Which of the following has the ability to turn light energy into chemical energy? A. a generator B. a tree C. water D. an automobile

There are two peaks for anhydride at the above freq. our peaks are at 1759 cm-1 and one at 1838 cm-1  between two carbony1 group increases the freq. while resonance lowers the frequency.    

peak at 1100cm-1 C-O

PEAK at 1600 CM-1 alkene

2850 CM-1-3000 CM-1 ALKANE STRETCH.

3150 CM-1 ALKANE STRETCH

While cracking the dimer it will give us monomer which then reacts with maleic anhydride to give Diels-Alder product. It does not give any unwanted product at higher temperature. If  monomer reaction was low temperature and cracked.

Breaking the dimer at high temperature and it is to be reacted immediately can isolate the pure product.

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According to the question the number of moles of CO₂(g) produced in the reaction is 1.18 mol.

Moles are small, burrowing mammals found throughout much of the world. They are classified as insectivores, meaning they are specialized in eating insects. Moles have long, cylindrical bodies, short limbs, and large, clawed feet adapted for digging. Their fur is usually black to gray, though some species may have a light brown or yellowish color. They have small eyes and ears, and their noses are long and sensitive, used to detect prey and other objects in their environment.

The ideal gas law can be used to calculate the number of moles of CO₂(g) produced in the reaction. The ideal gas law states that PV = nRT, where P is pressure, V is volume, n is the number of moles, R is the ideal gas constant, and T is temperature.
Since the volume and temperature are known, we can rearrange the equation to solve for n:
n = PV/RT
At the beginning of the reaction, the pressure is 0 and the volume is 4.3 L, so the number of moles of CO₂(g) is 0.
At the end of the reaction, the pressure is 5 atm and the volume is still 4.3 L. Plugging these values into the equation gives us:
n = (5 atm)(4.3 L)/(0.08206 L·atm/mol·K)(298K) = 1.18 mol CO₂(g)
Therefore, the number of moles of CO₂(g) produced in the reaction is 1.18 mol.

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Answer:

P3

Explanation:

Im pretty sure hope this helps

Explanation:

High emission of CO2 which is bad and the wild animals which live in that spot will flee, thus that place will eventually lose much more ecological diversity.

Answer:

2.7

Explanation:

Density= mass/volume

= 1.35/0.500

= 2.7

Answer:

remember, the number of atoms is represented by the subscript. if there is a coefficient, multiply it by the subscript. if there is no subscript or coefficient written, assume it is 1.

cu = 1 atom on the reactants side, 1 atom on the products side

s = 1 atom on the reactants side, 1 atom on the products side

O = 2 atoms on the reactants side, 2 atoms on the products side

Answer:

electronegativity increases

The electron in the ground state of an infinite potential energy well has an energy of 6.1 eV. To jump from the ground state to the first excited state, the electron must be supplied with an additional energy of 3.4 eV.

The energy levels of an electron in an infinite potential energy well are quantized, meaning that they can only have certain values. The ground state energy is the lowest energy level, and the first excited state is the next highest energy level. The difference in energy between the two states is 3.4 eV.

To jump from the ground state to the first excited state, the electron must absorb a photon with an energy of 3.4 eV. The photon will be emitted when the electron falls back to the ground state.

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let us give the reaction of nucleophilic substitution reactions,

\(CH3-X + Nu ^{-} --- > CH3-Nu + X^{-}\)

A family of chemical reactions known as nucleophilic substitution reactions occurs when one nucleophile substitutes another. It is pretty reminiscent of the common displacement reactions we observe in chemistry, where a more reactive element replaces a less reactive part from its salt solution. The "leaving group" is the group that accepts an electron pair and displaces the carbon, while the "substrate" is the molecule on which substitution occurs. An anion or neutral molecule is how the departing group exits.

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Answer:

The answer is C

Explanation:

pCO2 is an important factor that affects various aspects of water chemistry and the impacts of ocean acidification. When pCO2 increases, the concentration of total CO2 dissolved in water also increases. This leads to changes in pH, which decreases due to increasing atmospheric CO2 concentration.

