solvent (in kg)

Molality = 1.0 mol / 1 kg = 1.0 m

Therefore, the molality of the solution is 1.0 m.

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If a neutral object lost two electrons, it would have a positive charge.

Electrons are negatively charged subatomic particles that orbit around the positively charged nucleus in an atom. When an atom loses electrons, it becomes positively charged because the total negative charge from the electrons is reduced. The number of electrons in an atom determines its overall charge, and when electrons are lost, the atom's charge becomes more positive.

In this case, the neutral object would have a net positive charge equal to the number of protons in its nucleus, since it has lost two negatively charged electrons. Thus, the object would be positively charged after losing two electrons.

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The order of increasing reaction rate of alkyl halides with triethylamine is iodoethane, 1-bromopropane, and 2-bromopropane.

When the primary alkyl halide reacts with the triethylamine, it's faster than the secondary alkyl halide. Since triethylamine is a strong, bulky base that tends to perform nucleophilic substitution, it undergoes a reaction with both primary and secondary alkyl halides. When halides react with triethylamine, the bond between nitrogen and carbon is formed.

In this reaction, the rate of reaction will be slower with secondary alkyl halides due to steric hindrance.  Iodoethane will be more reactive than 1-bromopropane because of the higher electronegativity of iodine which makes it more prone to nucleophilic substitution. Based on the above discussion, the order of increasing rate of reaction with triethylamine is 2-bromopropane < 1-bromopropane < iodoethane.

Therefore, iodoethane is the most reactive of the three alkyl halides, 1-bromopropane is more reactive than  2-bromopropane and 2-bromopropane is the least reactive.

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The substrate below is primary and will undergo an [tex]SN^2[/tex] reaction when treated with a strong nucleophile. The correct answer is b. primary: will.

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Based on the information provided, the correct answer is:

Substance R changed phase because the weak attraction between molecules let them move faster. Its molecules now move around each other.

This is because when the scientist transferred the same amount of energy out of both substances, only one substance changed phase while the other did not. This indicates that one of the substances has a lower boiling point than the other. Since both substances are liquids at room temperature, it means that the substance that changed phase must have vaporized (turned into gas) while the other substance did not.

Substance R must have a weaker intermolecular force of attraction between its molecules compared to Substance Q. This means that Substance R has a lower boiling point, which allowed its molecules to move around each other and form a gas phase when energy was transferred out of it. In contrast, Substance Q remained in the liquid phase because its molecules had stronger intermolecular forces of attraction that held them together.

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