Bond length is the distance between the centers of two bonded atoms. On the potential energy curve, the bond length is the internuclear distance between the two atoms when the potential energy of the system reaches its lowest value. Given that the atomic radii of H and I are 25.0 pm and 133 pm , respectively, predict the bond length of the HI molecule.

Answer:

mass water = 347 x 0.992 = 344.2 g

moles water = 344.2 g / 18.02 g/mol= 19.1

moles C3H8O3 = 164 g / 92.097 g/mol= 1.78

mole fraction water = 19.1 / 19.1 + 1.78 = 0.915

p = 0.915 x 54.74 = 50.07 torr

Explanation:

Answer:

D. 2Cu + O2 = 2CuO

Explanation:

Then CuO, which is black, reacts with CO2 to form CuCO3 which is green.

Answer : The correct chemical reaction is, (D)

Explanation :

Synthesis reaction : It is defined as a chemical reaction where multiple substances or reactants combine to form a single product.

It is represented as,

[tex]X+Y\rightarrow XY[/tex]

When copper react with an oxygen then it react to give copper oxide as a product.

The balanced chemical reaction will be:

[tex]2Cu+O_2\rightarrow 2CuO[/tex]

Hence, the correct chemical reaction is, (D)

Answer:

BrCl3

Explanation:

BrCl3: This compound has a T- shaped molecular geometry. And the difference in electronegativity is  0.2 to be precise makes is  polar covalent compound.

CS2: Carbon sulphide is clearly a non polar compound because of the similar electronegativities of both carbon and sulphur.

SiF4: This molecule has Tetrahedral geometry. So, even though the difference in the electronegativity of Sulphur and Florine is high, the tetrahedral geometry makes it a non polar compound.

SO3:  This molecule has trigonal planer geomtry. Hence, again in this molecule the polarity is being equal and opposite is cancelled out.

Answer:

The polarity of the molecule is defined as ability of the molecule to attract water through hydrogen bonding. Polarity of a molecule determines several characteristics of a substance. In the given examples, Bromine trichloride is a polar molecule.

Explanation:

Polarity of the substance or molecule is defined as the ability of a molecule to have electric dipole moment due to distribution of charges. In the given examples:

1. Bromine trichloride has a T-shaped geometry and the difference in electronegativity is 0.2. It has two lone pairs due to which the shape of molecule is bent.

2. Carbon sulphide is a non-polar molecule because of the symmetric shape having no electric dipole moment.

3. The tetrahedral geometry and symmetry of silicon tetrafluoride molecule provides the non-polar characteristic to the molecule. Silicon tetrafluoride have zero net dipole moment.

4. Sulphur trioxide is a non-polar molecule, which have trigonal planar geometry. The polarity of the molecule is cancelled out, which makes it to have zero dipole moment. Thus, it is a non-polar molecule.

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Answer:

Heat realesed is - 2192.7 kJ

Explanation:

First lets have the chemical equation balanced, and then solve the question based on the fact that the enthalpy change for a reaction is the sum of the enthalpies of formation of products minus reactants.

    B₅H₉ (l) +     O₂ (g) ⇒       B₂O₃ (s) +      H₂O(l)

B atoms we have 5 reactants and 2 products, so the common mltiple is 10 and we have

  2  B₅H₉ (l) +     O₂ (g) ⇒      5 B₂O₃ (s) +      H₂O(l)

Now balance H  by multiplying by 9 the H₂O

  2  B₅H₉ (l) +     O₂ (g) ⇒      5 B₂O₃ (s) +    9 H₂O(l)

Finally, balance the O since we have 24 in products by multiplying by 12 the

O₂ ,

        2  B₅H₉ (l) +  12 O₂ (g) ⇒      5 B₂O₃ (s) +    9 H₂O

ΔHrxn = 5 x ΔHºf B₂O₃  + 9 x   ΔHºf H₂O  -  ( 2 x ΔHºf  B₅H₉ + 12 x  ΔHºf O₂  )

We have all the  ΔHºf s except oxygen but remember the enthalpy of formation of a pure element in its standard estate is cero.

