If a neutral atom of boron (B) contains 5 protons, 5 electrons and 6 neutrons, what is the mass number of this atom? (2 points)
21
11
10
5

Answer:

The answer is C) The artist carefully painted the landscape.

Explanation:

it would remain the same as

it is b refraction bro.

I looked in science book.

TRUST ME.

Final answer:

When a 0.10 M silver nitrate solution is diluted by a factor of two, the new concentration becomes 0.05 M. This is calculated by halving the original concentration because the volume of the solution has doubled.

Explanation:

If one starts with a solution of 0.10 M silver nitrate (AgNO3) and it is diluted by a factor of two, the process of dilution reduces the concentration of the solution by half. Therefore, the new concentration of the silver nitrate solution after dilution will be 0.05 M. This is because when the volume of a solution is doubled (which is what happens when a solution is diluted by a factor of two), the concentration is halved assuming that the amount of solute remains constant.

To calculate the new concentration after dilution, one could use the equation C1V1 = C2V2, where C1 and V1 are the original concentration and volume respectively, and C2 and V2 are the concentration and volume of the diluted solution respectively. Since the volume is doubled, V2 = 2V1, thus the equation can be simplified to C1 = 2C2, leading to the new concentration C2 = C1/2.

The initial concentration of 0.10 M silver nitrate is diluted by a factor of two, resulting in a new concentration of 0.05 M.

Substituting the given values:

C2 = 0.10 M / 2 = 0.05 M

So, the new concentration of the silver nitrate solution after dilution is           0.05 M.

Explanation:

First, I will assume you are asking the procedure to get mass of a substance, after we initiate a chemical reaction. If this is the case, then, let's explain it with an example:

Let's suppose we have the following reaction:

Zn + 2HCl -------> ZnCl₂ + H₂

And we part with 4.55 g of Zinc (Zn). We want to know the mass produced of ZnCl₂.

This is a simple reaction, where we only do conservation of mass. So, to get the mass of ZnCl2, we need to begin with the Zinc first, because we start with that given mass.

the mass of Zinc is 4.55 g. Chemicals reactions are better worked in moles rather than mass, because coefficients in the chemical reaction are in moles. So, in the case of the reaction (Which is already balanced):

Zn + 2HCl -------> ZnCl₂ + H₂

The number 2 that it's behind the HCl represents the theorical moles of that substance, in this case, we need 2 moles of HCl to react with only 1 mole of Zinc. It's 1 mole of Zinc because there are no numbers there, so, we always assume there's a 1 in there.

Now that we know this, let's calculate the moles of Zinc. To do that, we need the molar mass of Zinc. This can be obtained in the exercise or look the periodic table, and search for the Zinc. In this case, the molar mass of Zinc is 65.38 g/mol. So to get the moles:

n = m/MM

Replacing the data:

n = 4.55 g / 65.38 g/mol = 0.0695 moles

These are the moles of Zn reacting in the chemical reaction. Now, we should do some stechiometry. In this case, we can see that, 1 mole of zinc (In the reaction) produces 1 mole of ZnCl2, therefore the moles of Zn obtained, will be the same moles produced of ZnCl2, thus:

moles ZnCl2 = moles Zn = 0.0695 moles

Finally, with the molar mass of ZnCl2, we can calculate the mass. the molar mass of ZnCl2 is 132.29 g/mol so:

m = n * MM

Replacing:

m = 0.0695 * 132.29

m = 9.19 g of ZnCl2

And this is the simple way to obtain the mass of a substance in a reaction

Answer: C. The argon sample would have four times as many atoms as the neon sample.

Explanation:

According to avogadro's law, 1 mole of every substance weighs equal to the molecular mass and contains avogadro's number [tex]6.023\times 10^{23}[/tex] of particles.

1 mole of neon [tex]Ne[/tex] contains=[tex]6.022\times 10^{23[/tex] atoms

1 mole of argon [tex]Ar[/tex] contains=[tex]6.022\times 10^{23[/tex]  atoms

Thus 4 moles of argon [tex]Ar[/tex] contains=[tex]\frac{6.022\times 10^{23}}{1}\times 4=24.09\times 10^{23}[/tex]  atoms

Thus the argon sample would have four times as many atoms as the neon sample.

Radon is an invisible, odorless noble gas that is released from the ground, emerging from the decay of uranium and thorium in soils. It is chemically inert but radioactively harmful, being a leading cause of lung cancer behind smoking. Radon typically infiltrates buildings through structural openings and can accumulate in enclosed spaces.

Radon is a naturally-occurring, colorless, odorless, and toxic noble gas that is the subject of the question. It emerges from the decay of uranium and thorium found in various soils and can accumulate in indoor environments such as homes. Radon is radioactively unstable and breaks down into other radioactive elements that can damage lung tissue and potentially lead to lung cancer, making it a significant health concern.

Radon is the primary source of indoor air pollution and the second leading cause of lung cancer in the U.S., particularly among nonsmokers. The gas usually enters buildings through cracks in foundations, walls, and floors, and can even be emitted from building materials or water from wells.

It was discovered in 1900 by Friedrich Earns Dorn and originally named niton. The most stable isotope of radon, Radon-222, is an alpha decay product of Radium-226 and is part of the uranium-238 decay chain.

