Hydrogen bonding activity drawings

The percent ionization of 0.115 M lactic acid in a solution containing 7.0×[tex]10^-^3[/tex] M sodium lactate is 1.22% as  percent ionization of a weak acid in solution is a measure of how much of the acid has dissociated into its ions.

The chemical equation for the dissociation of lactic acid is:

HC₃H₅O₃ ⇌ H+ + C₃H₅O₃−

The Ka value for lactic acid is 1.4×10^−4 at 25°C.

Initial: [HC₃H₅O₃]] = 0.115 M, [NaC₃H₅O₃] = 7.0×[tex]10^-^3[/tex] M, [H+] = 0 M, [C₃H₅O₃−] = 0 M

Using the Ka expression for lactic acid,

Ka = [H+][C₃H₅O₃−]/[HC₃H₅O₃]]

Substituting the equilibrium concentrations into the equation and solving for x,

1.4×[tex]10^-^4[/tex]= [tex]x^2[/tex]/(0.115−x)

Solving for x using the quadratic formula,

x =1.4×[tex]10^-^3[/tex] M

Now the percent ionization of lactic acid:

% Ionization = [H+]/[HC₃H₅O₃] × 100%

% Ionization = (1.4×[tex]10^-^3[/tex] M)/(0.115 M) × 100%

% Ionization = 1.22%

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Convection currents. Convection currents. allow hot air balloons to rise and explain why it is generally hotter upstairs than downstairs in dwellings.

Heat transfer is a thermal engineering subject that deals with the generation, consumption, conversion, and exchange of thermal energy between physical systems.

Heat transmission is categorized into several methods, including thermal conduction, thermal convection, thermal radiation, and energy transfer via phase shifts.

The Transfer of Heat Energy

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Answer:

The compound that represents Fe+3 O-2 is Fe2O3 (iron oxide or rust)

The pka or molarity of a solution may be used to calculate its pH. The saccharin solution in this area has a pH of 1.65.

The pH for a solution determines how acidic or basic it is. It refers to the opposite of the positive logarithm of the H+ ion concentration in maths. A solution that is acidic has a pH below 7, while a basic solution has a pH above 7.

Ka of an acid = [A-] [H+] / [HA]

ka = antilog (-pka)

     = antilog (- 2.32)

      = 0.0047

Ka = [H+]²/[HA]

[H+]² = Ka ×   [HA]

         = 0.0047  × 0.11

          = 0.00051

[H+] = 0.022.

pH = -log [H+]

    = -log (0.022)

    = 1.65

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The acid base indicators or neutralization indicators are the substances which are employed for the visual detection of the end point in acid base titrations on account of their ability to change colour during the pH change that occurs in vicinity of the end point.

The characteristic pH range in which an acid-base indicator changes colour is called the colour change interval. This varies widely with different indicators. For water pH = 7, acidic solution has pH < 7 and basic solution has pH > 7.

The correct order of pH is:

13 > 10 > 9 > 6 > 4 > 3

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The molecular formula of caffeine is  C₈H₁₀N₄O₂

To find the molecular formula of caffeine, we need to determine the ratio of the empirical formula to the actual molecular formula. The empirical formula gives us the smallest whole-number ratio of atoms in a compound, while the molecular formula gives us the actual number of atoms of each element in a molecule.

First, we need to calculate the empirical formula mass of caffeine:

Empirical formula mass = (4 x atomic mass of carbon) + (5 x atomic mass of hydrogen) + (2 x atomic mass of nitrogen) + (1 x atomic mass of oxygen)

Empirical formula mass = (4 x 12.01 g/mol)+ (5 x 1.01 g/mol) + (2 x 14.01 g/mol) + (1 x 16.00 g/mol)

Empirical formula mass = 96.09 g/mol

Next, we can calculate the ratio of the molar mass of caffeine to the empirical formula mass:

Ratio = Molecular mass / Empirical formula mass

Ratio = 194.19 g/mol / 96.09 g/mol

Ratio = 2.02

This ratio tells us that the molecular formula of caffeine is approximate twice the size of the empirical formula. To find the molecular formula, we can multiply the subscripts in the empirical formula by the ratio:

C₄H₅N₂O × 2 = C₈H₁₀N₄O₂

Therefore, the molecular formula of caffeine is C₈H₁₀N₄O₂.