ΔHrxn =  5 mol x ( -1272 kJ/mol )+ 9 mol  x ( -285.4 kJ/mol )   - (  2mol x 732 kJ/mol )

= -8928.6 kJ - 1464  kJ = -10,392 kJ

Now this enthalpy change was based in 2 mol  reacted according to the balanced equation, so for 0.211 mol of  B₅H₉  we will have:

-10,392 kJ/ 2 mol B₅H₉   x 0.211 mol B₅H₉ = - 2192.7 kJ

Answer:

ΔH=-957.41 kJ

Explanation:

The chemical equation is:

B₅H₉ (l) +     O₂ (g) ⇒       B₂O₃ (s) +      H₂O(l)

The law of conservation of matter states that since no atom can be created or destroyed in a chemical reaction, the number of atoms that are present in the reagents has to be equal to the number of atoms present in the products.

Then, you must balance the chemical equation. For that, you must first look at the subscripts next to each atom to find the number of atoms in the equation. If the same atom appears in more than one molecule, you must add its amounts

The coefficients located in front of each molecule indicate the amount of each molecule for the reaction. This coefficient can be modified to balance the equation, just as you should never alter the subscripts.

By multiplying the coefficient mentioned by the subscript, you get the amount of each element present in the reaction.  

So in first place you balance B

2 B₅H₉ (l) +     O₂ (g) ⇒   5 B₂O₃ (s) +      H₂O(l)

Then you balance H

2 B₅H₉ (l) +     O₂ (g) ⇒   5 B₂O₃ (s) +    9  H₂O(l)

Finally you balance O

2 B₅H₉ (l) +    12 O₂ (g) ⇒   5 B₂O₃ (s) +    9  H₂O(l)

Then

Left side: 2*5=10 boron (B), 2*9=18 hydrogen. and 12*2=24 oxygen

Right side: 5*2=10 boron (B), 9*2=18 hydrogen. and 5*3 + 9*1=24 oxygen

Since you have the same amount of elements on each side of the equation, the equation is balanced.

You want to calculate the ∆H (heat of reaction) of the combustion reaction, that is, the heat that accompanies the entire reaction. For that you must make the total sum of all the heats of the products and of the reagents affected by their stoichiometric coefficient (quantity of molecules of each compound that participates in the reaction) and finally subtract them:

Enthalpy of combustion = ΔH = ∑Hproducts - ∑Hreactants

Knowing that:

For the formation of one mole of a pure element the heat of formation is 0, in this case we have as a pure compound the oxygen O₂.

Then:

ΔH= 9 mol*(-285.4 kJ/mol) + 5 mol* (-1,272 kJ/mol) - [2 mol* 73.2 kJ/mol + 12 mol* 0 kJ/mol]

ΔH= -9,075 kJ

If you observe the previous balanced reaction, you can see that 2 moles of B₅H₉ (l) are necessary. And the calculation of the heat of reaction previously carried out is based on this reaction. This ultimately means that the energy that would result in the reaction of 2 moles of B₅H₉ (l) is -9,075 kJ.

To determine the heat that is released when 0.211 mol of B₅H₉ (l) react with excess oxygen, a rule of three is applied as follows: if 2 moles of B₅H₉ (l) produces a heat ΔH of -9,075 kJ, when reacting 0.211 mol of B₅H l (l) how much heat ΔH is released?

ΔH=[tex]\frac{0.211 moles*(-9075)kJ}{2 moles}[/tex]

ΔH=-957.41 kJ

Answer:

there

Explanation:

Tick Volume Definition Tick volume is measuring every trade whether up or down and the volume that accompanies those trades for a given time period. If you are a day trader or a short term swing trader, tick volume analysis will assist you in sizing up the market on an intraday basis.

The volume by each small tick on a burette represents 0.05 mL.

A burette is a long, graduated tube with a stopcock at the bottom. It is used to measure small volumes of liquids, such as in titrations. The graduations on a burette are typically in milliliters (mL), and each small tick represents 0.05 mL.

This means that if you want to dispense 0.1 mL of liquid from a burette, you would need to dispense 2 small ticks.

The volume represented by each small tick may vary depending on the burette. It is always best to check the burette's calibration before using it to ensure that you are dispensing the correct volume of liquid.

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Answer:

Mass of hexamethylenediamine= 13,470.62 g

Mass of adipic acid =  16,940.13 g

Explanation:

Nylon -6,6 is synthesized by poly-condensation of hexamethylenediamine [NH₂-(CH₂)₆-NH₂] and adipic acid (C₆H₁₀O₄).

Both of these are taken in equal equivalents and reacted to form nylon 6,6 and by-product water is also formed.

Molecular mass of hexamethylenediamine [NH₂-(CH₂)₆-NH₂] =116.21 g/mol

Molecular mass of adipic acid (C₆H₁₀O₄) = 146.1412 g/mol

Molecular mass of Nylon 6,6 (C₁₂H₂₀N₂O₂) = 224.3 g/mol

Using unitary method :

Mass of hexamethylenediamine required for 26,000 g of Nylon 6,6 if 116.21 g/mol is required for 224.3 g/mol, is:

= [tex]\frac{26,000 *  116.21}{224.3}[/tex]

= 13,470.62 g

Mass of adipic acid required for 26,000 g of Nylon 6,6 if 146.1412 g/mol is required for 224.3 g/mol, is:

= [tex]\frac{26,000 *  146.1412}{224.3}[/tex]

= 16,940.13 g

Answer:

[tex]6.0\times 10^3 kJ[/tex] heat is released during the combustion of ethane gas when 14 moles of oxygen are consumed.

Explanation:

[tex]C_2H_6(g)+\frac{7}{2}O_2(g)\rightarrow 2CO_2(g)+3H_2O(l),\Delta H_{rxn}=-1.5\times 10^3 kJ/mol[/tex]

According to reaction, when 7/2 moles of oxygen is consumed by 1 mol of ethane [tex]1.5\times 10^3 kJ[/tex] energy is released.

Energy released when 1 mole of oxygen are consumed: [tex]\frac{1.5\times 10^3 kJ\times 2}{7}[/tex]

Then energy released when 14 moles of oxygen are consumed:

[tex]\frac{1.5\times 10^3 kJ\times 2}{7}\times 14=6.0\times 10^3 kJ[/tex]

[tex]6.0\times 10^3 kJ[/tex] heat is released during the combustion of ethane gas when 14 moles of oxygen are consumed.

Answer:

6.0×10^3 KJmol-1

Explanation:

Equation of the reaction

C2H6(g) + 7/2 O2(g) ------> 2CO2(g) + 3H2O(g)

From the balanced reaction equation:

1 mole of ethane reacts with 3.5 moles of oxygen

x moles of ethane will react with 14 moles of oxygen

x= 14/3.5 = 4 moles of ethane

If heat of combustion of ethane= -1.5*103 kJ/mol

Then for 4 moles of ethane= 4× -1.5*103 kJ/mol= 6.0×10^3 KJmol-1

Answer:

A.) The Proton and the Neutron are the subatomic particles within the nucleus. The Proton has a positive charge, and the Neutron has a neutral charge.

B.) The subatomic particle that is found on the exterior of the atom is the Electron, which has a negative charge.

Explanation:

The atom's nucleus contains protons with a positive charge and neutrons with no charge. The region outside the nucleus, the electron cloud, contains the negatively charged electrons.

The nucleus of an atom contains two types of subatomic particles, protons and neutrons. Protons have a positive charge, represented as +1, while neutrons are neutral and have no charge.

The region outside the nucleus, known as the electron cloud, contains electrons. These subatomic particles carry a negative charge, represented as -1.

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Answer: the product of this reaction is option B which is carbondioxide and water.

Explanation:A chemical reaction involves the process in which one or more substances, the reactants, are converted to one or more different substances, the products. In the equation above, methane and oxygen gas are the reactants while carbondioxide and water are d products.

Answer:B

Explanation:

co 2 is the same as carbon dioxide and H 20 stand for water.

Final answer:

To find the volume of diethylamine needed for an experiment, dividing the required mass (65.0 g) by the density of diethylamine (0.706 g/cm3) calculates a volume of 92.1 mL that the student should measure out.

Explanation:

To calculate the volume of diethylamine that a student needs for an experiment, use the formula that relates mass, density, and volume: volume = mass / density. Here, the mass required is 65.0 g, and the density of diethylamine is given as 0.706 g/cm3.

Substitute the given values into the formula:

Volume = 65.0 g / 0.706 g/cm3 = 92.1 cm3 or 92.1 mL, since 1 cm3 = 1 mL.

Therefore, the student should pour out 92.1 mL of diethylamine for their experiment.

Answer:

Option B is the right one  0.83M

Explanation:

Molarity = Moles of solute/liters of solution

You should calculate the molar mass of NaCl firstly.

Molar mass NaCl = Molar mass Na + Molar mass Cl

Molar mass NaCl = 23 g/m + 35.45 g/m

Molar mass NaCl = 58.45 g/m

To know the moles we should divide grams / molar mass

97 g/ 58.45 g/m = 1.66 moles

This moles are in 2L of solution.

