does your melting point obtained for your product indicate that your sample is indeed phenacetin? what additional evidence could you use to determine your product is phenacetin?
The melting point obtained for the product is an indication that the sample is phenacetin. To determine that the product is phenacetin, other supporting evidence may include elemental analysis and infrared spectroscopy
Melting point tests are utilized in the identification and characterization of organic compounds. The melting point of a sample is determined by heating it at a steady rate until it begins to liquefy, and the temperature at which it starts to melt is taken as the melting point of the sample. The melting point of a solid, including phenacetin, is usually given in reference books.
The fact that the sample has the same melting point as that given for phenacetin in reference books suggests that it is indeed phenacetin. To further confirm that the product is phenacetin, additional tests such as elemental analysis or infrared spectroscopy could be carried out. These tests can provide additional evidence to support the identification of the product.
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Under which set of conditions would H₂ (g) be the most dissolved in H₂O(l)?
101.3 kPa and 75°C
120 kPa and 25°C
101.3 kPa and 25°C
120 kPa and 75°C
The most dissolved H₂ (g) in H₂O (l) would occur under 101.3 kPa and 75°C.
The attraction between an electronegative atom serving as the hydrogen bond acceptor and a hydrogen atom covalently bonded to a more electronegative "donor" atom or group (Dn) is known as a hydrogen bond, or H-bond (Ac).Under 101.3 kPa and 75 °C, the maximum dissolved H2 (g) in H2O (l) would be present.At higher temperatures, the solvent molecules will have higher kinetic energy, allowing them to break the hydrogen bonds between the molecules and dissolve H₂ (g) more easily. At higher pressures, there will be more molecules of H₂ (g) in a given volume, increasing the chances of it dissolving into the solvent.
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describe the procedure for the preparation you chose for each ester. make sure the procedure matches the method you selected above and that you include all reagents.
The procedure for the preparation you chose for each ester are: heat the reagents, add aqueous solution, heat and stir the mixture, cool it down, add sodium bicarbonate, the ester is separated by filtration and lastly crude ester can be purified by recrystallization.
The procedure for the preparation of an ester involves several steps which are in detail below:.
First, the reagents, which can include an acid, an alcohol, and a catalyst, must be combined in a round-bottom flask. Heat is then applied and the mixture is agitated, either manually or with a stirrer.
After the reaction is complete, the mixture is cooled, and an aqueous solution of a base, such as sodium bicarbonate, is added. This causes the ester to precipitate out and is separated from the aqueous layer by filtration.
The crude ester can then be purified, typically by recrystallization. The reagents used will depend on the ester to be prepared. For example, for the preparation of ethyl acetate, acetic acid, ethanol, and sulfuric acid can be used as the reagents.
To complete the reaction, the acid, alcohol, and catalyst are combined in the round-bottom flask, heated and stirred, and cooled. Then, the aqueous solution of sodium bicarbonate is added and the ester is separated by filtration. Finally, the crude ester can be purified by recrystallization.
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How many moles exist in 390 g of silver nitrate (AgNO3)? 2
Answer:
The formula AgNO3 gives us 1 Ag atom,
1 N atom and
3 oxygen atoms.
From the periodic table we get the atomic mass of each of these atoms:
Ag 108 g/mol,
N 14.0 g/mol,
O 16.0 g/mol
For each atom, mutiply the number of atoms by its atomic mass, and then sum the values:
molar mass of
AgNO3 = (1 x 108) + (1 x 14.0) + (3 x 16.0) = 170 g/mol
So now let’s return to our four step process to solve the problem.
Here’s the updated data:
n = ? mol,
m = 80.00 g,
M = 170 g/mol
Here’s the formula: n = m / M
Now, substitute the data values into the formula:
n = 80.00 / 170
And calculate the answer: n = 0.4705882353 mol
Rounding the answer to 3 significant figures:
the amount of AgNO3 in 80.00 grams is 0.471 molDO MARK AS BRAINLIEST
What change in volume results if 40 mL of gas is cooled from 33 °C to 5 °C?
