Identify the part of the atom that most determines the chemical properties of the atom.

The compounds are not easy to separate and mixtures are easy to separate.

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The optical brightener absorbs the UV rays.

What is optical brighteners?

Because of the way they reflect light, optical brightening, also known as optical bleaches, are finishes that produce the appearance of extreme whiteness and brightness. These substances contain fluorescent colorless dyes, which increases the reflection of blue light.

What is reflection?

When light reflects off of something, it happens. The light will reflect at the same angle from a smooth and shining surface, such as glass, water, or polished metal.

Chemical compounds known as optical brighteners, optical brightening agents (OBAs), fluorescent brightening agents (FBAs), or fluorescent whitening agents (FWAs), absorb light in the ultraviolet and violet region of the electromagnetic spectrum (typically between 340 and 370 nm) and then fluoresce, reemitting light in the blue region of the spectrum (typically between 420 and 470 nm).

These additives have a "whitening" effect, which makes naturally yellow-orange materials appear less yellow or orange by making up for the lack of blue and purple light reflection by the substance's fluorophore's optical emission, which is blue and purple.

Therefore, we can conclude that it is true.

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According to John Dalton, atoms are tiny, unbreakable particles without any internal organization.

Protons, neutrons, & electrons are three incredibly small subatomic particles that make up an atom. The nucleus, which is made up of protons and neutrons, sits in the middle of an atom, and an electron cloud flies around it.

The typical radius of an atom is 0.1 nm. An average pin head may hold about 5 million hydrogen. An atom's nucleus is 10,000 orders of magnitude smaller than the nucleus itself. The nucleus of an atom would be the diameter of a garden pea if it were the size as Wembley Stadium.

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Answer:

Soap and detergent can be distinguished in hard water. Soap reacts with hard water and forms come but detergents does not react with hard water.

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The enthalpy required to heat 50 g of liquid ethanol from 23 °C to ethanol vapor at 78.3 °C is 50. kJ.

We want to heat 50 g of liquid ethanol from 23 °C to ethanol vapor at 78.3 °C. We can divide this process in 2 parts:

Heating of liquid ethanol from 23 °C to 78.3 °C (boiling point).

Vaporization of ethanol at 78.3 °C.

1. Heating of liquid ethanol from 23 °C to 78.3 °C

The amount of heat required for this part (Q₁),

Q₁ = c × m × ΔT

Q₁ = (2.46 J/g °C) × 50 g × (78.3 °C - 23 °C) × (1 kJ/1000 J) = 6.8 kJ

where,

c = specific heat of liquid ethanol.

m = mass of ethanol.

ΔT = change in the temperature.

2. Vaporization of ethanol at 78.3 °C.

The amount of heat required for this part (Q₂),

Q₂ = (m/M) × ΔH°vap

Q₂ = [50 g/(46.07g/mol] × (39.3 kJ/mol) = 43 kJ

where,

m = mass of ethanol.

M = molar mass of ethanol.

ΔH°vap = enthalpy of vaporization of ethanol.

The total amount of heat required (Q) = the sum of the heat required in each step.

Q = Q₁ + Q₂ = 6.8 kJ + 43 kJ = 50. kJ

Let the process is carried out at constant pressure and the enthalpy required for the process = 50. kJ.

The enthalpy required to heat 50 g of liquid ethanol from 23 °C to ethanol vapor at 78.3 °C is 50. kJ.

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Florine is our least similar and cesium is our most similar in melting point.

Melting point is the temperature at which the solid and liquid forms of a pure substance will  exist in equilibrium. As heat is applied to a solid, its temperature will increase till the melting point is reached.

If we apply more heat then it will convert the solid into a liquid with no temperature change. Now when all the solid has melted, additional heat will raise the temperature of the liquid. The melting temperature of crystalline solids is a very characteristic figure and it is used to identify pure compounds and elements.

From the melting point data we can say that florine will be least similar to rubidium and cesium will be most similar to rubidium.

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Answer:

Measurements have shown that the concentration of salt in seawater is 35.5 g-L. Calculate the volume in liters of seawater that must be evaporated to recover 0.400 kg of salt. Be sure your answer has the correct number of significant digits

The concentration of a solution can be expressed in several methods like molarity, molality, mass percentage, etc. The volume in liters of the seawater is  11.267 L.

