You take a balloon with fixed volume and submerge it in a hot tub for a few minutes. What would you expect to happen to the pressure of the balloon after you take it out? Explain.

Answer:

A) Cl2 + 2NaI = 2NaCl + I2

Answer:

Average atomic mass  = 57.79 amu

Percent contribution of Ni-60 = 26.45%

Percent contribution of Ni-5 =  73.55%

Explanation:

Given data:

Number of atoms of Ni-60 = 32

Number of atoms of Ni-57 = 89

Percent distribution of both isotopes = ?

Average atomic mass of sample = ?

Solution:

Percent contribution:

Total number of atoms = Ni-60 + Ni-57

Total number of atoms = 32 +89 = 121

Percent contribution of Ni-60 = 32/121×100

                                             =   26.45%

Percent contribution of Ni-57 = 89/121×100

                                             =  73.55%

Average atomic mass:

Average atomic mass = (abundance of 1st isotope × its atomic mass) +(abundance of 2nd isotope × its atomic mass)  / 100

Average atomic mass  = (26.45×60)+(73.55×57) /100

Average atomic mass =  1587 + 4192.35 / 100

Average atomic mass  = 5779.35 / 100

Average atomic mass  = 57.79 amu.

Answer:

Yay

Explanation:

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Answer:

See the answers below

Explanation:

13.5 g of NH4Cl was dissolved in 315 mL of water.

Moles of NH4Cl present in the solution = mass/molar mass

Molar mass of NH4Cl = 54.49 g/mol

a) Moles of NH4Cl = 13.5/54.49

            = 0.25 mole

b) Molarity of solution = moles of solute/volume of solution

moles of NH4Cl = 0.25

volume of solution = 315 mL = 0.315 L

molarity = 0.25/0.315

             = 0.79 M

c) moles required = 0.0500 mole

molarity = 0.79 M

molarity = moles x volume

volume = molarity/moles

         = 0.79/0.0500

         = 15.8 L = 15,800 mL

Answer:

C. 100.7 amu

Explanation:

Isotopes of an element are atoms of an element with the same atomic number but different atomic masses. Each atomic mass of an isotope is known as an isotopic mass. An element that exhibits isotope, that is, that have two or more isotopes has a relative atomic mass that is not a whole number.

Relative atomic mass of X is the sum of the products of the relative abundances of each isotope and its isotopic mass.

For Isotope ¹⁰⁰X: 30% × 100 = 30 amu

For Isotope ¹⁰¹X: 70% × 101 = 70.7 amu

Relative atomic mass of X = (30 + 70.7) amu = 100.7 amu

Therefore, the approximate atomic mass of X is 100.7 amu

Taking into account the definition of mass number, isotopes and atomic mass of an element, the average mass of hypothetical element X is 100.7.

First of all, all atoms are made up of subatomic particles: protons and neutrons, which are part of their nucleus, and electrons, which revolve around them. Protons are positively charged, neutrons are neutrally charged, and electrons are negatively charged (electrons).

On the other hand, the mass number tells us the total number of particles in the nucleus. That is, the mass number is the sum of the number of protons and the number of neutrons in the atomic nucleus.

The same chemical element can be made up of different atoms, that is, their atomic numbers are the same, but the number of neutrons is different. These atoms are called isotopes of the element.

Finally, the atomic mass of an element is the weighted average mass of its natural isotopes.

In other words, the atomic masses of chemical elements are usually calculated as the weighted average of the masses of the different isotopes of each element, taking into account the relative abundance of each of them.

In this case, two isotopes of hypothetical element X exist with abundances of 30.00% 100-X (the atomic mass is 100) and 70.00% 101-X (the atomic mass is 101).  Then, the average mass of X can be calculated as:

100×0.30 + 101×0.70= 100.7

Finally, the average mass of hypothetical element X is 100.7.