When pCO2 rises, the concentration of only CO2 dissolved in water increases. The dissolved CO2 forms carbonic acid, which contributes to the acidification of the ocean. This increase in CO2 affects the equilibrium between CO2, HCO3-, and CO3^2-, shifting it towards higher levels of dissolved CO2 and H+ ions, resulting in a lower pH.

In terms of the impacts of ocean acidification on different organisms, the effects can vary depending on their specific needs. An organism that requires CO2 is likely to fare better under ocean acidification since the increase in dissolved CO2 can provide them with a favorable environment. However, organisms that rely on HCO3- or CO3^2- may fare worse under ocean acidification, as the lower pH interferes with the availability of these carbonate ions, which are essential for shell formation and calcification in some marine organisms.

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Answer:

B number of the air molecules.

Explanation:

You should know i am only a 6th grader and i know

Answer:

d

Explanation:

Mitosis produces two genetically identical diploid cells, on the other hand, Meiosis produces four genetically identical haploid cells.

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Answer:

Due to static charges.

Explanation:

In the illustration, we can see that when we bring the magnet close to the body, the static charges present on the body rearrange theirselves and attracted by the magnet. The magnetic substance is responsible for the arrangement of charges on the body and when they are arranged, they attract each other so we can say that static charges are present on the body and rearrangement occurs in the body.

The neutralization reaction is:

O2H 3PO4 + 3Ba(OH) 2 → 6H 2O+ Ba(PO 4)2

A neutralization reaction is a type of chemical reaction that occurs between an acid and a base, resulting in the formation of a salt and water.

In this reaction, the hydrogen ions (H+) from the acid react with the hydroxide ions (OH-) from the base to form water (H2O), which neutralizes the acidic and basic properties of the reactants. The remaining ions then combine to form a salt.

The general equation for a neutralization reaction is:

Acid + Base → Salt + Water

For this question, the chosen answer is the neutralization reaction  because an acid (H3PO4) and a base (Ba(OH)2) react to form water and a salt (Ba(PO4)2).

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Answer:

what about chemistry notes​?

Explanation:

Lithium levels be carefully monitored in individuals who take this medication if levels are too high, you may experience lithium toxicity

The lightest of the solid elements is lithium (Li), an element belonging to Group 1 (Ia) of the periodic table. A number of its alloys and compounds, as well as the soft, white, and lustrous metal itself, are produced on an industrial scale. By electrolyzing a fused mixture of lithium and potassium chlorides, lithium metal is created. Lower-temperature operation of the electrolysis is made possible by the mixture's lower melting point (400-420 °C, or 750-790 °F) compared to that of pure lithium chloride (610 °C, or 1,130 °F). Lithium is deposited at a purity level higher than 97 percent because the voltage at which decomposition of lithium chloride occurs is lower than that of potassium chloride. Lithium is produced electrolytically using graphite anodes.

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Answer:

2H2S (g) + 3O2 (g) → 2H2O (l) + 2SO2 (g)

Calculate ΔH° from the given data. Is the reaction exothermic or endothermic?

ΔH°f (H2S) = -20.15 kJ/mol; ΔH°f (O2) = 0 kJ/, mol; ΔH°f (H2O) = -285.8 kJ/mol; ΔH°f (SO2) = -296.4 kJ/mol

Answer:

F = 130 N

Explanation:

We use the formula F = ma  

∴ F is force, m is mass and a is acceleration

F = ?

m = 65 kg

a = 2 m/\(s^{2}\)

Substituting the values in the equation:

F = 65 x 2

F = 130 N

Answer:

a. The chemical symbols represent the chemical element and are 1 to 2 letters long.

Example: Er- Erbium

b. The chemical formulas identify each element by it's chemical symbol and indicates the proportionate number of atoms in each element.

Example: Salt- NaCI

c. A chemical equation is the symbolic equation of a chemical reaction in the form of symbols and formulas.

Example: H2+O=H2O (One water molecule)

Answer:

Option C is correct

Explanation:

Covalent substances have weaker intermolecular attractions.