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Answer:

i) 1601 cm¹ - This absorption is likely from a C=O stretching vibration indicative of an aldehyde or ketone functional group.

ii) 1691 cm¹ - This absorption is likely from an O-H stretching vibration indicative of an alcohol functional group.

iii) From the parent, the mass lost to form the base peak at m/z = 105 is 17 amu.

iv) The likely structure of the fragment that is lost to form m/z 105 is C2H2O.

v) From the parent, the mass lost to form the m/z = 77 peak is 28 amu.

vi) The likely structure of the fragment that is lost to form m/z 77 is C2H3O.

Explanation:

The heat of reaction for the reaction C(s) + 2 H2(g) -&gt; CH4(g) at 298 K can be calculated by using the following equation: ΔH = (ΔHf products - ΔHf reactants).

Applying this equation to the given reaction, we get ΔH = (-890.3 + 393.5 + 285.8) kJ = -210.0 kJ.

This is the heat of reaction at 298 K for the reaction C(s) + 2 H2(g) -&gt; CH4(g).

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The concept ideal gas equation is used here to determine the number of moles. The ideal gas law is the equation of state of a hypothetical ideal gas. Here the number of moles of gas is 0.17.

The equation which is formed by the combination of Boyle's law, Charles's law and Avogadro's law is called the ideal gas equation. An ideal gas is a theoretical gas composed of a set of randomly moving point particles which interact through elastic collisions.

The ideal gas equation is:

PV = nRT

n = PV / RT

10°C = 283 K

Number of moles is:

n = 1.2 × 3.4 / 0.0821 × 283 = 0.17

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The two terms that best describe an urban community are D) high-density human population and E) tall buildings. Open country is typically associated with rural areas, and well-connected natural systems are often found in areas with lower levels of human activity.

Urban communities are characterized by a high concentration of people living in a relatively small area. This means that the population density in urban areas is significantly higher than in rural areas. This high density of population is what drives the development of tall buildings and other types of urban infrastructure. Urban communities are also characterized by the presence of tall buildings. The tall buildings are built to accommodate the high density of human population in urban areas, as they allow a larger number of people to occupy a smaller area of land.

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Answer:

The chemical name for this compound is 4-ethyl-2-methylhex-2-ene.

if this helps, please mark my answer as brainliest

Answer:

To calculate the amount (in mole) of sodium trioxocarbonate (IV) in 5.3g of the compound , you can use the formula:

Amount (in moles) = Mass of substance / Molecular mass

The molecular mass of sodium trioxocarbonate (IV) (Na2CO3) is 106 g/mol, as given in the question. Substituting the values in the formula, we get:

Amount (in moles) = 5.3 g / 106 g/mol = 0.05 mol

Therefore, the amount (in mole) of sodium trioxocarbonate (IV) in 5.3g of the compound is 0.05 mol.

Note that the given molecular mass of Na2CO3 must be used to obtain the correct answe12 .

Explanation:

A soft drink contains 33g of sugar in 349g of H[tex]_2[/tex]O. 14.3%  is the concentration of sugar in the soft drink in mass percent.

One approach to indicate the concentration of any dissolved component in a solution is by mass percentage. Mass percentage is the ratio of the total weight of a compound in a solution to the overall mass of the solution, expressed in percentages.

In order to express the mass percent of a solution, the grammes of solute are divided by the grammes of solution, and the result is multiplied by 100. As long as you use a comparable number for both the component and solute mass.

Mass percent = (mass of solute/mass of solute+ mass of solvent)×100

                      = ( 33/ 33+ 349)×100

                       =14.3%

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After 2 half-lives, 100,000 atoms of the radioactive substance will remain.

If two half-lives have passed, the number of remaining atoms will be one-fourth (1/2 x 1/2 = 1/4) of the original number of atoms.

Therefore, the number of remaining atoms will be:

400,000 x (1/4) = 100,000 atoms

Rounding this to the nearest whole number, we get:

100,000 atoms

Therefore after 2 half-lives, 100,000 atoms of the radioactive substance will remain.

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Answer:

B) Germanium atoms have more electrons than titanium atoms

Explanation:

Trust me I did this but for those who are hesitant

---> Conductors : It is a type of substance which conduct electricity that means it allow the electrons to flow through them.

Example of conductors are, iron, aluminium, gold, etc.

Insulators : It is a type of substance which does not conduct electricity that means it does not allow the electrons to flow through them.

Examples of insulators are, glass, rubber, ceramics, etc.

Semiconductors : It is a type of substance which conduct electricity under certain conditions that means it allow the electrons to flow through them. The conductivity level of semiconductors lie between the conductors and the insulators.

The good examples of semiconductors are silicon, germanium, gallium, and  selenium.

In the given options, aluminium, gold are the metals which conduct electricity and concrete is an insulator which do not conduct electricity while the germanium is the good semiconductor.

The number of moles of the sodium bicarbonate is  0.0025 moles

We know that the moles is the amount of the substance that is contained and that we can get the moles as the ratio of the mass to the molar mass of the substance and that is what we are going to do in the case of the sodium bicarbonate that we have in the question that is here.

Now we have from the question that;

Mass of the sodium bicarbonate =  0.207 g

Number of moles of the sodium bicarbonate can now be gotten in this case by the use of the formula;

Number of moles

0.207 g/84 g/mol

= 0.0025 moles

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Answer:

The mass of the salt that dissolved is:

36.00 g - 5.00 g = 31.00 g

The % solubility of the salt can be calculated using the formula:

% solubility = (mass of solute dissolved ÷ mass of saturated solution) × 100%

The mass of the saturated solution is:

36.00 g + 150.0 g = 186.00 g

Therefore, the % solubility of the salt is:

(31.00 g ÷ 186.00 g) × 100% = 16.67%

The % solubility of the salt is 16.67%.

Explanation:

The mass lost in the formation of a nucleus is converted into energy in accordance with the Einstein's mass energy relationship and released, thereby tending to impart stability to the nucleus.

An input of the same amount of energy referred to as the binding energy would be required to decompose the nucleus into its component nucleons. So the energy released from the nucleons during the formation of a nucleus is called the binding energy.

No: of protons in 'Li' = 3

No: of neutrons in 'Li' = 4

Total mass of nucleons = 3(1.67262×10⁻²⁷) + 4 (1.67493×10⁻²⁷) = 1.171 × 10⁻²⁶ kg

Mass defect = 1.171 × 10⁻²⁶ - 1.165 × 10⁻⁻²⁶ = 6 × 10⁻²⁹

Binding energy = Δmc² = 6 × 10⁻²⁹ × (2.998×10⁸)² = 5.392 × 10⁻¹² J

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The balanced chemical equation for the reaction is:

N₂ + 3H₂O → 2NH₃ + O₂

The equation shows that nitrogen gas (N₂) and water (H₂O) react to form ammonia (NH₃) and oxygen gas (O₂). The coefficients in the balanced equation indicate that one molecule of N₂ reacts with three molecules of H₂O to produce two molecules of NH₃ and one molecule of O₂.

The enthalpy or heat content of a system can be defined as the sum of the internal energy and the pressure volume energy of the system. It is denoted by H. The energy change of mixture is  47 kJ.

The transference of energy may take place in the form of work if the system and surroundings have different pressures. According to international conventions, work done on the system is positive and work done by the system is negative.

The enthalpy change is:

ΔH = ΔU + PΔV

190 = ΔU + 143

ΔU = 47 kJ

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The value of h in the right triangle is 7.7 cm.

Trigonometric ratio is used to show the relationship between the sides and angles of a right angled triangle.

In the right triangle, using trigonometric ratio:

a) sin(31) = h/15

⇒ 0.515 = h/15

Making H the subject of the formula we have:

0.515 x 15 = h/15  x 15

h = 7.725

h [tex]\approx[/tex] 7,7

Hence, is is correct to state that the value of h in the diagram is 7.7 cm approximately. See the attached image.

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Full Question:

Although part of your question is missing, you might be referring to this full question:

the diagram shows a right-angled triangle. what is the value of h? give your answer correct to 1 decimal place.

Answer:

To calculate the number of moles of KF in a solution, we can use the formula:

moles = concentration x volume

where concentration is in units of moles per liter (M), and volume is in liters (L).

First, we need to convert the volume from milliliters (mL) to liters (L):

180.0 mL = 0.1800 L

Next, we can plug in the values we have:

moles = 0.250 M x 0.1800 L = 0.0450 moles

Therefore, there are 0.0450 moles of KF in 180.0 mL of a 0.250 M solution.

Explanation: