7.26 of a hydrate, Cu(NO3)2.xH2O, formed 2.4 g copper(II) oxide.

1) What is the number of moles of CuO formed?

2) What is the number of moles of Cu(NO3)2.xH2O in 7.26 g?

3) What is the mass of 1 mole of Cu(NO3)2.xH2O?

4) Mass of 1 mole of Cu(NO3)2 is 188g

5) What is the value of x in this hydrate?​

Answer:

1 mole of gas = 22.4L

2.5 moles of gas takes up = ( 22.4 L/ 1 mole ) x 2.5 mole

= 56 L

Explanation:

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The volume of 2.5 moles of nitrogen gas (N2) at standard temperature and pressure (STP) is 56 liters.

The question asks about the volume of 2.5 moles of nitrogen gas (N2) at standard temperature and pressure, commonly referred to as STP.

At STP, one mole of any gas occupies 22.4 liters. This is known as molar volume. Therefore, we can calculate the volume that the specified moles of nitrogen gas would occupy by multiplying the quantity in moles by the molar volume.

Consequently, the volume of 2.5 moles of nitrogen gas at STP would be: 2.5 moles * 22.4 L/mole = 56 L

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Answer:

different

Explanation:

physical properties are the measure the melting point boiling point and freezing point and much more

Answer:

different

Explanation:

Take for example the colligative properties: freezing point depression and boiling point elevation. As their name indicates one measure the decrease of the freezing point and the other one the increment of the boiling point, of a solvent on the addition of a non-volatile solute. So, neither the physical properties of the solvent nor the solute is equal to the physical properties of the solution they made.

Question

what is a molecular Solid

Answer:

A molecular solid is a type of solid in which molecules are held together by van der Waals forces rather than by ionic or covalent bonds.

Explanation:

A molecular solid is a solid consisting of discrete molecules. The cohesive forces that bind the molecules together are van der Waals forces, dipole-dipole interactions.

Molecular solids may be defined as compounds that are composed of distinct molecules which are held together by relatively weak interactions such as van der wall forces, dipole interaction, pie-pie interactions, etc.

Solids may ve defined as those substances of matter that maintain their shape and density when not encompassed. They possess hardness.

Molecular solids have low melting and boiling points due to the presence of relatively weak interaction which easily shatters at very optimum temperature.

Therefore, it is well described above.

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Answer:

1/1840 the mass of a C-12 atom

Choice C is correct

Explanation:

The relative mass of an electron is 1/1840 the mass of a C-12 atom . Atomic mass units are expressed relatively to the atomic mass unit of an unbound neutral carbon-12 atom.

d) 1/1840 of hydrogen atom mass is the relative electron mass.

The hydrogen gas is the lightest element and its atomic mass is [tex]\bold{1.67 \times 10^{-27} \ kg}[/tex], same as the mass of proton because it has no neutron and contains one proton and one electron in its atom. But it loses an electron to gain stable electronic configuration leaving only a proton in its atomic structure.

We know, Mass of an electron = [tex]9.11 \times 10^{-31} \ kg[/tex]

[tex]\text{Relative mass of electron} = \frac{\text{Mass of proton}}{\text{Mass of electron}}[/tex]

Relative mass of electron = [tex]\frac{1}{1840}[/tex] the mass of proton

Relative mass of electron = [tex]\frac{1}{1840}[/tex] the mass of hydrogen atom.

Answer:

D. Freezing

Explanation:

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Answer:

A. Melting

Explanation:

In the above question we noticed that there is a passage from a regular and well compacted carbon dioxide molecules to molecules in a less compact and lower density pattern after a period of heating. According to this description we can conclude that a physical process called "Melting" occurred, which is the process, where a solid substance (which has very compacted molecules) when heated becomes a liquid substance, with less compacted molecules and lower density.

Melting explains the changeover from heating to solid state to liquid state. Heating causes the temperature of the substance to rise to its melting point. The temperature does not rise while fusion is taking place, that is, only after all the substance has gone into liquid state does the temperature rise again.