Molarity = mol/L

1.66 moles/2L = 0.83M

Answer:

(b) lose electrons and form positive ions

Explanation:

Ionic bonding:-

This type of bonding is formed when there is a complete transfer of electrons from one element to another element. In this bonding one element is always a metal and another is a non-metal.

For example, the formation of NaCl

The electronic configuration of sodium with Z = 11 is : 2, 8, 1

The electronic configuration of chlorine with Z = 17 is : 2, 8, 7

Thus, sodium loses one electron and become positively charged and chlorine accepts this electron and become negatively charged and they have both their octets complete and form ionic bond.

Hence, can be seen from the above example, metallic atoms generally lose electrons and form positive ions.

Answer:

Carbonic anhydrase, H+K+ATPase

Explanation:

Within the parietal cells of the stomach CO2 and H2O are combined by carbonic anhydrase to produce H2CO3,which quickly dissociates into H+ and HCO3- .H+ ions are pumped into the lumen of stomach via a H+K+ATPase,while HCO3- is pumped into the blood in exchange for Cl- ,which ultimately enters the lumen of the stomach as well.

You may find bellow the association of therms with the definitions.

Explanation:

1. standard metric unit of length  - e. meter

2. a proposed explanation for a scientific problem  - b. hypothesis

3. standard unit of volume  - c. liter

4. the curved top surface of a liquid column  - f. meniscus

5. a quantity in an experiment that remains unchanged or constant  - d. control

6. amount of matter in an object  - a. mass

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Answer:

The mole fractions:

[tex]x_{HBr}=\frac{100mol}{318.5}=0.314[/tex]

[tex]x_{Br_2}=\frac{78mol}{318.5}=0.245[/tex]

[tex]x_{H_2O}=\frac{78mol}{318.5}=0.245[/tex]

[tex]x_{O_2}=\frac{62.5mol}{318.5}=0.196[/tex]

Explanation:

The reaction described is:

[tex]2 HBr (g) + 1/2 O_2 (g) \longrightarrow Br_2 (g) + H_2O (g)[/tex]

The limiting reactant is the HBr (oxygen is in excess).

a) The mass (in moles) balance for this sistem:

[tex]n_{Br_2}=\frac{ 1 mol Br_2}{1 mol HBr} *n_{HBr}*0.78[/tex]

(the 0.78 is because of the fractional conversion)

[tex]n_{O_2}=\frac{ 0.5 mol O_2}{1 mol HBr} *n_{HBr}*1.25[/tex]

(the 1.25 is because of the oxygen excess)

[tex]n_{H_2O}=\frac{ 1 mol H_2O}{1 mol Br_2} *n_{Br_2}[/tex]

There is only one degree of freedom in this sistem, you can either deffine the moles of HBr you have or the moles of Br2 you want to produce. The other variables are all linked by the equations above.

b) Base of calculation 100 mol of HBr:

[tex]nn_{HBr}=100 mol HBr[/tex]

[tex]n_{Br_2}=\frac{ 1 mol Br_2}{1 mol HBr} *100mol HBr*0.78[/tex]

[tex]n_{Br_2}=78 mol Br2[/tex]

[tex]n_{O_2}=\frac{ 0.5 mol O_2}{1 mol HBr} *100 mol HBr*1.25[/tex]

[tex]n_{O_2}=62.5 mol O_2[/tex]

[tex]n_{H_2O}=n_{Br_2}= 78 mol[/tex]

[tex]n_{total}=(78+78+100+62.5)mol= 318.5mol[/tex]

The mole fractions:

[tex]x_{HBr}=\frac{100mol}{318.5}=0.314[/tex]

[tex]x_{Br_2}=\frac{78mol}{318.5}=0.245[/tex]

[tex]x_{H_2O}=\frac{78mol}{318.5}=0.245[/tex]

[tex]x_{O_2}=\frac{62.5mol}{318.5}=0.196[/tex]

Answer:

An endothermic reaction has a positive ΔH, absorbs heat from the surroundings, and feels cold to the touch.

Explanation:

The enthalpy of reaction, ΔH, is the difference  between the enthalpies of the products and the enthalpies of the reactants:

[tex]ΔH = H(products) - H(reactants)[/tex]

The enthalpy of reaction can be positive or negative, depending on the process.

For an endothermic process (heat absorbed by the system from the surroundings), ΔH  is positive (that is, ΔH > 0).

For an exothermic process (heat released by the system  to the surroundings), ΔH is negative (that is, ΔH < 0).