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The characteristic that best explains the difference in melting behaviors is

The melting point of covalent substances ( i.e. substances bounded by covalent bonding ) is lower than the melting point of ionic substances, this is because of the weak intermolecular attractions which exists in covalent compounds and this makes atoms in covalent substance to dissociate easily .

Hence we can conclude that the characteristic that best explains the difference in melting behaviors is Covalent substances have weaker intermolecular attractions.

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The sigma bond in acetylene \((C_2H_2)\) is formed by the overlap of the 1s orbitals of the two carbon atoms and the 2s orbital of the two hydrogen atoms.

To form the sigma bond, the 1s orbital of each carbon atom must overlap with the 2s orbital of the adjacent hydrogen atom. The sigma bond is the strongest type of covalent bond and has the lowest bond dissociation energy.

The approximate bond angle in acetylene is 109.5 degrees. This bond angle is determined by the geometry of the molecule and the arrangement of the atoms in space. The bond angle in acetylene is slightly distorted from a perfect tetrahedral shape due to the electron density distribution in the molecule.  

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Answer:

D. Purchase the equipment and chemicals you will need​

Explanation:

There are 38.92 grams of H3PO4 in 265 mL of a 1.50 M solution of H3PO4.

To solve this problem, we need to use the formula:

\(molarity = moles of solute / liters of solution\)

We can rearrange the formula to solve for moles of solute:

moles of solute = molarity x liters of solution

We are given the following information:

molarity = 1.50 M

liters of solution = 0.265 L (converted from 265 mL)

We can now calculate moles of H3PO4:

moles of H3PO4 = 1.50 M x 0.265 L = 0.3975 moles

Finally, we can convert moles to grams using the molar mass of H3PO4:

1 mole H3PO4 = 98 g H3PO4

0.3975 moles H3PO4 x 98 g H3PO4/mol = 38.92 g H3PO4

Therefore, there are 38.92 grams of H3PO4 in 265 mL of a 1.50 M solution of H3PO4.

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The molarity of the HCl solution needed to neutralize 28.6 mL of a 0.175 M NaOH solution is 0.2002 M

We'll begin by writing the balanced equation for the reaction. This is given below:

HCl + NaOH —> NaCl + H₂O

From the balanced equation above,

The mole ratio of the acid, HCl (nA) = 1

The mole ratio of the base, NaOH (nB) = 1

Volume of base, NaOH (Vb) = 28.6 mL

Molarity of base, NaOH (Mb) = 0.175 M

Volume of acid, HCl (Va) = 25 mL

The molarity of the acid, HCl can be obtained as follow:

MaVa / MbVb = nA / nB

(Ma × 25) / (0.175 × 28.6) = 1

(Ma × 25) / 5.005 = 1

Cross multiply

Ma × 25 = 5.005

Divide both side by 25

Ma = 5.005 / 25

Therefore, the molarity of the acid, HCl needed for the reaction is 0.2002 M

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First, we must know Avogadro's number:

1 mol of any substance = 6.02x10^23 formula units (ions, atoms, molecules, etc)

Also, we can say this:

1 mol of Li2O = its mass expressed in grams

(from Li2O molar mass = 30 g/mol approx.)

Now,

1 mol Li2O = 30 g = 6.02x10^23 molecules Li2O

30 g Li2O ----------- 6.02x10^23 molecules Li2O

x ----------- 2.8x10^24 molecules Li2O

x = 140 g approximately

Answer: 140 g

The average atomic mass of the element is 17.20 amu. This is calculated using the relative abundances and atomic masses of its isotopes.

In order to calculate the average atomic mass of the element, we need to multiply the relative atomic mass of each isotope by its abundance, and then add them up.

So, for isotope ¹⁵X:

15.33 amu * 0.286 = 4.38 amu

For ¹⁷X:

17.26 amu * 0.133 = 2.30 amu

And for ¹⁸X:

18.11 amu * 0.581 = 10.52 amu

Now, finally, we add these up to get the average atomic mass of element X:

4.38 amu + 2.30 amu + 10.52 amu = 17.20 amu

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Answer:

X : 68 F

Y : 72 F

Explanation:

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