Charles's Law-
[tex]\:\:\:\:\:\: \:\:\:\:\:\:\star\longrightarrow\sf \underline{\dfrac{V_1}{T_1}=\dfrac{V_2}{T_2}}\\[/tex]
Where:-
V₁ = Initial volumeT₁ = Initial temperatureV₂ = Final volumeT₂ = Final temperatureAs per question, we are given that -
V₁=40 mLT₁ = 33°CT₂ =5°CWe are given the initial temperature and the final temperature in °C.So, we first have to convert those temperatures in Celsius to kelvin by adding 273-
[tex]\:\:\:\:\:\:\star\sf T_1[/tex] = 33+ 273 = 306K
[tex]\:\:\:\:\:\:\star\sf T_2[/tex] =5+273 = 278K
Now that we have obtained all the required values, so we can put them into the formula and solve for V₂ :-
[tex]\:\:\:\:\:\: \:\:\:\:\:\:\star\longrightarrow\sf \underline{\dfrac{V_1}{T_1}=\dfrac{V_2}{T_2}}\\[/tex]
[tex] \:\:\:\:\:\:\:\:\:\:\:\:\longrightarrow \sf V_2= \dfrac{V_1}{T_1}\times T_2\\[/tex]
[tex] \:\:\:\:\:\:\:\:\:\:\:\:\longrightarrow \sf V_2= \dfrac{40}{306}\times 278\\[/tex]
[tex] \:\:\:\:\:\:\:\:\:\:\:\:\longrightarrow \sf V_2= 0.13071...........\times 278\\[/tex]
[tex]\:\:\:\:\:\: \:\:\:\:\:\:\longrightarrow \sf V_2 = 36.33892...........\\[/tex]
[tex] \:\:\:\:\:\:\:\:\:\:\:\:\longrightarrow \sf\underline{ V_2 = 36.34 \:mL}\\[/tex]
Therefore, the volume will become 36.34 mL if 40 mL of gas is cooled from 33 °C to 5 °C.
a 64.0 ml portion of a 1.70 m solution is diluted to a total volume of 268 ml. a 134 ml portion of that solution is diluted by adding 149 ml of water. what is the final concentration? assume the volumes are additive.
The final concentration can be calculated from the dilutions mentioned and it is found to be 0.384 M.
To calculate the final concentration, we need to consider the dilution formula, which states that the initial concentration multiplied by the initial volume is equal to the final concentration multiplied by the final volume.
The first dilution can be calculated as:
C1 × V1 = C2 × V2
1.70 M × 64.0 mL = C2 × 268 mL
108.8 = 268 × C2
C2 = 108.8 ÷ 268
C2 = 0.406 M
This solution has again been diluted. Thus, now the final concentration will be calculated as:
C2 × V2 = C3 × V3
0.406 M × 268 mL = C3 × 283 mL
108.808 = 283 × C3
C3 = 108.808 ÷ 283
C3 = 0.384 M
Therefore, the final concentration of the solution is 0.384 M.
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. based on the gc data, what is the ratio of products formed from the reaction with koh in 1-propanol? what are the specific yields of the 2 alkenes? explain what would happen if the solvent is substituted for 2-methyl-2-butanol instead?
When 1-propanol is used as the solvent instead of 2-methyl-2-butanol, the ratio of the products and the precise yields may vary.
The reaction of KOH with 1-propanol typically results in the formation of two alkenes: propene and 2-propen-1-ol. The ratio of these two products will depend on the reaction conditions, such as temperature, concentration of KOH, and reaction time.
The specific yields of the two alkenes will depend on the efficiency of the reaction, as well as the selectivity of the reaction towards each product. In general, propene is expected to be the major product due to its thermodynamic stability. However, if the reaction conditions favor the formation of 2-propen-1-ol, then the specific yield of this product may be higher.
If the solvent is substituted for 2-methyl-2-butanol, the reaction conditions may be affected due to the differences in physical and chemical properties of the solvent. For example, 2-methyl-2-butanol has a higher boiling point and lower polarity than 1-propanol, which may result in different reaction rates and selectivities. The reaction may also be affected by the steric hindrance of the solvent, which can affect the accessibility of the KOH to the reactant.
Therefore, the ratio of products and specific yields may be different when using 2-methyl-2-butanol as the solvent compared to 1-propanol.
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Ascorbic acid (vitamin C, C6H8O6) is a diprotic acid (K1 =8.0x10^-5 and K2=1.6x10^-12). What is the pH of a 0.270 M solution of ascorbic acid?
If Ascorbic acid (vitamin C, C6H8O6) is a diprotic acid (K1 =8.0x10^-5 and K2=1.6x10^-12). The pH of a 0.270 M solution of ascorbic acid is 4.10.
What is the pH of a 0.270 M solution of ascorbic acid?The two dissociation reactions for ascorbic acid are:
H2C6H6O6 ⇌ H+ + HC6H6O6- (K1 = 8.0x10^-5)
HC6H6O6- ⇌ H+ + C6H6O6 2- (K2 = 1.6x10^-12)
To solve the problem, we need to consider the ionization of both H+ ions from ascorbic acid. Let's call the concentration of H+ from the first ionization [H+]1, and the concentration of H+ from the second ionization [H+]2.
K1 = [H+]1 [HC6H6O6-] / [H2C6H6O6]
K2 = [H+]2 [C6H6O6 2-] / [HC6H6O6-]
Since ascorbic acid is a diprotic acid, we need to use the equilibrium expressions for both ionization reactions to determine the concentrations of H+ and the ascorbic acid species.
[H+]1 [HC6H6O6-] / [H2C6H6O6] = 8.0x10^-5
[H+]2 [C6H6O6 2-] / [HC6H6O6-] = 1.6x10^-12
We can assume that the concentration of ascorbic acid that dissociates is much larger than the concentration of H+ formed, so we can use the approximation [H+] << [H2C6H6O6] to simplify the calculations.
[H+]1 = K1 [H2C6H6O6] / [HC6H6O6-] ≈ K1 [H2C6H6O6] / [H2C6H6O6]
[H+]1 ≈ K1 = 8.0x10^-5
[H+]2 = K2 [HC6H6O6-] / [C6H6O6 2-] ≈ K2 [H+]1 [HC6H6O6-] / [C6H6O6 2-]
[H+]2 ≈ K2 [H+]1 = (1.6x10^-12) (8.0x10^-5) = 1.28x10^-16
The total concentration of H+ in the solution is [H+]1 + [H+]2, so the pH of the solution is:
pH = -log([H+]1 + [H+]2)
pH = -log(8.0x10^-5 + 1.28x10^-16)
pH = 4.10
Therefore, the pH of a 0.270 M solution of ascorbic acid is 4.10.
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7. the mass percent of phosphoric acid in cola has been reported to be 0.075y mass. how does your answer compare to this value (use percent difference to make this comparison)?
To compare your answer to the reported mass percent of phosphoric acid in cola (0.075y mass), use the percent difference formula:
Percent Difference = (|Your Value - Reported Value| / (Your Value + Reported Value) / 2) * 100
1. Insert the calculated mass percent of phosphoric acid in place of "Your Value" in the formula.
2. Substitute 0.075y mass for "Reported Value".
3. Calculate the absolute difference between your value and the reported value.
4. Divide the absolute difference by the average of your value and the reported value.
5. Multiply the result by 100 to get the percent difference.
By following these steps, compare the answer to the reported mass percent of phosphoric acid in cola using percent difference.
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when sodium chloride dissolves in water, how do the water molecules orient around the ions? question 6 options: a) the oxygen atoms point toward the sodium ions, and the hydrogen atoms point toward the chloride ions. b) the hydrogen atoms point toward both the sodium and the chloride ions. c) the oxygen atoms point toward both the sodium ions and the chloride ions. d) the hydrogen atoms point toward the sodium ions, and the oxygen atoms point toward the chloride ions. e) water molecules are randomly oriented around the ions.
When sodium chloride dissolves in water, water molecules orient around the ions in such a way that the hydrogen atoms point toward the chloride ions. The correct option is b.
When sodium chloride (NaCl) dissolves in water, it separates into [tex]Na^+[/tex] and [tex]Cl^-[/tex] ions. As a result, water molecules surround the ions, shielding them from one another. Water molecules are orientated around the ions in such a way that their hydrogen atoms (δ+) are directed toward the chloride ions ( [tex]Cl^-[/tex]) and their oxygen atoms (δ-) are directed toward the sodium ions ([tex]Na^+[/tex]).
A water molecule has two positively charged hydrogen atoms and one negatively charged oxygen atom that form a V-shaped geometry, with the oxygen atom at the vertex. The H-O-H bond angle is 104.5 degrees. As a result, when[tex]Na^+[/tex] and [tex]Cl^-[/tex] ions are present in water, they are surrounded by water molecules, with their hydrogen atoms pointed toward the [tex]Cl^-[/tex] and their oxygen atoms pointed toward the [tex]Na^+[/tex] .
In summary, when sodium chloride dissolves in water, the water molecules orient around the ions in such a way that the hydrogen atoms point toward the chloride ions. The correct option is b.
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write the chemical equation for the ionization of water.
The chemical equation for the ionization of water is: 2H₂O (l) → 2H+ (aq) + O₂- (aq).
Ionization is the process of breaking apart a molecule into its separate atoms or ions. In the case of water, it is a molecule composed of two hydrogen atoms and one oxygen atom. The ionization of water occurs when these atoms are split apart, creating hydrogen ions (H+) and hydroxide ions (O₂-). This process requires energy, which is usually in the form of heat.
The reaction of water being ionized can be represented by the chemical equation: 2H₂O (l) → 2H+ (aq) + O₂- (aq). This equation shows that two molecules of water (H₂O) are broken apart into two hydrogen ions (H+) and one hydroxide ion (O₂-).
Ionization of water is an important process in many chemical and biological reactions. In the human body, for example, the ionization of water helps to regulate the body's pH level. It is also important for the formation of certain acids and bases, and the solubility of various compounds in water.
In addition, the ionization of water is a necessary step in the formation of electrical currents and is also an important part of the photosynthesis process.
In summary, the chemical equation for the ionization of water is 2H₂O (l) → 2H+ (aq) + O₂- (aq). This process is essential for many chemical and biological reactions and helps to regulate the body's pH level, and the solubility of compounds in water, and is part of the photosynthesis process.
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write the balanced equation for the reaction in which aluminum is added to aqueous manganese(ii) sulfate. you do not need to include states of matter in your answer.
In general what did farmers and factory owners in the South use to transport their goods?
Farmers and factory owners in the South primarily used rivers and railroads to transport their goods.
The South had an extensive network of navigable rivers, such as the Mississippi, Tennessee, and Ohio, which made river transportation a practical and efficient means of moving goods to market. Steamboats were commonly used to transport agricultural products, such as cotton, tobacco, and sugar, downriver to ports on the Gulf of Mexico and the Atlantic Ocean. Railroads were also crucial to the transportation of goods, especially after the Civil War when railroads expanded across the South. The development of railroads facilitated the movement of goods between towns and cities, as well as the transportation of agricultural products from rural areas to urban markets.
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1. What is the pH of a solution where 50.0 mL of 0.050 M NH3 is mixed with 12.0 mL of 0.10 M hydrobromic acid (HBr)? (Kb = 1.8 * 10-5)
Round your answer to two decimal places.
2. What is the pH at the ½ equivalence point? (Kb = 1.8 * 10-5)
1. The pH of the solution is 9.18, 2. pH at the half-equivalence point is 9.74.
1. When 50.0 mL of 0.050 M NH₃ is mixed with 12.0 mL of 0.10 M HBr, the moles of NH₃ and HBr are 0.0025 mol and 0.0012 mol respectively. Since HBr is a strong acid, it will react completely with NH₃ to form NH₄Br. The remaining NH₃ will undergo hydrolysis to form NH₄⁺ and OH⁻ ions.
The Kb expression for NH₃ is: Kb = [NH₄⁺][OH⁻]/[NH₃].
Rearranging this expression and solving for [OH⁻], we get [OH⁻] = √(Kb[NH₃]). Substituting the values, we get [OH⁻] = √(1.8 x 10⁻⁵ x (0.0025-0.0012)/(50+12) x 10⁻³) = 1.3 x 10⁻⁵ M.
The pOH of the solution is -log[OH⁻] = -log(1.3 x 10⁻⁵) = 4.89. The pH of the solution is 14 - pOH = 14 - 4.89 = 9.18.
2. The pH at the half-equivalence point is equal to the pKa of the conjugate acid of the base (NH₄⁺ in this case). The pKa can be calculated using the relationship pKa + pKb = pKw = 14. Substituting the value of pKb, we get pKa = 14 - pKb = 14 - (-log(1.8 x 10⁻⁵)) = 9.74. So, the pH at the half-equivalence point is 9.74.
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given that the specific rotation of (r)-2-methoxypentane is −29.6, what is the specific rotation of (s)-2-methoxypentane?
The specific rotation of (S)-2-methoxypentane is +29.6.
To determine the specific rotation of (S)-2-methoxypentane, given that the specific rotation of (R)-2-methoxypentane is -29.6, follow these steps:
1. Identify the enantiomers: (R)-2-methoxypentane and (S)-2-methoxypentane are enantiomers, which are non-superimposable mirror images of each other.
2. Understand specific rotation: Specific rotation is a property of chiral molecules, and the specific rotation of one enantiomer has the same magnitude but opposite sign as its mirror image enantiomer.
3. Calculate the specific rotation of (S)-2-methoxypentane: Since the specific rotation of (R)-2-methoxypentane is -29.6, the specific rotation of (S)-2-methoxypentane will be the opposite sign with the same magnitude means +29.6.
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The following two compounds can be distinguished by
OH CH-CH
CH-OH
and
Neutral FeCl3
NaOl/OH
O Aq. AgNO3
Na
The two compounds can be distinguished by their chemical properties and reactivity with different reagents.
The first compound has an alcohol functional group (-OH) attached to a carbon-carbon double bond (-CH=CH-), while the second compound has an alcohol group (-OH) attached to a carbon atom that is bonded to an oxygen atom (-CH-OH). These two compounds can be distinguished by their different molecular structures and chemical properties, which can affect their solubility, acidity, and reactivity with other chemicals.
The second compound can be distinguished from the first compound and neutral FeCl₃ by its reaction with NaOH or NaOl. NaOH or NaOl reacts with the second compound to produce a yellow-orange color due to the formation of a complex between iron(III) ions and the phenolic group in the compound. Neutral FeCl₃ also reacts with the phenolic group, but it produces a dark green color instead. This difference in color can be used to distinguish the two compounds.
Finally, the second compound can also be distinguished from the first compound by its reaction with aqueous AgNO₃. The second compound can react with AgNO₃ to form a white precipitate, while the first compound does not react with AgNO₃. This is due to the presence of the phenolic group in the second compound, which can form a silver phenoxide precipitate.
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Infant Tylenol contains 0.16 g of acetaminophen (C8H9NO2) in every 5 mL of medicine. What is the Molarity of Tylenol?
Question 6 options:
32 M
0.21 M
0.0002 M
0.32 M
The molarity of Tylenol is 0.21 M, rounded to two significant figures. Hence, the correct option is (B) i.e. 0.21 M.
To find the molarity of Tylenol, we need to know the number of moles of acetaminophen present in 5 mL of medicine.
First, let's calculate the molecular weight of acetaminophen:
C = 12.011 g/mol x 8 = 96.088 g/mol
H = 1.008 g/mol x 9 = 9.072 g/mol
N = 14.007 g/mol x 1 = 14.007 g/mol
O = 15.999 g/mol x 2 = 31.998 g/mol
Total molecular weight = 96.088 g/mol + 9.072 g/mol + 14.007 g/mol + 31.998 g/mol = 151.165 g/mol
Next, we can use the given mass of acetaminophen in 5 mL of medicine to calculate the number of moles:
0.16 g acetaminophen x (1 mol / 151.165 g) = 0.001058 mol
Finally, we can use the definition of molarity to calculate the molarity of Tylenol:
Molarity = moles of solute / volume of solution in liters
Since we have 0.001058 moles of acetaminophen in 5 mL of medicine, which is equivalent to 0.005 L of solution, we can calculate the molarity as:
Molarity = 0.001058 mol / 0.005 L = 0.2116 M
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Why is carbon used to extract metals from their oxides
1-cheap
2- high_____
Because of its high reactivity, cheap cost, and versatility in the extraction procedure, carbon is used to extract metals from their oxides.
Carbon is commonly used as a reducing agent to extract metals from their oxides because of its high reactivity and low cost. When a metal oxide is heated with carbon, a reduction reaction occurs, with carbon atoms reacting with oxygen atoms to form carbon dioxide (CO2) and the metal atoms being reduced to their elemental form.
One of the main advantages of using carbon for this process is its high reactivity. Carbon has a strong affinity for oxygen, and as such, it readily reacts with metal oxides to reduce them. Carbon is also abundant and relatively cheap, making it a cost-effective reducing agent.
Additionally, the use of carbon as a reducing agent can be carried out in a range of conditions, such as in a blast furnace, making it a versatile method for extracting metals from their ores. This method is widely used in industry for the extraction of metals such as iron, zinc, and lead, among others.
In summary, carbon is used to extract metals from their oxides due to its high reactivity, low cost, and versatility in the extraction process.
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Which best explains why sawdust burns more quickly than a block of wood of equal mass under the same conditions?
O The molecules move more quickly in the sawdust than in the block of wood.
O The pressure of oxygen is greater on the sawdust.
O More molecules in the sawdust can collide with oxygen molecules.
O Oxygen is more concentrated near the sawdust than the block of wood.
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On the sawdust, the oxygen pressure is higher. Due to this, pieces of wood burn more quickly than logs of the same mass. A. A log of wood has a larger surface area and requires longer time to burn.
What does sawdust burn more quickly than a chunk of wood?The surface area of the substance affects how quickly combustion reactions take place. The rate of the combustion reaction increases with surface area. This is due to the large surface area material's frequent exposure to oxygen.
Why burns sawdust more quickly than it should?The more oxygen molecules that collide per second with the fuel, the faster the combustion reaction is.
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When 1 mole of methane (CH4) is burned it releaes 461.9 KJ of heat.
Calculate ΔH for a process in which 8.0 g of methane is burned.
1 mole of methane (CH₄) is burned it releases 461.9 KJ of heat then the ΔH for the combustion of 8.0 g of methane is 230.1 kJ.
To calculate the ΔH for the combustion of 8.0 g of methane, we need to first convert the mass of methane to moles.
The molar mass of methane (CH₄) is:
C: 12.01 g/mol
H: 1.01 g/mol
4 x H: 4.04 g/mol
Molar mass of CH₄ = 12.01 + 4.04 = 16.05 g/mol
So, 8.0 g of CH₄ is equal to:
n = m/M = 8.0 g / 16.05 g/mol = 0.498 moles of CH₄
Now, we can use the molar heat of combustion to calculate ΔH:
ΔH = n x ΔHcomb
ΔHcomb is the molar heat of combustion, which is given as 461.9 kJ/mol.
ΔH = 0.498 moles x 461.9 kJ/mol = 230.1 kJ
Methane is a chemical compound with the formula CH₄. It is a colorless, odorless, and flammable gas that is the primary component of natural gas. Methane is the simplest hydrocarbon and the main component of biogas and landfill gas. It is also a potent greenhouse gas and a major contributor to climate change. Methane is used as a fuel for heating, cooking, and electricity generation, as well as in industrial processes such as chemical synthesis and metal production.
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any compound that increases the number of hydronium ions when dissolved in water, is called ?
A compound that increases the number of hydronium ions (H₃O⁺) when dissolved in water is called an acid. Acids are characterized by their ability to donate protons (H⁺) to water molecules, resulting in the formation of hydronium ions. This process is known as acid dissociation.
The strength of an acid is determined by its ability to donate protons. Strong acids, such as hydrochloric acid (HCl) or sulfuric acid (H₂SO₄), completely dissociate in water, resulting in a high concentration of hydronium ions. Weak acids, such as acetic acid (CH₃COOH), only partially dissociate in water, resulting in a lower concentration of hydronium ions.
Acids can have a wide range of applications in industry and everyday life, from the production of fertilizers and cleaning products to the preservation of food and the regulation of pH in the human body.
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Write a conclusion for Lisa's experiment
From Lisa's experiment, it can be concluded that Tablet C was the best antacid among the four types tested, as it required the least amount of HCl to change the color of the indicator.
How does indigestion tablets work?Indigestion tablets, also known as antacids, work by neutralizing excess stomach acid. Stomach acid is produced by the body to help digest food, but when there is an excess of acid, it can lead to indigestion, heartburn, and other uncomfortable symptoms.
This indicates that Tablet C was able to neutralize the acid effectively and had the highest buffering capacity compared to the other three tablets. Therefore, it can be recommended as the most effective antacid for treating indigestion.
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Image transcribed:
3. Lisa was investigating which of four different types of indigestion tablet neutralised most acid and was therefore the best 'antacid' of the four. She crushed each tablet to a fine powder, and added the powder to 20 mL of water mixed with two drops of universal indicator solution. Then she added 1 mL of dilute hydrochloric acid at a time until the indicator changed colour.
Lisa's results were:
Tablet A-16 mL
a. Put Lisa's results in a suitable table.
Tablet B-15 mL
Tablet C-8 mL
Tablet D-12 mL
Fill in the table. If you could help that would be appreciated.
Modeling DNA Mutations Key involves:
e) A-T-T-G-T-A-G-A-C-G-C-T-T-A-T-G-A-C.
f) The protein produced from the mutated strand is Protein B.
g) The effect of this mutation on the organism is beneficial.
What are mutation keys?Mutation keys are a set of rules or guidelines used to represent changes in DNA sequences. They are commonly used in genetics to represent the effects of mutations on the amino acid sequence of a protein.
A mutation key can be a table or a chart that lists the different types of mutations, such as substitution, insertion, or deletion, and the resulting changes in the DNA sequence, the amino acid sequence, and the functional consequences of the mutation.
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Image transcribed:
Modeling DNA Mutations Key
Base Sequence--|--Protein Produced--|--Effect of Mutation
T-T-C-G-T-AGACGCT-T-A-T-GA-C--|--Protein A--|--Neutral
ACC-GT-A-GA-C-G-C-T-T-A-T-G-A-C--|--Protein A--|--Neutral
A-T-GG-T-A-GACGCT-T-A-T-G-A-C--|--Protein A--|--Neutral
GT-CGT-A-GACGCTT-A-T-G-A-C--|--Protein B--|--Beneficial
AAC-GTAGACGC-T-T-A-T-G-A-C--|--Protein B--|--Beneficial
A-T-T-G-T-A-GACGCT-T-A-T-G-A-C--|--Protein B--|--Beneficial
C-T-C-G-T-A-GAC-GC-T-T-A-T-G-A-C--|--Protein C--|--Harmful
AGCGTAGACGCT-TAT-GAC--|--Protein C--|--Harmful
A-T-A-G-T-A-GACGCT-T-A-T-G-A-C--|--Protein C--|--Harmful
e) Find the base sequence from the key that matches the base sequence of the second mutated DNA strand from row C of Table 2.
f) Note the protein produced from this mutated strand and record it in row D of Table 2.
g) Note the effect of this mutation on the organism and record it in row E of Table 2.
Row--|--Description--|--Answers
A--|--Base sequence of original strand--|--A-T-C-G-T-A-G-A-C-G-C-T-T-A-T-G-A-C
B--|--Protein produced from original strand--|--Protein A
C--|--Base sequence of mutated strand--|--________
D--|--Protein produced from mutated strand--|--_______
E--|--Effect of mutation--|--______
What is the role of the primary standard in an acid-base titration? It serves as an unknown concentration that is determined using the secondary standard. It is used to find the stoichiometry of the titration reaction. O It is used to determine the unknown concentration of an acid or base that is more difficult to measure. It changes color to determine the equivalence point of a titration.
The primary standard is used to standardize the titrant solution (usually a strong acid or strong base) by reacting it with the primary standard to determine its exact concentration.
The primary standard is a substance used as a reference in the preparation of solutions for acid-base titrations. It is a highly pure and stable compound with a known molar mass and can be easily weighed and dissolved in solution to prepare a standard solution of known concentration. This allows for the accurate determination of the concentration of an unknown solution, such as an acid or a base, by titrating it with the standardized titrant solution. Therefore, the primary standard plays a crucial role in ensuring the accuracy of acid-base titrations.
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exchange occurs.
QUESTION 4 DOK 34 ALIGNED STANDARDS
10 points
A chemical reaction between
bromine and sodium occurs.
Bromine has an electronegativity
value of 2.96, while sodium has an
electronegativity value of 0.93,
Will electrons be exchanged between
the two atoms? Explain how you
know.
With fewer valence electrons than other metals, sodium tends to increase its stability by shedding electrons during action creation.
What happens when bromine and sodium combine?To create sodium bromide or sodium iodide, hot sodium can also burn in vaporised bromine or iodine. An orange flame and a white solid are the results of each of these reactions.
What number of bonds can bromine form?In its Lewis structure, bromine contains three lone pairs on each of its atoms and just one Br-Br bond. The three lone pairs and one bond between the bromine atoms are the only connections between them.
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Assume that 0.950g of KHT (potassium hydrogen tartrate) are dissolved in 25.00mL of solution.KHT -> K++ HT-a) calculate the solubility of KHT for these conditions in g KHT / L of solutionb) Calculate the solubility of KHT for these conditions in mol KHT / L of solutionc) Determine [K+] and [HT-] in this solution. If the temperature is Tp, a trace of solid is present and the reaction is at equilibrium. Determine Ksp at this temperature
a) Solubility (g KHT/L) = (0.950 g KHT) / (0.025 L) = 38 g KHT/L
b) Solubility (mol KHT/L) = (38 g KHT/L) / (188.18 g/mol) = 0.202 mol KHT/L
c) [K+] = [HT-] = 0.202 mol KHT/L
d) Ksp = (0.202)(0.202) = 0.0408
A more detailed explanation of the answer.
a) To calculate the solubility of KHT in g KHT/L of solution, follow these steps:
1. Convert the volume of the solution to liters: 25.00 mL = 0.025 L
2. Calculate the solubility by dividing the mass of KHT by the volume of the solution:
Solubility (g KHT/L) = (0.950 g KHT) / (0.025 L) = 38 g KHT/L
b) To calculate the solubility of KHT in mol KHT/L of solution, follow these steps:
1. Determine the molar mass of KHT (K = 39.10 g/mol, H = 1.01 g/mol, C = 12.01 g/mol, O = 16.00 g/mol):
Molar mass of KHT = K + 2*(C + H + 2*O) = 39.10 + 2*(12.01 + 1.01 + 2*16.00) = 188.18 g/mol
2. Convert the solubility from g KHT/L to mol KHT/L:
Solubility (mol KHT/L) = (38 g KHT/L) / (188.18 g/mol) = 0.202 mol KHT/L
c) To determine [K+] and [HT-] in this solution, follow these steps:
1. Since KHT dissociates into K+ and HT-, the concentrations of K+ and HT- will be equal to the solubility of KHT in mol KHT/L:
[K+] = [HT-] = 0.202 mol KHT/L
As there is a trace of solid present and the reaction is at equilibrium, we can determine the Ksp at this temperature by following these steps:
1. Write the balanced chemical equation for the dissociation of KHT: KHT (s) <-> K+ (aq) + HT- (aq)
2. Write the expression for the Ksp: Ksp = [K+][HT-]
3. Plug in the concentrations calculated earlier: Ksp = (0.202)(0.202) = 0.0408
So, at this temperature (Tp), the Ksp for KHT is 0.0408.
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Boric acid is a triprotic acid that is used as an ant and roach killer. A 1.42-g sample of boric acid is neutralized
by 157 mL of 0.4388 M NaOH. Determine the molar mass (g/mol) for boric acid.
H2A+ 3 NaOH
NajA+ 3 H2O
The correct answer is The balanced chemical equation for the neutralization reaction between boric acid [tex](H2A)[/tex] and sodium hydroxide [tex](NaOH)[/tex]is:
[tex]H2A + 3 NaOH → Na3A + 3 H2O[/tex]
From the balanced equation, we can see that one mole of boric acid reacts with three moles of sodium hydroxide. Therefore, we need to find the number of moles of sodium hydroxide used to neutralize the given sample of boric acid, and then use the stoichiometry of the balanced equation to determine the number of moles of boric acid. The number of moles of NaOH used can be calculated as follows: moles of NaOH = (concentration of NaOH) x (volume of NaOH used) moles of NaOH = (0.4388 mol/L) x (0.157 L) moles of NaOH = 0.06886 mol According to the stoichiometry of the balanced equation, three moles of NaOH are required to neutralize one mole of boric acid. Therefore, the number of moles of boric acid can be calculated as: moles of H2A = (1/3) x (moles of NaOH) moles of H2A = (1/3) x (0.06886 mol) moles of H2A = 0.02295 mol The molar mass of boric acid can now be calculated using the formula: molar mass (g/mol) = (mass of sample) / [tex](moles of H2A)[/tex]Substituting the given values, we get: molar mass (g/mol) = (1.42 g) / (0.02295 mol) molar mass (g/mol) = 61.95 g/mol Therefore, the molar mass of boric acid is 61.95 g/mol.
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what will happen to the ph of an acetic acid solution when chloride ion is added? group of answer choices ph increases ph decreases ph remains unchanged
When chloride ion is added to an acetic acid solution, the pH of the solution remains unchanged. Acetic acid is a weak acid, and its dissociation in water can be represented by the following equilibrium reaction:
CH3COOH (aq) + H2O (l) ⇌ CH3COO- (aq) + H3O+ (aq)
When chloride ions (Cl-) are added to the solution, they do not react with acetic acid, its conjugate base (acetate ion, CH3COO-), or hydronium ions (H3O+). Chloride ions are the conjugate base of a strong acid, hydrochloric acid (HCl), and are considered to be a non-reactive or inert ion in this context. Since the chloride ions do not participate in the reaction, they do not affect the equilibrium position or the concentrations of the species involved in the reaction.
As a result, the addition of chloride ions does not influence the pH of the acetic acid solution. The pH remains unchanged because the concentration of hydronium ions (H3O+), which determine the pH, is not altered by the presence of chloride ions.
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in general, which reaction is favored (forward, reverse, or neither) if the value of keq at a specified temperature is
When the value of K_eq at a specified temperature is in general, which reaction is favored (forward, reverse, or neither)?When the value of K_eq at a given temperature is greater than 1,
the forward reaction is favored. Conversely, when K_eq is less than 1, the reverse reaction is favored. At equilibrium, when K_eq is equal to 1, the reaction is neither forward nor reverse but is instead stable. Furthermore, it implies that both the forward and reverse reactions occur at the same rate.Thus, in general, the reaction that is favored depends on the value of K_eq. When the value of K_eq is greater than 1, the forward reaction is favored. Conversely, when K_eq is less than 1, the reverse reaction is favored. When K_eq equals 1, the reaction is neither forward nor reverse but is instead at equilibrium.
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calculate the ph of a solution that results from mixing 22.6 ml of 0.23 m dimethylamine ((ch3)2nh) with 17.1 ml of 0.16 m (ch3)2nh2cl. the kb value for (ch3)2nh is 5.4 x 10-4.
To calculate the pH of a solution that results from mixing 22.6 mL of 0.23 M dimethylamine ((CH3)2NH) with 17.1 mL of 0.16 M (CH3)2NH2Cl, first we need to calculate the initial concentration of dimethylamine and the hydrogen ion. Then, the pH of the solution can be found from the hydrogen ion concentration.
To find the initial concentration of dimethylamine, use the following equation:
CDMA = (22.6 mL x 0.23 M) + (17.1 mL x 0.16 M)
CDMA = 7.868 M
To find the initial concentration of hydrogen ion, use the following equation:
CH+ = CDMA x Kb
CH+ = 7.868 M x 5.4 x 10-4
CH+ = 4.2632 x 10-3 M
To find the pH of the solution, use the following equation:
pH = -log [CH+]
pH = -log (4.2632 x 10-3)
pH = 2.37
Therefore, the pH of the solution that results from mixing 22.6 mL of 0.23 M dimethylamine ((CH3)2NH) with 17.1 mL of 0.16 M (CH3)2NH2Cl is 2.37.
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