The melting point of a substance is the temperature at which that substance changes from solid to liquid state.

Answer:

An alloy is a mixture of two or more metals

Explanation:

Explanation:

Endothermic vs. Exothermic Reactions. An endothermic reaction occurs when energy is absorbed from the surroundings in the form of heat. Conversely, an exothermic reaction is one in which energy is released from the system into the surroundings. The terms are commonly used in the physical sciences and chemistry.

Final answer:

Endothermic reactions absorb energy, causing environmental temperature to decrease, like in photosynthesis, while exothermic reactions release energy, increasing environmental temperature, as seen in the combustion of substances like paper. Energy changes in these reactions are due to bond forming and breaking, with endothermic reactions needing energy input and exothermic reactions releasing energy.

Explanation:

Chemical reactions can broadly be classified into two types: endothermic and exothermic reactions. Endothermic reactions absorb energy from the surroundings, often in the form of heat, leading to a temperature decrease in the environment. A classic example of an endothermic reaction is photosynthesis in plants, where solar energy is absorbed to convert carbon dioxide and water into glucose and oxygen. On the other hand, exothermic reactions release energy, usually causing a temperature increase.

Combustion of substances, such as burning paper, is an exothermic reaction because it releases heat into the surroundings. The energy difference between the reactants and products is what drives these endothermic and exothermic processes, with the former having higher potential energy in the products and the latter having higher potential energy in the reactants.

When considering the energy change during a chemical reaction, it's the formation and breaking of chemical bonds that result in energy being absorbed or released. Endothermic reactions require energy to break bonds within the reactants, leading to a higher potential energy in the products compared to the reactants.

Conversely, exothermic reactions release energy when new bonds are formed in the product molecules, which possess less energy than the reactants. If we were to draw energy graphs for these reactions, an endothermic reaction graph would depict an upward curve from reactants to products, reflecting an input of energy, whereas an exothermic reaction graph would show a downward curve, indicating that energy is released.

Answer:

Explanation:

You can support your choice on basis of the collision theory.

According to the collision theory, the chemical reactions happen when the molecules collide with each other, in the correct orientation and with enough kinetic energy to overcome the activation energy.

As consequence, the larger the number of collisions the larger the rate of a reaction.

In the case of a reaction that involves gases, decreasing the volume, will increase the pressure and the concentration (volume is inversely related to both the pressure and the concentration) causing the molecules to be closer to each other and to collide with higher frequency, this is you will expect more collisions, and so an increase on the rate of the reaction. That is expressed by the last choice: decrease the volumen to increase pressure and to increase concentration.

Answer:

d

Explanation:

Answer:

40.0%.

Explanation:

∴ The percent by mass of carbon in glucose = [(The atomic mass of C in glucose)/(The molar mass of glucose)] x 100 = [(72.0 g/mol)/(180 g/mol)] x 100 = 40.0%.

Answer:

40% (a)

Explanation:

Option A- 40%, got it right on edge 2020

Answer

Actually it is C

Explanation:

Thanks comment in the prevoius answer. Im doing study island now

Answer:

1s^2,2s^2,2p^6,3s^2,3p^6,4s^2,3d^3 = Vanadium or V

Explanation:

Do Remember there are two states for an Electron Configuration.

Excited and Ground

For brevity

Ground State Electron Configuration:

Naturally, atoms use the lowest energy possible, and this state in which an atom is at the lowest energy level possible is the Ground State.

Final answer:

The ground state electron configuration for vanadium (V) is [Ar] 4s² 3d³, as V follows the 3d orbital filling sequence after Ca and before Cr with its half-filled 3d5-shell.

Explanation:

The ground state electron configuration for the element vanadium (V), which has the atomic number 23, is a topic related to the transition elements in chemistry. The electronic configuration for vanadium can be tricky due to the closeness in energy levels of the 4s and 3d orbitals. However, from the given reference information and understanding the sequence of orbital filling for transition elements, we can deduce that after potassium (K) and calcium (Ca), where the 4s orbital is filled, the 3d electrons begin to be filled for scandium (Sc), titanium (Ti), and then vanadium (V). Keeping in mind the discontinuity that occurs at chromium (Cr), vanadium's ground state configuration can be written using the knowledge that V comes just before Cr. Therefore, vanadium’s electron configuration is [Ar] 4s² 3d³, following the 3d orbital filling after Ca and before the half-filled 3d5-shell configuration of Cr.

c=λν

3*10^8 m/s * 10^9 nm/m / 7.26*10^14 s^-1= λ

=413.22 nm

λ=413 nm

Answer : The wavelength of violet light is, 413 nm

Explanation :

Formula used :

[tex]\nu=\frac{c}{\lambda}[/tex]

where,

[tex]\nu[/tex] = frequency of violet light = [tex]7.26\times 10^{14}Hz=7.26\times 10^{14}s^{-1}[/tex]

As we know that, [tex]Hz=s^{-1}[/tex]

[tex]\lambda[/tex] = wavelength of violet light

c = speed of light = [tex]3.00\times 10^8m/s[/tex]

Now put all the given values in the above formula, we get:

[tex]7.26\times 10^{14}s^{-1}=\frac{3.00\times 10^8m/s}{\lambda}[/tex]

[tex]\lambda=\frac{3.00\times 10^8m/s}{7.26\times 10^{14}s^{-1}}[/tex]

[tex]\lambda=4.13\times 10^{-7}m=4.13\times 10^{-7}\times 10^9nm=413nm[/tex]

conversion used : [tex]1m=10^9nm[/tex]

Therefore, the wavelength of violet light is, 413 nm

Answer:

1 gram I think it is right

Answer:

helium

Explanation:

coz it take part In fusion reaction

Nuclear fusion is the source of energy for stars. Besides hydrogen, helium element is most likely also common in stars.

Energy is the ability to perform work in physics. It might exist in several different forms, such as potential, kinetic, thermodynamic, electrical, chemical, radioactive, etc. Additionally, there is heat and work, which is energy being transferred through one body to the other.

Energy is the ability to perform work in physics. It might exist in several different forms, such as potential, kinetic, thermodynamic, electrical, chemical, radioactive, etc. Additionally, there is heat and work, which is energy being transferred through one body to the other. Nuclear fusion is the source of energy for stars. Besides hydrogen, helium element is most likely also common in stars.

Therefore,  besides hydrogen, helium element is most likely also common in stars.

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Answer: D. 75g

Explanation: The answer is 75 g because due to the law of the conservation of mass no mass can be lost. So if you are making that t=mixture the mass will be the three weights combined because you are combining those three things.

The water plays role in B) dissociation of ionic compounds.

The presence of positively charged end and negatively charged end in the molecule is referred as polarity. Increasingly significant, the extremity of water is in charge of successfully dissolving other polar particles, for example, sugars and ionic mixes, for example, salt. Ionic mixes break down in water to shape particles. This is critical to recall in light of the fact that for most natural responses to happen, the reactants must be disintegrated in water.  

Since water can break down such huge numbers of basic substances, it is known as the all-inclusive dissolvable. Substances that can't be broken down by water, (for example, oils) are called fat dissolvable and are nonpolar, non-ionic exacerbates that are firmly covalently reinforced.  

D) Water dissolves nonpolar covalent substances. Due to its curved form and an uneven distribution of oxygen and hydrogen atoms' electrons, water is a polar molecule. Because of this, it makes a great solvent for polar and ionic chemicals. Water is not a good solvent for nonpolar covalent compounds, though.

Because they lack stable electric dipoles, nonpolar covalent compounds like hydrocarbons (such as oil, gasoline) and certain gases (such as methane, oxygen) do not interact with water strongly. They do not dissolve well in water because they have a tendency to resist water molecules. Because oil is nonpolar and does not dissolve in the polar water, oil and water do not combine.

Therefore, the notion that water dissolves polar and ionic molecules but ineffectively dissolves nonpolar covalent chemicals is most likely accurate. The right response is D.