Learn more about average mass:

Answer:

The boiling point of gallium would be most similar to aluminum, and the boiling point of oxygen would be least similar to aluminum.

Explanation:

The atomic number of aluminum is 13, in the periodic table, magnesium lies in a similar period as Aluminum and Gallium is also present in a similar group. Thus, it can be expected that both magnesium and gallium exhibits similar boiling points with aluminum. However, gallium is a poor non-metal just like aluminum, while magnesium is a metal. Thus, it can be said that the boiling point of aluminum is more similar to gallium.

Now of the given elements, oxygen is a gas, thus, the boiling point of oxygen would be least similar to aluminum.

Answer: Density means the compactness of an object

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Answer:  its b hope this helps.

Explanation:  

Answer:

protons = 26; neutrons = 30

Explanation:

protons = atomic number; neutrons = atomic mass – # of protons.

Answer:

A. since Nitrogen has 7 electrons and when it gains 3 electrons it will have 10 electrons. using short hand rule it is [Ne]

Answer:

B) 104 J/mol.K

Explanation:

Step 1: Given data

Step 2: Convert "Tb" to Kelvin

We will use the following expression.

K = °C + 273.15

K = 64.6°C + 273.15

K = 337.8 K

Step 3: Calculate the standard change in entropy for the vaporization of methanol (ΔS°vap)

The vaporization is the phase transition from the liquid phase to vapor. We can calculate the standard change in entropy for the vaporization using the following expression.

ΔS°vap = ΔH°vap / Tb

ΔS°vap = (35.2 × 10³ J/mol) / 337.8 K

ΔS°vap = 104 J/mol.K

The standard change in entropy for the vaporization of methanol at its normal boiling point is 104 J/mol.K.

Standard change in entropy for the vaporization will be calculated by using the below equation as:

ΔS°vap = ΔH°vap / Tb, where

ΔH°vap = standard enthalpy of vaporization of methanol = 35.2 kJ/mol

Tb = Boiling point of methanol = 64.6°C = 64.6°C + 273.15 = 337.8 K

On putting all these values on the above equation, we get

ΔS°vap =  (35.2 × 10³ J/mol) / 337.8 K

ΔS°vap = 104 J/mol.K

Hence option (B) is correct.

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Answer: Cul2 + Br2 ->

Explanation:

Answer:

i believe the answer is a

Explanation:

Answer:

the final temperature is 465.2k

Answer:

Most elements are Solids at room temperature

Explanation:

₇N = 1s² 2s² 2p³

Therefore,

Option C is correct ✔

Answer:

Heat the molecule

Explanation:

Since most bonds require energy to form, they also give off energy when they are broken. But before most bonds break, the molecule has to be heated. Then the atoms start to move, and when they move too much, the bond breaks. Molecules that require less energy to break than they give off when broken are called fuels.

Answer:

87.5 %

Explanation:

Step 1: Given data

Step 2: Calculate the percent yield

When working with chemical reactions, we can determine the efficience in obtaining a product measuring the percent yield. The theoretical yield is the maximum amount of product that we could obtain according to the stoichiometry, whereas the real yield is the amount of product that we actually obtain when we carry out the process. We can calculate the percent yield usign the following expression.

%yield = real yield / theoretical yield × 100%

%yield = 105 kg / 120 kg × 100%

%yield = 87.5 %

Answer:

c

Explanation:c

it is a good conducter

Explanation:

Because of this, DNA and RNA can easily dissolve in water. ... Adding ethanol helps the Na+ and PO3- ions come together, because ions travel easier in ethanol than water. The supernate is removed and new ethanol is added in the second washing. This removes any residual salt that remained on the pelleted DNA.

Answer:

DNA is polar due to its highly charged phosphate backbone. Its polarity makes it water-soluble (water is polar) according to the principle "like dissolves like". ... This fact makes water a very good solvent for charged compounds like salts.

Your DNA's sugar phosphate backbone is charged. By adding salt, we help neutralize the DNA charge and make the molecule less hydrophilic, meaning it becomes less soluble in water. The salt also helps to remove proteins that are bound to the DNA and to keep the proteins dissolved in the water.

It is well known that Ethanol has a lower dielectric constant than water, making it to promote ionic bond formations between the Na+ (from the salt) and the PO3- (from the DNA backbone), further, causing the DNA to precipitate.

Explanation:

Ideally DNA needs to be precipitated with pellet and should not remain in supernatant. DNA is acidic in nature and therefore, needs optimum salt concentration in the buffer to be pelleted from a solution. At very low salt concentration or without salt DNA would remain in supernatant.

Answer:

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Explanation:

Answer:

2/ Protons and neutrons are found in the nucleus.

Explanation:

Answer: MM = 16.55 g/mol

Explanation: Freezing point depression is a phenomena that explains why adding a solute to a solvent decreases the solvent freezing point: when a substance begins to freeze, its molecules slows down and rearrange itself forming a solid. If a solute is added, the molecules from the solvent interfere in the formation of the solid. To guarantee the transformation, the solution has to cooled down even more.

Freezing point and molality concentration is related by

[tex]\Delta T=T_{f}_{(solvent)}-T_{f}_{(solution)}=K_{f}.m[/tex]

where

ΔT is freezing point depression

[tex]T_{f}_{(solvent)}[/tex] and [tex]T_{f}_{(solution)}[/tex] are freezing point of solvent and solution, respectively

[tex]K_{f}[/tex] is freezing point depression constant

m is molality concentration

Dibenzyl ether is the solvent and has the following properties: [tex]K_{f}=[/tex] 6.27 and [tex]T_{f}[/tex] = 3.6°C.

Molality concentration is

[tex]m=\frac{T_{(solvent)}-T_{(solution)}}{K_{f}}[/tex]

[tex]m=\frac{3.6-1}{6.27}[/tex]

m = 0.415

Molality concentration is moles (n) of solute dissolved in a mass, in kilogram, of solvent.

[tex]m=\frac{moles}{mass(kg)}[/tex]

n = m(mass of solvent in kg)

n = 0.415(0.035)

n = 0.0145

Molar mass (M) is the weight of one sample mole and can be calculated as

[tex]n=\frac{m}{M}[/tex]

M = [tex]\frac{m}{n}[/tex]

m in grams

Molar mass of compound X is

[tex]M=\frac{0.24}{0.0145}[/tex]

M = 16.55

Molar mass of molecular compound X is 16.55g/mol

Answer:

hope this helps :)

Explanation:

Cl2 + NaBr = NaCl + Br2

NaCl + Br2 = NaBr + Cl2

Answer:

Beta particles

Explanation:

A beta emission is said to occur when a neutron is converted into a proton. When a beta emission takes place, the daughter nucleus increases it's atomic number by 1. A neutrino is also produced.

Since the mass number remain the same but the daughter nucleus has it's atomic number increased by 1, then the particle is a beta particle.

Answer:

Thermal

Explanation:

When something heats up its atoms become further apart making it melt when something heats up or gets heat or loses heat that's thermal energy

Answer:

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Answer:

I think the correct answer is B

The speed of the light is different in different medium. The speed of the light is highest in vacuum. The increasing speed of light waves in ​medium, from slowest to fastest is gases → liquids → solids. The correct option is B.

A light wave is a mechanical wave. A mechanical wave is defined as the wave which is an oscillation of matter and it is responsible for the transfer of energy through a medium. There are two types of mechanical wave, they are longitudinal waves and transverse waves.

The light wave is a transverse wave. The movement of the particles is at right angles or perpendicular to the motion of the energy. The speed of the light depends on the density of the medium. The more density, less will be the speed of the wave.

The gaseous state has less intermolecular force of attraction as compared to the liquids and solids. So in gaseous state light has maximum speed.

Thus the correct option is B.

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