The final temperature of the calorimeter is 25.8 °C

From the question given above, the following data were obtained:

Q = MC(T₂ – T₁)

14000 = 1200 × 3.55(T₂ – 22.5)

14000 = 4260(T₂ – 22.5)

Clear bracket

14000 = 4260T₂ – 95850

Collect like terms

14000 + 95850 = 4260T₂

109850 = 4260T₂

Divide both side by 4260

T₂ = 109850 / 4260

T₂ = 25.8 °C

Learn more about heat transfer:

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Answer:

D. The World Trade Organization

Explanation:

The purpose of the World Trade Organization is to establish a common institutional framework to regulate trade relations between its various Members, to establish a mechanism for the peaceful settlement of trade disputes on the basis of the trade agreements currently in force and to create an environment negotiation of new trade agreements between Members.

Thus, we can conclude that if a country is producing packaging of a commercial product that is taking advantage of the product of other countries, this should be discussed at a meeting of the World Trade Organization.

Final answer:

approximately 9.69 × 10^23 oxygen atoms in 6.00 g of sodium dichromate.

Explanation:

to calculate the number of moles of Na2Cr2O7 in 6.00 g and then use this information to find the number of oxygen atoms. First, calculate the molar mass of Na2Cr2O7. Sodium (Na) has an atomic mass of about 23.0 g/mol, chromium (Cr) is roughly 52.0 g/mol, and oxygen (O) is 16.0 g/mol. Therefore, the molar mass of Na2Cr2O7 is (2×23.0) + (2×52.0) + (7×16.0) = 262.0 g/mol. To find the moles of Na2Cr2O7 in 6.00 g, use the formula: Moles = mass (g) / molar mass (g/mol), which gives us 6.00 g / 262.0 g/mol = 0.0229 mol.

Since Na2Cr2O7 contains 7 oxygen atoms per formula unit, the total number of oxygen atoms in 6.00 g of Na2Cr2O7 is 0.0229 mol × (7 atoms/mol) × (6.022 × 1023 atoms/mol) = 9.69 × 1023 oxygen atoms.

Answer:

A theory must be supported by many different experiments.

Explanation:

It is important for a theory to be tested by different independent science labs. When the same data are observed only then the theory reaches a consensus in the scientific community. A theory is based on evidence and not on educated guess. A scientific theory withstands rigorous scrutiny before it becomes accepted by the scientific community. Hence option B in correct.

Final answer:

To find the volume of a 0.30M solution needed for 2.7 moles of solute, use the formula Volume = moles / Molarity. The result is 9 liters.

Explanation:

The question asks to calculate the volume of a 0.30M solution required to obtain 2.7 moles of solute. Using the formula for molarity (M = moles of solute / liters of solution), we rearrange the formula to solve for the volume (liters) of the solution:

Volume (L) = moles of solute / Molarity (M)

Plugging into the formula:

Volume (L) = 2.7 moles / 0.30M

This gives us:

Volume (L) = 9 Liters

To verify, we multiply the calculated volume by the given molarity:

2.7 moles = 9 Liters * 0.30M

The calculation confirms that 9 Liters of a 0.30M solution contains 2.7 moles of solute, so the answer is correct.

The statement "Lead has more valence electrons than carbon" is absolutely false.

Valence electrons may be defined as the number of electrons that are present in the outermost shell of any atom. These electrons actively take part in the formation of chemical bonds.

For example, Sodium has atomic number 11. Its electronic configuration is 2, 8, 1. One electron is significantly present in the outermost shell, so the number of valence electrons in a sodium atom is 1.

Lead is an element that belongs to group number 4A. Though it is a member of group 4A, it has four valence electrons. Carbon has an atomic number of 6, its electrons are distributed like 2 electrons in K-shell and 4 electrons in the L-shell. L-shell is an outermost shell. Therefore, carbon also possesses the number of valence electrons four.

Therefore, the statement "Lead has more valence electrons than carbon" is absolutely false.

To learn more about Valence electrons, refer to the link:

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According to the concept of the Tragedy of the Commons, shared resources over time: D. would become depleted.

Tragedy of the Commons refers to an economic situation in which individuals with access to a shared resource act in their own selfish interest while retroactively depleting this resource.

This ultimately implies that, the Tragedy of the Commons is an economic problem which is caused due to overconsumption by individuals sharing a common resource and it eventually leads to the depletion of the resource.

Read more on Tragedy of the Commons here: brainly.com/question/22075885

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The reaction is likely first order as indicated by the provided rate constant which aligns with the characteristics of a first-order reaction.

To determine whether the reaction is first order or second order, we need to consider the rate at which the concentration of A changes over time. For a first order reaction, the rate of reaction is directly proportional to the concentration of the reactant. This means that if you were to plot the natural logarithm (ln) of the concentration of A versus time, you would see a linear relationship.

In contrast, a second order reaction implies that the rate is proportional to the square of the concentration of the reactant. Here, plotting the inverse of the concentration of A versus time would yield a linear relationship.

Given that the rate constant for the reaction is expressed as k = 1.0 × 107 L mol−1 min−1, this is indicative of a first order reaction, as it does not include a squared concentration term. Therefore, based on the provided information, the reaction is first order.

Answer : Each planet orbits the sun in an elliptical shape with the sun at one of the ellipse's two focal points.

Explanation:

Kepler's Law of ellipses: This law explains the path of the planet around the sun

The orbit of the planet around the sun is an ellipse shape, where sun is present on the one of the focus.

From the given options the correct option is:

Each planet orbits the sun in an elliptical shape with the sun at one of the ellipse's two focal points.

Answer:

A

Explanation: