What is the correct name for N2O

Answer:

D.

Explanation:

Well waves forming in not an indication of a phase change, neither is splashing water. Water soaking into the sand could be a form of change, from condensation into precipitation but that is not what the example is speaking of. The change from water into vapor can be indicated by the loss of water in liquid form.

Answer:

d

Explanation:

i think its d but im not sure.

Answer:

0.052636002587839 moles

Explanation:

im not sure so sorry if u get it wrong...

Answer:

yes

Explanation:

Answer:

im pretty sure! good job :))

Explanation:

im sorry if it isnt in advance, hope this helped a little!

Answer:

[tex]\rm C_4 H_8[/tex].

Explanation:

Look up the relative atomic mass of [tex]\rm C[/tex], [tex]\rm H[/tex], and [tex]\rm O[/tex] on a modern periodic table:

Calculate the molecular mass of [tex]\rm CO_2[/tex] and [tex]\rm H_2O[/tex]:

[tex]M(\mathrm{CO_2}) = 12.011 + 2 \times 15.999 = 44.009\; \rm g \cdot mol^{-1}[/tex];

[tex]M(\mathrm{H_2O}) = 2 \times 1.008 + 15.999 = 18.015\; \rm g \cdot mol^{-1}[/tex].

Given the mass [tex]m[/tex] of [tex]\rm CO_2[/tex] and [tex]\rm H_2O[/tex] produced, calculate the number of moles of molecules that were produced:

[tex]\displaystyle n(\mathrm{CO_2}) = \frac{m(\mathrm{CO_2})}{M(\mathrm{CO_2})} \approx 0.80\; \rm mol[/tex];

[tex]\displaystyle n(\mathrm{H_2O}) = \frac{m(\mathrm{H_2O})}{M(\mathrm{H_2O})} \approx 0.80\; \rm mol[/tex].

Calculate the number of moles of [tex]\rm C[/tex] atoms and [tex]\rm H[/tex] atoms in these [tex]\rm CO_2[/tex] and [tex]\rm H_2O[/tex] molecules.

The combustion reaction here include two reactants: the hydrocarbon and [tex]\rm O_2[/tex].

As the name suggests, hydrocarbons contain only [tex]\rm C[/tex] atoms and [tex]\rm H[/tex] atoms. On the other hand, [tex]\rm O_2[/tex] contains only [tex]\rm O[/tex] atoms.

Therefore, all the [tex]\rm C[/tex] and [tex]\rm H[/tex] atoms in those [tex]\rm CO_2[/tex] and [tex]\rm H_2O[/tex] molecules are from the unknown hydrocarbon. (With a similar logic, all the [tex]\rm O[/tex] atoms in those combustion products are from [tex]\rm O_2[/tex].)

In other words, that [tex]0.20\; \rm mol[/tex] of this unknown hydrocarbon molecules contains:

Hence, each of these hydrocarbon molecules would contain [tex](0.80\; \rm mol) / (0.20\; \rm mol) = 4[/tex] carbon atoms and [tex](1.60\; \rm mol) / (0.20\; \rm mol) = 8[/tex] hydrogen atoms.

The molecular formula of this hydrocarbon would be [tex]\rm C_{4} H_{8}[/tex].

Answer:

1. Mn = +7

2. S = +4

3. C = +4

4. P = +4

5. O = -1

Explanation:

The oxidation number of each element in a compound is as follows:

1. Mn in KMnO4

KMnO4 = 0

Where; K = +1, O = -2, Mn = x

+1 + x -2(4) = 0

1 + x - 8 = 0

x - 7 = 0

x = +7

2. S in SO2

SO2 = 0

Where; S = x, O = -2

x + -2(2) = 0

x - 4 = 0

x = +4

3. C in COCl2

COCl2 = 0

Where; C = x, O = -2, Cl = -1

x + -2 + -1(2) = 0

x + -2 + -2 = 0

x -2 - 2 = 0

x - 4 = 0

x = +4

4. P in PF4

PF4 = 0

Where; P = x, F = -1

x + -1 (4) = 0

x - 4 = 0

x = +4

5. O in K2O2

K2O2 = 0

Where; K = +1, O = x

+1(2) + x(2) = 0

2 + 2x = 0

-2x = 2

x = -1

Particles in a metal are held together by Covalent attractions. These are the strongest attraction or types of bonding

The bonds that hold atoms together to form molecules are called covalent bonds. They are pretty tough and not easily made or broken apart. It takes energy to make the bonds and energy is released when the bonds are broken.

For example, there is a covalent bonding between a Chlorine molecule. the two chlorine atoms are held strongly via covalent bonds.

Find more information about Covalent bonding here:

brainly.com/question/11674395

Answer:

the answer is : 28.6

1: 8+6+4+3 =21

2: there are 6 brown M&Ms = 6

3: %= 100

6×100÷21 = 28.57

round 1 Dec place = 28.6

How does the environment play an important role in creating petrified fossils?

The right conditions need to be present in order for fossilization to occur.

Drier environments, such as land, are more susceptible to the effects of erosion and so it is more difficult to preserve the organism before it decays.

Answer:

False

Explanation:

In every substance, there is a valence band and there is a conduction band. The gap between the valence band and the conduction band determines Whether a substance is a conductor or an insulator.

Conductors have a narrow gap between the valence band and the conduction band while insulators have a large gap between conduction band and insulation band. However, elements with a large number of electrons in the valence band are non conductors.

Answer:

The elements of group 18 of the periodic table are known as noble gases or inert gases.

Explanation:

The noble gases are placed in group 18 of the periodic table.  These gases have a very low chemical reactivity, that is, little combination with other elements of the periodic table. For that reason they are called inert gases. This behavior is due to its electronic configuration, because its outermost layer or valence layer is always complete, being the stable element by itself, without the need to borrow or share electrons.

As mentioned, noble gases are not very reactive, that is, they do not usually form bonds between atoms. This means that they don't react much with other substances, they don't even react between atoms of the same gas.

In summary, the elements of group 18 are non-reactive elements.

Finally, the elements of group 18 of the periodic table are known as noble gases or inert gases.

Answer:

Yes, it does have an important role in humanity!

Explanation:

In human life, refraction of light plays an important role. It has many applications in optics and imaging technology. Some of the applications are: Refraction concave and convex glasses are used to correct the refractive errors of human eyes.

its use full to humanity if you stay back jk

Answer:

Explanation:

N₂ (g ) + 4H⁺( aq ) + 4e⁻ = N₂H₄ ( aq )

H⁺ ion comes from acidic medium . 4 positive charge on proton is balanced by 4 electron to make left hand side neutral because right hand side is neutral .

Answer:

That the isotope H-1 is the most abundant in nature.

Explanation:

Hello!

In this case, since the average atomic mass of an element is computed considering the mass of each isotope and the percent abundance each, for hydrogen we would set up something like this:

[tex]m_H=m_{H_1}*\%abund_{H_1}+m_{H_2}*\%abund_{H_2}[/tex]

Moreover, since the isotope notation H-1 and H-2 means that the atomic mass of H-1 is 1 amu, that of H-2 is 2 amu and the average one is 1.0079 amu, we can infer that the most of the hydrogen in nature is H-1 as the most of it composes the average hydrogen atom.

Best regards!

Answer:

0.39 moles

Explanation:

Given mass of calcium nitrate =64gram

Molar mass of calcium nitrate = 164 gram

No of moles = given mass/ molar mass

No of moles = 64/164

= 0.39 moles

Answer:

V = 296.6 liters of oxygen.

Explanation:

The reaction of combustion of sulfur is:

O₂(g) + S(s) → SO₂(g)        (1)

To find the volume of the oxygen we need to use the Ideal Gas Law:

[tex] V = \frac{n_{O}RT}{P} [/tex]   (2)

Where:

V: is the volume

[tex]n_{O}[/tex]: is the number of moles of oxygen

R: is the gas constant = 0.082 L*atm/(K*mol)

T: is the temperature = 273 K (at STP)

P: is the pressure = 1 atm (at STP)

So we need to find the number of moles of oxygen that reacts with sulfur:

[tex]n_{S} = \frac{m}{M}[/tex]

Where:

[tex]n_{S}[/tex]: is the number of moles of sulfur

m: is the mass of sulfur = 425 g

M: is the molar mass of sulfur = 32.065 g/mol                                                                            

[tex]n_{S}=\frac{m}{M} =\frac{425 g}{32.065 g/mol} = 13.25 moles[/tex]

From reaction (1) we have that 1 mol of O₂ reacts with 1 mol of S, hence the number of moles of oxygen is:

[tex] n_{S} = n_{O} = 13.25 moles [/tex]  

Finally, the volume of oxygen is (equation (2)):

[tex]V = \frac{13.25 moles*0.082 L*atm/(K*mol)*273 K}{1 atm} = 296.6 L[/tex]

Therefore, are necessary 296.6 liters of oxygen for the combustion of sulfur.

I hope it helps you!

Answer:

A - Liquid molecules forming a gas and gas molecules forming a

liquid are equal in number.

Explanation:

A P E X

Answer:

Remain the same.

Explanation:

The reaction of the temperature of the content of the container will remain the same because no heat energy is transfer from the container to the external environment due to insulating material of the container. Insulators are poor conductor of heat and electricity so the container is unable to absorb the heat energy produced during a chemical reaction and all energy of the product remain the same.

Answer:

C. average transnational kinetic energy of the particles in an object.

Explanation:

Answer:

4P + 5O₂ —> P₄O₁₀

Explanation:

From the question given above, we obtained:

P + O₂ —> P₄O₁₀

The above equation can be balance as illustrated below:

P + O₂ —> P₄O₁₀

There are 4 atoms of P on the right side and 1 atom on the left side. It can be balance by 4 in front of P as shown below:

4P + O₂ —> P₄O₁₀

There are 10 atoms of O on the right side and 2 atoms on the left side. It can be balance by putting 5 in front of O₂ as shown below:

4P + 5O₂ —> P₄O₁₀

Now the equation is balanced.

Answer:

it is the one below that. NO, because it debt net the octet rule

Answer:

A dam: 3

solar cells: 2

food: 1

a rocket: 1

Answer:

1: yes

Explanation:

Heating a gas increases the kinetic energy of the particles, causing the gas to expand. In order to keep the pressure constant, the volume of the container must be increased when a gas is heated.

Explanation:

Work done = Force * Diatance

By applying this equation,

We have Work Done = (6.0N)(0.3m) = 1.8J.

Answer:

Explanation:

Formula used : Work = Force × Displacement

Work done = 6.0 Newton×0.3 meters = 1.8 joules