The measure of the capacity that an object holds is defined as the volume. If a beaker can hold 100 mL water then its volume is 100. The ratio of the mass to density of a substance is the volume.

It can be expressed in mL, L, m³, cm³, etc. The SI unit of volume is m³. The equation used to determine the volume is:

Volume = Mass / Density

1 kg = 1000 g

0.400 kg = 0.400 × 1000 = 400 g

Then the volume in liters of seawater that must be evaporated to recover 0.400 kg of salt is:

V = 400/35.5 = 11.267 L

Thus the volume of seawater is 11.267 L.

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Answer:

the balanced form is: Fe + 2HCl --> FeCl2 + H2

Carbon electrodes are changed frequently in electrolysis as the carbon in the carbon electrodes burns to give out Carbon-di-oxide.

Carbon electrodes are used in electrolysis to facilitate the transfer of electrons between the anode and the cathode. The carbon electrode is usually in the form of a rod or plate and is electrically connected to the anode.

The carbon electrode may also be used to help reduce the overall resistance of the electrolytic cell.

Carbon electrodes are used in electrolysis because they are chemically inert and have a high electrical conductivity.

However, carbon electrodes must be changed frequently because they become corroded and lose their electrical conductivity over time.

This is because carbon burns out in the Carbon electrodes to give out Carbon-di-oxide. That is why the carbon anodes should be changed frequently.

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Any compound that possesses a plane of symmetry in any conformation will be achiral. Achiral molecules are optically inactive.

(a) The reactant and the product formed on catalytic dehydrogenation of the reactant are as follows:

Reactant  Cat.[tex]H_{2}[/tex]  Product

Both the reactant and the product are optically inactive due to the presence of a plane of symmetry.

A compound may be optically active if it contains at least one asymmetric carbon atom or chiral center. Due to the presence of symmetry elements, the complex has no optical isomers. Optical isomerism is a form of stereoisomerism in which isomers have the same molecular and structural formula but different directions of rotation for linearly polarized light.

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Answer:

The answer is D

Explanation:

The number of particles is equivalent in both images.

Hope this helps!!

The Pcl6 has 48 bonded electrons and 18 lone pairs.

The Lewis structure of Pcl6 is as follows: -

Phosphorous is bonded with 6 chlorine atoms with 18 lone pairs.

Lewis structures, also known as Lewis dot formulas, Lewis dot structures, electron dot structures, or Lewis electron dot structures (LEDS), are diagrams that show the bonding between atoms of a molecule, as well as the lone pairs of electrons that may exist in the molecule. [1][2][3] A Lewis structure can be drawn for any covalently bonded molecule, as well as coordination compounds.

    In Lewis structure, atoms are bonded with single bonds. If total number of electrons are 't' and number of bonds are 'n', then t-2n number of electrons are to be placed. Once the central atom is placed, they need to complete the octet rule.

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1.110g mL⁻¹ is the density of a 3 molar solution of NaOH.

Sodium hydroxide, an inorganic substance with the formula NaOH, is also known as lye and caustic soda. It is a white, solid ionic substance made up of the cations sodium (Na+) and the anions hydroxide (OH).

Sodium hydroxide is a chemical that manufacturers utilize to make things like soap, rayon, paper, explosives, colors, and petroleum products. Processing cotton fabrics, metal cleaning and processing, electroplating, oxide coating, and electrolytic extraction are further uses for sodium hydroxide.

Caustic soda or lye are two other names for sodium hydroxide. It is a typical ingredient in soaps and cleansers. Sodium hydroxide is a white, odorless solid at ambient temperature.

Because sodium hydroxide is a potent base that entirely dissociates into hydroxide ions in solution, the initial concentration of sodium hydroxide is the same as the first concentration of hydroxide ions in solution.

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Answer:

It all depends if you were given an image of the 1,2-dibromocyclopentane

Explanation:

I've inserted an image of each compound.

Answer:

b = 4g

Explanation:

1. Subtract 5 from both sides of the equation.

b = 9g - 5g

2. Subtract 5 from 9.

b = 4g

1,2 and 3 are spontaneous processes.

What is a spontaneous process?

A spontaneous process in thermodynamics is one that happens without any external input to the system. A system's time-evolution to a lower, more thermodynamically stable energy state as it releases free energy is a more precise definition (closer to thermodynamic equilibrium).

Hence,  1,2 and 3 are spontaneous processes.

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Each period in the periodic table corresponds to a(n) principal energy level.

What does the term "primary energy level" mean?

The electron's shell or orbital in relation to the atom's nucleus is referred to as its primary energy level in chemistry.

Hence, Option a) principal energy level is correct answer.

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True, the greater the lattice energy, the greater the charges on the participatory ions and the smaller their radii.

Lattice energy is the term used to describe the energy created when two gaseous ions with opposing charges are drawn to one another and eventually form an ionic bond.

Due to the tight bonding of ionic bonds, lattice energy is always positive and typically has a brittle crystalline structure.

They are not easily deformed due to the presence of a strong electrical link, and because of the arrangement of ions, they melt at a very high temperature.

As lattice energy rises, ionic bond strength rises as well. Additionally, the size or radius of the ions as well as the charge of the ions affect the lattice energy.

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The balance chemical equation would be,

[tex]2Al+3O_{2}[/tex] ------------->[tex]Al_{2}O_{3}[/tex]

The limiting reactant would be Aluminium here.                                      

Here,

                               107.92 g Al would be required  =  96 g of O₂

Therefore,

                         82.49 g of Al might require  =  x g of O₂

Solving for x,

                                   x  =  (82.49 g × 96 g) / 107.92 g

                                   x  =  73.37 g of O₂

The mass of the excess reactant present in the vessel when the reaction is completed is 73.37g.

But,

 [tex]O_{2}[/tex]  is supplied in excess, as we get 117.65 g of it, and 44.28 g of it will not be reacted.

The amount of [tex]Al_{2}O_{3}[/tex]  formed would be solved as,

107.92 g of Al produced in reaction  =  203.92 g of [tex]Al_{2}O_{3}[/tex]

Then,

                     82.49 g of Al would produce  =  x g of [tex]Al_{2}O_{3}[/tex]

Solving for getting x,

                                         x =  (82.49 g ×  203.92 g) / 107.92

                                         x  =  155.86 g of [tex]Al_{2}O_{3}[/tex]

Therefore the mass of aluminum oxide formed would be 155.86g.

%yield= (experimental mass of product/theoretical mass of product)×100

The theoretical mass of the product is already calculated above which is 155.86g and the experimental mass of the product is given as 120g. Therefore,

(120/155.86)×100

=76.99

The percentage yield for the reaction if the reaction mixture produces 120 g of aluminum oxide would be 76.99%.

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The chemical bond that is most polar is, p-f. Correct answer: letter B.

The p-f bond is the most polar bond because it has the largest electronegativity difference between the two atoms. This means that the p-f bond will have a higher dipole moment than any other type of bond.

The p-f bond is formed when the p orbitals of two atoms overlap. The p orbitals are larger than the s orbitals, so the p-f bond is larger than the s-f bond. The p-f bond is also stronger than the s-f bond because the p orbitals are closer to the nucleus than the s orbitals.

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First determine Ka of an unknown acid by measuring the pH of the pure acid is 5.

Next titration the acid to find what volume of base is needed to neutralize it completely.

The hydronium ion concentration can be found from the pH by the reverse of the mathematical operation employed to find the pH.

calculation:-

Ka of the unknown weak acid = 1.5 × 10^5

pH = -log[1.5 × 10^5]

= 5

The acid dissociation constant Ka is used to distinguish strong acids from susceptible acids. Strong acids have especially high Ka values. The Ka fee is located by looking at the equilibrium constant for the dissociation of the acid. The better the Ka, the more the acid dissociates.

The acid Ka is used to differentiate strong acids from weak acids. Sturdy acids have noticeably high Ka values. The Ka cost is found by searching on the equilibrium consistent for the dissociation of the acid. The higher the Ka, the extra the acid dissociates.

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Disclaimer:- your question is incomplete,please see below for the complete question.

Lab report: acids, bases, salts and strong acid titration results: part 1: ka of the unknown weak acid calculations: data analysis: 1. calculate the [h3o ] using php. [h3o ].

Students are arguing about whether salt (NaCl) or water (H2O) has stronger attractive forces. The best argument is: the intermolecular forces in a solid are stronger than in a liquid. Hence, NaCl has stronger attractive forces than H2O.

The intermolecular forces are the secondary force that mediates the interaction between molecules that affects the state of matter. There are three states of matter: solids, liquids, and gases. The intermolecular forces strength between those states from the strongest to the weakest is: solids > liquids > gases. That is why solids are harder to break than liquids and gases.

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If the hard drugs are legalized, there would be an astronomical increase in crime rate that forensic scientist may be unable to handle.

There are certain drugs that are known to have the ability to affect the mood and the perceptions of a person. If an individual takes any of the drugs in this category, the individual may become unable to make effective use of his or her mind and this would impact on the ability of the person to make sound decisions.

The intake of so many drugs in this category have been responsible for a lot of crimes as can be confirmed by the foresnsic specialists. This is why in many places, the use of any of the drugs in this category is being strongly controlled.

As such, the legalization of the use of these drugs would increase the rate of crime and put a lot of pressure on the field of  forensic science.

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The main purpose of spreading pGLO on the LB plate is to help bacteria to grow, otherwise the ampicillin would kill them. In case ,pGLO is not spread, then the cells would be killed by the ampicillin.

The Green Fluorescent Protein takes around 20 minutes to be transcribed and translated , on the other hand Arabinose promoter needs at least 20 minutes before RNA polymerase can bind to the promoter .

In general they have phenotypic lag of 20 minutes before the b-lactamase gene for Amp resistance can be expressed . we observe no growth of bacteria because it was not exposed to pGLO plasmid and lacked ampicillin resistance. If They were exposed to AMP and arabinose sugar, this cause bacteria to grow with ampicillin resistance.

therefore, The purpose of the cells grown on the LB plate is to help bacteria to grow, otherwise the ampicillin would kill them. In case ,pGLO is not spread, then the cells would be killed by the ampicillin.

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Th amount of heat necessary to raise the temperature of 47.8g ethylene glycol by 57 K is 6593.532J.

What is ethylene glycol?

Ethylene glycol is a water-absorbing synthetic liquid. It has no odour and a sweet taste. Ethylene glycol is used in the manufacture of antifreeze and deicing solutions for automobiles, aeroplanes, and boats. It's also found in hydraulic brake fluids and inks used in stamp pads, ballpoint pens, and printing presses.

Th amount of heat necessary to raise the temperature of 47.8g ethylene glycol by 57 K is 6593.532J.

To calculate the amount of heat transferred (q) is the product of specific heat capacity(C), mass of substance(m) and the change in temperature(ΔT).

q=m×c×ΔT

Here m=47.8g , C=2.42J, ΔT= 57K

q= 6593.532J

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The density of the lead chess piece with the mass of 51.4 and 55 ml is 0.93 g/cm³, since 1 ml = 1 cm³.

Density of a substance is the ratio of its mass by volume it is the measure  of how much denser it is in a particular volume. The ratio of the density of an object to the density of water is called specific gravity.

Given that the volume of the chess piece is 55 ml or 55  cm³ and mass is 51.4 g. Hence density can be find out as follows:

Density = mass/ volume

            = 51.4 g/55 cm³

             = 0.93 g/cm³

Hence, density of the lead chess piece is 0.93 g/cm³.

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Your question is incomplete. But your complete question probably was:

What is the density of a lead chess piece with a mass of 51.4 and 55 ml in volume?

The mass of ammonia that can be produced from the reaction of 74.2 g of N₂ and 14.0 moles of H₂ is 90.1 g.

The mole ratio of the reaction for the production of ammonia is obtained from the balanced equation of the reaction as follows:

Equation of the reaction: N₂ (g) + 3 H₂ (g) → 2 NH₃ (g)

The mole ratio of the reactants nitrogen and hydrogen is 1 : 3

Moles of nitrogen in 74.2 g of nitrogen = 74.2/28

Moles of nitrogen in 74.2 g of nitrogen = 2.65 moles

Moles of hydrogen present = 14.0 moles

The limiting reactant is nitrogen

Mole ratio of nitrogen to ammonia is 1 : 2

Mass of ammonia produced = 2.65 * 2 * 17 g

Mass of ammonia produced =  90.1 g

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The following molecules is thought to have been absent from the primitive reducing atmosphere of early earth is oxygen , O₂.

The primitive earth of the atmosphere is consist of the hydrogen that will combined to the oxygen atoms, and for the water molecules H₂O and leaving the no hydrogen left free. that mean the the primitive reducing atmosphere of the early earth is oxygen , O₂. the original earth atmosphere is rich in methane , water vapor and ammonia.

Thus, The following molecules is thought to have been absent from the primitive reducing atmosphere of early earth is oxygen , O₂.

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