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C. Heatstroke

heat stroke is the maximum critical heat-related illness. It occurs while the body can not control its temperature: the body's temperature rises rapidly, the sweating mechanism fails, and the body is not able to cool down.

Heatstroke is a condition caused by your body overheating, usually because of prolonged exposure to or physical exertion in high temperatures. This most critical shape of heat injury, heatstroke, can occur in case your body temperature rises to 104 F (40 C) or higher. The condition is most common in the summer season months

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Answer:

The first law means that unless a force pushes or pulls the object will stay completely motionless. The second law says that acceleration depends on the amount of force exerted on an object and the objects mass. The third law means that if a force of 50 Newtons to the left occurs, a force of 50 Newtons to the right will also occur.

Explanation:

Answer:

Explanation:

Ist law: A body will continue in its present state of rest or if it is in motion, will continue to move with uniform speed on a straight line unless it acted upon by a force

2nd law: The rate of change of momentum of a body is directly proptional to the applied force and takes place in the direction of the force. F = ma

3rd law: To every action, there's an equal and opposite reaction.

Answer:

Option D.

Explanation:

Some of the alpha particles Rutherford shot at the gold foil bounced back; some went all over the place, but the majority of them went right through. That meant there had to be some sort of positively charged subatomic particle in there, but it had to be at the center and couldn't take up a lot of room.

Answer:

Kinetic energy

Explanation:

Objects or particles under motion posses energy in the form of kinetic energy which is directly proportional to the square of the velocity of the given particle.

E= 1/2mv² where m is the mass of the particle and v the velocity of the particle.

Answer:

(C) Kinetic

Explanation:

2020

Answer:

kintic

Explanation:

Answer:

The system's potential energy is increasing.

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Answer:

=14.8 grams

Explanation:

The remaining amount is normally calculated using the formula:

Remaining mass= 1/2ⁿ × Original mass where n is the number of half-lives.

Therefore, original mass= Remaining mass × 2ⁿ

Remaining mass= 2.2 grams

Number of half lives= 2.75 half lives

Original mass= 2.2g × 2²·⁷⁵

=14.8 grams

Answer:

C. In every area of work.

Explanation:

(Apex)

In every area of work, chemicals are found. Hence, option C is correct.

A chemical is any substance that has a defined composition.

In every area of work, chemicals are found.

Some commonly used workplace chemical hazards include:

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Answer:

The number of molecules in a mole (known as Avogadro's constant) is defined such that the mass of one mole of a substance, expressed in grams, is equal to the mean molecular mass of the substance. The molecular mass of CO2 = 12+2x16 = 44, so the mass of a mole of CO2 is approximalty 44 grams

Explanation:

Answer:

The top curve/graph is exponential growth. All exponential growth graphs  look like a J in a way! Hope that helped

The first curve is an example of a curve that exhibits exponential growth.

An exponential growth can be defined as a situation in which the population size of a species of organism grows faster and quickly as the population gets larger.

This ultimately implies that, an exponential growth generally result in a population explosion over a period of time.

In conclusion, the curve of an exponential growth typically has a J-like shape and slopes upward as it continues to increase.

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Due to lack of total mass information of the alloy, we cannot calculate the percentage of zinc directly. Instead, for a zinc-and-oxygen compound with a known mass, the percentage of zinc can be found by dividing the mass of zinc by the total mass of the compound and multiplying by 100, which in a given example, results in approximately 80.35% zinc by mass.

To calculate the percentage of zinc in the alloy, we need to know the total mass of the alloy. Since only the mass of pure zinc (66 g) is given and not the total mass of the alloy, we can't calculate the percentage directly. However, we can calculate the percentage composition of zinc in a compound using its mass before and after decomposition. In the given reference, a 20.00 g sample of a zinc-and-oxygen compound is decomposed and 16.07 g of zinc remains, which is used to determine the percent composition.

To calculate the percentage of zinc in the compound:

Divide the mass of zinc (16.07 g) by the total mass of the compound (20.00 g).

Multiply the result by 100 to get the percentage.

So the calculation will be (16.07 g \/ 20.00 g) \\times 100%, which gives about 80.35%. This means that by mass, the compound is mostly zinc.

Answer:

       when the pressure is decreased, the temperature of both containers will increase (option D).

Explanation:

Since this question has only one answer, you must assume that both containers are identical, i.e. have the same volume.

Using the ideal gas equation pV = nRT you can conclude that pressure and temperature are directly related, i.e. if the pressure is decreased, the temperature will decrease proportionally, which is opposite to the assumption that when the pressure is decreased, the temperature of both containers will increase.

On the other hand, from the same equation, you can tell the relationship between the other variables and conclude that the other choices are valid assumptions:

A. when the temperature is increased, the volume of both containers will increase:

Correct: pV = nRT shows that volume and temperature are directly related: when T increase, V increase)

B. when the pressure is increased, the volume of both containers will decrease

Correct: pV = nRT shows that p and V and inversely related, so when p is incrased, V will decrease.

C. both containers contain the same number of gas particles

Correct, only if the two containers are identical: since the two containers of the two different gases are at the same temperature and pressure, the equation pV = nRT, shows that if the volumes are equal the number of particles are the same.

David cannot assume option C, which states both containers contain the same number of gas particles since he only knows the temperature and pressure of both gases. Without knowledge of the volume, he cannot determine the number of particles via the Ideal Gas Law.

In this question, David does not have enough information to assume that C. both containers contain the same number of gas particles. This is because simply having the same temperature and pressure for two different gases does not confirm they have the same number of particles.

In the units of Ideal Gas Law, which states PV = nRT, 'P' stands for pressure, 'V' is volume, 'n' indicates number of moles i.e., the number of particles, 'R' is the universal gas constant, and 'T' is Temperature.

From this, we can see that the number of gas particles is proportional to the pressure and volume, and inversely proportional to the temperature. Therefore, without information about volume, we can not determine if both containers have the same number of particles.

The other possibilities regarding pressure, temperature, and volume changes are governed by the principles of gas laws, such as Boyle's, Charles', and Gay-Lussac's laws.

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Answer:

Explanation:

Pressure is defined as force per unit area that a fluid exerts on its surroundings. Pressure, P, is a function of force, F, and area, A: P = F/A. The SI unit for pressure is the pascal (N/m2), but other common units of pressure include pounds per square inch (psi), atmospheres (atm), bars, inches of mercury

Pressure is measured by a device called a barometer and pressure gauge. Pressure measures the force exerted on the area of something.

Pressure is a force that is exerted on an area of the object or subject and is measured in a bar, pascal, psi, etc. It can be said that it measures the force applied by any gas or liquid on the surface area of the object.

It is important in fluid mechanics, animal anatomy and plant anatomy as the pressure is the driving force of the liquid and the gaseous component in the body system that is very essential for survival.

Therefore, pressure measures force per unit area.

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Answer:

The average atomic mass is 24.30 amu.

Explanation:

When there are at least 2 isotopes for an atom, each with its own atomic mass, we can calculate an average atomic mass (AAM), which considers the mass of each isotope and its relative abundance. The mathematical expression is:

[tex]AAM=\frac{\Sigma m_{i} \times ab_{i}  }{\%100}[/tex]

where,

AAM is the average atomic mass

mi is the mass of each isotope

abi is the relative abundance of each isotope

If we replace this expression with the data we have, then:

[tex]AAM=\frac{23.9850amu \times 78.99 \% + 24.9858amu \times 10.00\% + 25.9826amu \times 11.01 \%}{100\%} =24.30amu[/tex]

Answer: Option (A) is the correct answer

Explanation:

When a solute completely dissolves a solvent with uniform composition then it results in a homogeneous mixture which is also known as a solution.

For example, coffee is brewed with water then coffee dissolves completely and uniformly into the water making a clear solution.

Whereas in a tomato juice particles remain suspended and it is called a suspension.

Ranch salad dressing is a heterogeneous mixture as particles are non-uniformly distributed.

Muddy water is also a suspension as particles settle at the bottom after some time.

Therefore, we can conclude that out of the given options brewed coffee is a solution.