An endothermic reaction absorbs heat from its environment, has a positive ΔH, and feels cold to touch. It occurs when more energy is required to break bonds in reactants than the energy released when new bonds form in products. In contrast, an exothermic reaction releases heat, thus feels warm, and has a negative ΔH.

An endothermic reaction is a type of chemical reaction that absorbs heat energy from the surroundings, hence it has a positive ΔH (enthalpy change). In simpler words, it requires more energy to break the bonds in the reactants than is released when new bonds form in the products. As a result, the reaction feels cold to the touch because heat is being drawn in from the environment. On the other hand, an exothermic reaction gives off heat to the surroundings, has a negative ΔH, and feels warm to the touch as it releases energy.

The enthalpy (ΔH), is a measure of the total energy of a thermodynamic system. It consists of the internal energy of the system plus the product of pressure and volume. The sign of ΔH can predict whether a reaction would be exothermic or endothermic.

For instance, the decomposition of dinitrogen tetroxide (N₂O4 (g) → 2NO₂ (g)) is an endothermic process, which means the reaction will absorb 57.20 kJ of heat from its surroundings. In contrast, the combustion reaction in an oxyacetylene torch is exothermic and releases energy in the form of heat and light.

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Answer: Solute or solvent

Explanation: A solute is the substance that dissolves to make a solution. The solvent is the solution that does the dissolving.

Explanation:

LeChatlier's principle states that any  change in pressure, temperature, or concentration of a reactant applied to a system in equilibrium, the equilibrium will shift so as to tend to counteract the effect of the change.

In our question,[tex]AgCl[/tex] is added.

[tex]AgCl[/tex] is a product.

When product concentration increases,the reaction goes to the left so as to decrease the product concentration.

Adding more silver chloride (AgCl) to the system in equilibrium causes the equilibrium to shift to the left, producing more reactants (AgNO3 and NaCl) and reducing the AgCl.

According to Le Chatelier's Principle, when a change in concentration, pressure, or temperature is applied to a system in equilibrium, the system will adjust itself to counteract the effect of the change. The reaction equation provided is AgNO3 (aq) + NaCl (aq) → AgCl (s) + NaNO3 (aq).

If additional silver chloride (AgCl) is added to the beaker, the equilibrium will shift to the left (reactants) to reduce this excess. More reactants AgNO3 and NaCl will be produced, reducing the amount of AgCl. This is because the system strives to maintain equilibrium by utilising the 'extra' AgCl to form more reactants.

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Answer:

Pb-210 that lead-210 is the product of second step.

Explanation:

Alpha decay : When a larger nuclei decays into smaller nuclei by releasing alpha particle. In this process, the mass number and atomic number is reduced by 4 and 2 units respectively.

General representation of alpha decay :

[tex]_Z^A\textrm{X}\rightarrow _{Z-2}^{A-4}Y+_2^4\alpha[/tex]

Beta decay : In this process, a neutron is converted into a proton and an electron. In this decay, the atomic number is increased by 1 unit.

General representation of beta decay :

[tex]_Z^A\textrm{X}\rightarrow _{Z+1}^{A}Y+_{-1}^0e[/tex]

Step 1. Bi undergoes α decay;

[tex]_Z^A\textrm{X}\rightarrow _{81}^{210}Tl+_2^4\alpha[/tex]

81 = Z-2

Z = 83

210 = A - 4

A = 214

[tex]_{83}^{214}\textrm{X}\rightarrow _{81}^{210}Tl+_2^4\alpha[/tex]

Step 2: Tl-210 undergoes β decay:

[tex]_{81}^{210}\textrm{X}\rightarrow _{82}^{210}Pb+_{-1}^0e[/tex]

Pb-210 that lead-210 is the product of second step.

Answer:

A. PpCH4 = 1.21 atm, Pp C2H6 = 1.46 atm,  Pp C3H6 = 1.93 atm

B. Pp O2 = 352.17 mmHg

Explanation:

A. First step: Get the total mols of mixture to know the mass of propane.

P . V = n . R . T

T° K = T°C + 273 → 23°C + 273 = 296K

4.60 atm . 10L = n . 0.082 L.atm/mol.K . 296K

(4.60 atm . 10L) / (0.082 mol.K/L.atm . 296K) = n

1.89 mol = n

Mass/Molar weight = mol

Mass CH4 = 16 g/m

Mol CH4: 8g / 16g/m = 0.5 mol

Mass C2H6 = 30 g/m

Mol C2H6 = 0.6 mol

Total mols - Mol CH4 - Mol C2H6 = Mol propane

1.89 mols - 0.5 mol - 0.6 mol = 0.79 mol propane

2nd step: We can use the molar fraction with the partial pressure.

Partial pressure gas / Total pressure = mols gas / total moles

Sum of molar fraction = 1

0.5 / 1.89 + 0.6 /1.89 + 0.79/1.89 = 1

Partial pressure CH4 → Pp CH4 /4.60 atm =  0.5 / 1.89

PpCH4 = (0.5 /1.89) . 4.60 atm = 1.21 atm

Partial pressure C2H6 → Pp C2H6 /4.60atm = 0.6 /1.89

Pp C2H6 = (0.6 /1.89) . 4.60atm = 1.46 atm

Partial pressure C3H6 → Pp C3H6 /4.60atm = 0.79/1.89

Pp C3H6 = (0.79/1.89) . 4.60atm = 1.93 atm

B. 39.8% means a percent of the molar fraction, so the fraction is 0.398

N2 mass /total mass = Partial pressure N2/ Total pressure

0.398 . 585 mmHg = Partial pressure N2

232.83 mmHg = Partial pressure N2

Total pressure - Pp N2 = Pp O2

585 mmHg - 232.82 mmHg = 352.17 mmHg

Answer:

The ion's sizes and their radius ratio.

Explanation:

Ionic compounds take the form of three dimentional arrays by alternating anions and cations in order to minimize the potential energy of the system by maximizing the attractive force between opposite charges.

The resultant geometric structures are known as crystal lattices and their arrangements depend on the ion's sizes and, since they are bound though electrostatic attraction, their radius ratio.

I hope you find this information useful and interesting! Good luck!

Answer:

True

Explanation:

Carbon dioxide is transported by the blood in the dissolved form. carbonic anhydrase is the enzyme which is a metalloenzyme having zinc at active site converts carbon dioxide into carbonic acid which dissolves in the blood.

Thus,  

H₂O (l) + CO₂ (g) ⇔ H⁺(aq) + HCO₃²⁻(aq)

The kidneys in the body help to control the acid base balance. The hydrogen ion secretion in the body leads to the generation and reabsorption of the bicarbonate ions to form carbon dioxide in order to nullify the effect of the acid generated and thus the pH of the blood is maintained.

Answer:

4.3 x 10⁶ kJ are released

Explanation:

From the balanced chemical equation we know that when 2 moles of hydrogen peroxide decompose, 191 kJ of heat are released. So what we need to calculate is the number of moles the 765 kg of H2O2 represent and calculate the heat released.

Molar Mass H2O2 = 34.01 g/mol

Mass H2O2 = 765 Kg x 1000 g/Kg = 765000 g

moles H2O2 = 1 Mol / 34.01 g x 765000  grams = 22.5 Mol

(-196.1 kJ/ 2 mol H2O2 )  x 22.5 mol H2O2 = -4.3 x 10⁶ kJ

Answer:

CaCO3 (s)  → CaO (s) + CO2 (g)

The mass of carbonate that must have reacted was 43.03 grams

Explanation:

CaCO3  → CaO + CO2

Relation between reactant and product is 1:1

Let's apply the Ideal Gas Law to find out the moles of CO2 which were produced.

P . V = n . R . T

1 atm . 23 L = n . 0.082 L.atm/mol.K . 653K

(1atm . 23L) / (0.082 mol.K/L.atm . 653K) = n

0.43 moles = n

0.43 moles of CO2, were produced from 0.43 moles of CaCO3.

Molar weight of CaCO3 = 100.08 g/m

Mass = Molar weight . moles

Mass = 100.08 g/m 0.43 m = 43.03 g

The decomposition of calcium carbonate (CaCO₃) can be represented by the equation: CaCO₃(s) → CaO(s) + CO₂(g). Using the ideal gas law, we calculate that approximately 43.1 grams of CaCO₃ reacted to produce 23.0 liters of CO₂ at 380.0 °C and 1 atm pressure.

Decomposition of Calcium Carbonate:

The balanced chemical equation for the decomposition of solid calcium carbonate (CaCO₃) into solid calcium oxide (CaO) and gaseous carbon dioxide (CO₂) is:

CaCO₃(s) → CaO(s) + CO₂(g)

To calculate the mass of calcium carbonate that reacted to produce 23.0 L of CO₂ gas at 380.0 °C and 1 atm, we use the ideal gas law. The ideal gas law is expressed as:

PV = nRT

Where:

Rearranging the ideal gas law to solve for n (moles of CO₂) gives:

n = PV / RT

Substituting the known values:

n = (1 atm * 23.0 L) / (0.0821 L·atm/mol·K * 653.15 K) ≈ 0.431 moles of CO₂

From the balanced equation, 1 mole of CaCO₃ produces 1 mole of CO₂. Hence, the moles of CaCO₃ that reacted is also 0.431 mol.

The molar mass of CaCO₃ is approximately 100.09 g/mol.

The mass of CaCO₃ that reacted is:

mass = moles * molar mass

mass = 0.431 mol * 100.09 g/mol ≈ 43.1 g

Thus, about 43.1 grams of calcium carbonate must have reacted.

Answer:

See the explanation

Explanation:

1) The Lewis structure for  [tex]CO_2[/tex] has a central Carbon atom attached to Oxygen atoms.

In the [tex]CO_2[/tex]  we will have a structure:  O=C=O the central atom "carbon" we will have 2 sigma bonds and 2 pi bonds, therefore, we have an Sp hybridization. For O we have 1 pi and 1 sigma bond, therefore, we have an Sp2 hybridization.

2) These atoms are held together by double bonds.

Again in the structure of [tex]CO_2[/tex]: O=C=O we only have double bonds.

3. Carbon dioxide has a Carbon dioxide has a Linear electron geometry.

Due to the double bonds we have to have a linear structure because in this geometry the atoms will be further apart from each other.

4. The carbon atom is Sp hybridized.

We will have for carbon 2 pi bonds, so we will have an Sp hybridization.

5. Carbon dioxide has two Carbon dioxide has two C(p) - O(p) π bonds and two C(sp) - O(Sp2) σ bonds.

(See figures)

Figure 1: Carbon hybridization

Figure 2: Oxygen hybridization

The Lewis structure of CO₂ has a central carbon atom with double bonds to two oxygen atoms, resulting in a linear geometry and sp hybridization. Each double bond contains one pi bond and one sigma bond.

The Lewis structure for CO₂ features a central carbon atom attached to two oxygen atoms. These atoms are held together by double bonds. The electron geometry of carbon dioxide is linear, which is determined by the Valence Shell Electron Pair Repulsion (VSEPR) theory.

The carbon atom in CO₂ is sp hybridized. In a molecule of carbon dioxide, there are two π (pi) bonds and two σ (sigma) bonds. Each double bond consists of one σ bond and one π bond, contributing to the overall structure and stability of the molecule.

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Answer:

inertia

Explanation:

The principal of inertia explains why objects do not voluntarily change their speed or direction without the influence of an external force. Inertia is not unaffected by other forces in planetary systems such as Earth and is, as such, not really observable on planetary surfaces. This is due to the resistance forces of gravity and friction from both the air and the ground. The drag slows objects down and makes it appear as if a constant force were necessary to keep them in motion.

Answer:

c

Explanation:

Answer:

Cyanophtya

Explanation:

Cyanobacteria also known as Cyanophyta are responsible for fixing nitogen and raising phosphorus level through mineralization they are also called blu-green-algae. They commonly obtain their energy from 'oxygenic' photosynthesis.  

Answer:

efficiency of heating with this oven is 51 %

Explanation:

to raise the temp of 200 ml of coffee from 30°C to 60°C the energy input to microwave oven is:

1100 J/s x 45 = 49,500 J  

AT 100% efficiency

For 1°C the energy required to raise the temperature of 1 ml = 4.2 J

So for 30 C°, 1°C the energy required to raise the temperature of 200 ml =

Q = (4.2) (200)(30) = 25,200 J

efficiency = 25,200/49,500 = 0.51 = 51%  

Answer:

51%

Explanation:

To practice Problem-Solving Strategy 11.1 Energy efficiency problems. Suppose that you have left a 200-mL cup of coffee sitting until it has cooled to 30∘C , which you find totally unacceptable. Your microwave oven draws 1100 W of electrical power when it is running. If it takes 45 s for this microwave oven to raise the temperature of the coffee to 60∘C , what is the efficiency of heating with this oven?

Using the formula  Q=mCdT

Q=Energy (J)

m=mass

C=specific heat capacity

dT=temperature change

but Q=power xtime

to raise the coffee from 30∘C  to 60∘C  requires

1100 J/s x 45 = 49,500 J  

Energy to raise 200ml coffee to 30∘C  is at 4.2j/gC

Q = (4.2)(200)(30) = 25,200 J

Efficiency=output/input

efficiency = 25,200/49,500*100% = 0.51 = 51%

Answer: ORGANIC ACIDS  

Explanation:

CAM PLANTS CARBOXYLATE ORGANICS ACIDS through the addition of  CO2 to PEP Carboxylase(  a phosphoenolpyruvate carboxylase enzyme present in the mesophyll cells of the cytoplasm in a green plant) to produce Oxaloacetate (organic compound).

CO2 + PEP  ⇒ C4H4O5 (oxaloacetate)

Oxaloacetate is then converted to a similar molecule, Malate (C4H6O5,  another form of organic compound) that can be transported in to the bundle-sheath cells. Malate enters the plasmodesmata and releases the CO2. The CO2 then fixed by rubisco and made into sugars via the Calvin cycle.

Answer:

[tex]\large \text{IO$_{3}$$^{-}$(aq) + 3Sn$^{2+}$(aq) + 6H$^{+}$(aq) $\longrightarrow \,$ I$^{-}$(aq) + 3Sn$^{4+}$(aq) + 3H$_{2}$O(l)}[/tex]

Explanation:

IO₃⁻ + Sn²⁺ ⟶ I⁻ + Sn⁴⁺

1: Separate the equation into two half-reactions.

IO₃⁻ ⟶ I⁻

Sn²⁺ ⟶ Sn⁴⁺

2: Balance all atoms other than H and O.

Done

3: Balance O.

IO₃⁻ ⟶ I⁻ + 3H₂O

Sn²⁺ ⟶ Sn⁴⁺

4: Balance H

IO₃⁻ + 6H ⟶ I⁻ + 3H₂O  

Sn²⁺ ⟶ Sn⁴⁺

5: Balance charge.

IO₃⁻ + 6H⁺ + 6e⁻ ⟶ I⁻ + 3H₂O  

Sn²⁺ ⟶ Sn⁴⁺ + 2e⁻

6: Equalize electrons transferred.

1 × [IO₃⁻ + 6H⁺ + 6e⁻ ⟶ I⁻ + 3H₂O]

3 × [Sn²⁺ ⟶ Sn⁴⁺ + 2e⁻]

7: Add the two half-reactions.

1 × [IO₃⁻ + 6H⁺ + 6e⁻ ⟶ I⁻ + 3H₂O]

3 × [Sn²⁺ ⟶ Sn⁴⁺ + 2e⁻]                                  

      IO₃⁻ + 3Sn²⁺ + 6H⁺ ⟶ I⁻ + 3Sn⁴⁺ + 3H₂O

8: Check mass balance.

 On the left: 1 I, 3 O, 3 Sn, 6 H

On the right: 1 I, 3 O, 3 Sn, 6 H

Step 9: Check charge balance.

  On the left: 1- + 12+ = 11+

On the right: 1-  + 12+ = 11+

The equation is balanced.

[tex]\text{The balanced equation is }\\\large \textbf{IO$_{3}$$^{-}$(aq) + 3Sn$^{2+}$(aq) + 6H$^{+}$(aq) $\longrightarrow \,$ I$^{-}$(aq) + 3Sn$^{4+}$(aq) + 3H$_{2}$O(l)}[/tex]

The reaction in an acid solution involves IO3−(aq) reacting with Sn2+(aq) to form I−(aq) and Sn4+(aq). The complete balanced redox reaction is 2IO3−(aq) + 10H+(aq)+ 6Sn2+(aq) → I−(aq) + 4H2O(l) + 6Sn4+(aq). It is a redox reaction where iodate ions act as strong oxidizing agents.

The reaction under consideration involves the iodate ion (IO3−) reacting with a tin(II) ion (Sn2+) to create iodide (I−) and a tin(IV) ion (Sn4+) in an acidic solution. In an acid solution, water (H2O) and hydrogen ions (H+) play crucial roles, hence they have places in the reaction. The complete balanced redox reaction is:

2IO3−(aq) + 10H+(aq)+ 6Sn2+(aq) → I−(aq) + 4H2O(l) + 6Sn4+(aq)

. To balance this reaction, we consider the change in oxidation state, the law of conservation of charge, and the law of conservation of mass. This reaction is a prominent example of a redox reaction where iodate ions act as strong oxidizing agents, oxidizing Sn2+ to Sn4+.

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