The concept of chemical leavening involves the reaction between an acid and a base to produce carbon dioxide gas, which causes dough or batter to rise.
The general equation for this reaction is:
Acid + Base → Salt + Water + Carbon Dioxide
In baking, the acid and base are often present in the form of ingredients like baking soda (a base, or more specifically, sodium bicarbonate) and an acidic compound like cream of tartar, vinegar, or lemon juice.
Here's a simple example using baking soda and vinegar:
NaHCO₃ (baking soda) + CH₃COOH (vinegar) → NaCH₃COO (sodium acetate) + H₂O (water) + CO₂ (carbon dioxide)
The carbon dioxide gas produced during this reaction helps the dough or batter to rise, creating a light and fluffy texture in the final baked product.
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Which one of the following is an example of a balanced chemical reaction?A) HCl + KMnO4 ® Cl2 + MnO2 + H2O + KClB) HCl + KMnO4 ® Cl2 + MnO2 + 2H2O + KClC) 2HCl + 2KMnO4 ® Cl2 + MnO2 + 2H2O + 2KClD) 6HCl + 2KMnO4 ® 2Cl2 + 2MnO2 + 4H2O + 2KClE) 8HCl + 2KMnO4 ® 3Cl2 + 2MnO2 + 4H2O + 2KCl
The correct answer is C) 2HCl + 2KMnO4 ® Cl2 + MnO2 + 2H2O + 2KCl. This is because the equation has the same number of atoms of each element on both the reactant and product side, making it a balanced chemical reaction.
The correct option for a balanced chemical reaction is:
D) 6HCl + 2KMnO4 ® 2Cl2 + 2MnO2 + 4H2O + 2KCl
1. Write down the unbalanced reaction: HCl + KMnO4 → Cl2 + MnO2 + H2O + KCl
2. Balance the elements one by one, starting with those that appear in fewer compounds. In this case, start with Mn:
HCl + KMnO4 → Cl2 + 2MnO2 + H2O + KCl
3. Balance the potassium (K):
HCl + 2KMnO4 → Cl2 + 2MnO2 + H2O + 2KCl
4. Balance the chlorine (Cl):
6HCl + 2KMnO4 → 3Cl2 + 2MnO2 + H2O + 2KCl
5. Finally, balance the hydrogen (H) and oxygen (O):
6HCl + 2KMnO4 → 2Cl2 + 2MnO2 + 4H2O + 2KCl
Now the reactant for the chemical reaction is balanced.
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How TLC could have been used (although it was not carried out)
Thin layer chromatography (TLC) is a chromatographic technique which is used to separate the components of a mixture using a stationary phase and a mobile phase.
In TLC, the plate is spotted at a point above the solvent front and the solvent moves up the plate by capillary action leading to the separation of the various components of the mixture spotted on the plate.
However, if the TLC plate is allowed to remain in the developing chamber for too long such that the solvent front reaches the top of the plate, the components of the mixture will recombine at the top of the plate and cancel out any separation which may have occurred on the plate.
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A bond in which one atom contributes both bonding electrons is called a polyatomic covalent bond.
(Never True, Always True, Sometimes True)
A bond in which one atom contributes both bonding electrons is called a polyatomic covalent bond" is Never True,Option (1)
A bond in which one atom contributes both bonding electrons is called a coordinate covalent bond, not a polyatomic covalent bond. In a coordinate covalent bond, one atom contributes a lone pair of electrons to be shared with another atom. In a polyatomic covalent bond, two or more atoms share pairs of electrons to form a stable molecule or compound.
What is a polyatomic covalent bond?Polyatomic ions are ions that are composed of two or more atoms that are linked by covalent bonds, but that still have a net deficiency or surplus of electrons, resulting in an overall charge on the group.
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Full Question : A bond in which one atom contributes both bonding electrons is called a polyatomic covalent bond.
Never True, Always True, Sometimes Truegive a formula corresponding to the following name: dibromobis(ethylenediamine)cobalt(iii) sulfate g
The formula corresponding to the following name Dibromobis(ethylenediamine)cobalt(III) sulfate is [Co(en)₂(Br)₂]₂SO₄.
The number of atoms of each element in one molecule of a chemical is expressed by the molecular formula. The formula that displays the precise number of each atom in a molecule is known as a molecular formula. The Molecular method is determined using the empirical method when the molar mass value is known.
n=molar mass/the empirical formula's mass
The empirical formula or an exact multiple of it, as well as the molecular formula, are frequently the same.
Since Cation is written before anion, hence we can say that complex ion (Dibromobis(ethylenediamine)Cobalt(III)) is a cation, and counter ion (Sulfate) is an anion.
In the second step, we will try to write the complex basis the below information :-
Central atom is CobaltThere are 2 ligand 2.1 en (neutral) and there is 2 of them. 2.2 Bromine (negative), 2 of themOxidation state of Co is +1Basis above information, formula is :- [Co(en)₂(Br)₂]₂SO₄.
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what voltage (in volts) should be used when performing a melting point determination on a compound whose melting point is 170oc?
The performing a melting point determination on a compound with a melting point of 170°C, the voltage used should be determined by the specific apparatus being used. The voltage required will depend on the heating rate of the apparatus and the specific properties of the compound being tested.
The important to use a voltage that allows for a gradual and controlled increase in temperature, to ensure an accurate determination of the melting point. According to a source I found on Quizlet1, the voltage in volts that should be used when performing a melting point determination on a compound whose melting point is 170 Degrees C is 50 volts. The formula used to calculate this voltage is Melting Point in Degrees C + 52.5 / 4.45 = 170 + 52.5 / 4.45 = 50 volts.
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The injection of compressed air into the filter media just prior to and/or during the backwashing process is a common form of
The injection of compressed air into the filter media just prior to and/or during the backwashing process is a common form of air scouring in water treatment.
Here are some additional points about air scouring in water treatment:
Air scouring is particularly effective in removing fine particulate matter that may not be removed by traditional backwashing alone.The use of compressed air for scouring can help to reduce the amount of water required for backwashing, resulting in lower overall water usage and associated costs.Air scouring can be particularly effective in removing biological and organic matter that may accumulate in filter media, helping to improve overall water quality and reduce the potential for taste and odor issues.Air scouring is a process used to enhance the cleaning of filter media during backwashing by loosening and removing any accumulated debris or particulate matter that may have accumulated in the filter bed. This process is typically used in conjunction with other forms of filter media cleaning such as backwashing and chemical cleaning to ensure that the filter media is thoroughly cleaned and free of contaminants.
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Starting is one operational condition that a carburetor must be able to supply the proper fuel mixture for. What are the other four?
Starting is one operational condition that a carburetor must be able to supply the proper fuel mixture for. The other four are Idle, , Accelerator, variable load and speed operation.
Carburetor is the device that is used to mix fuel and air in an internal combustion engine. Its main objective is to provide quality air fuel for special operational requirements such as starting, idling, acceleration, adjusting variable load and speed operation.
The main disadvantage of float-type carburetor is its susceptibility to icing which occurs when there is fuel vaporization and decrease in air pressure in the venturi, which causes a sharp temperature drop in the carburetor. This fuel vaporization occurs within the cylinder of a fuel-injected engine and makes fuel injection system less susceptible to icing.
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immediately after introducing the copper into the water, what do you expect will happen to the temperature of the water?
When copper is introduced into water, it is expected that the temperature of the water will remain relatively unchanged.
This is because copper is a good conductor of heat, meaning it can quickly transfer any heat it may have to the surrounding water molecules. Therefore, the copper will not cause a significant increase or decrease in the temperature of the water.
After introducing the copper into the water, you can expect the temperature of the water to change depending on the initial temperature of the copper. If the copper is warmer than the water, it will transfer heat to the water, causing the water's temperature to increase.
Conversely, if the copper is cooler than the water, it will absorb heat from the water, leading to a decrease in the water's temperature. This heat exchange will continue until the copper and water reach thermal equilibrium.
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Immediately after introducing the copper into the water, I expect the temperature of the water to change based on the following terms:
1. Heat transfer: If the copper is at a different temperature than the water, heat will transfer between the two substances until they reach thermal equilibrium.
2. Specific heat capacity: The specific heat capacity of copper and water are different, with water having a higher specific heat capacity. This means that water can absorb more heat without a significant temperature increase compared to copper.
3. Thermal conductivity: Copper has a high thermal conductivity, which means it transfers heat quickly. As a result, the temperature of the water may change relatively fast upon introducing the copper.
In summary, when you introduce the copper into the water, the temperature of the water will change due to heat transfer, specific heat capacity, and thermal conductivity. The specific direction of the temperature change (increase or decrease) will depend on the initial temperatures of the copper and the water.
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A pH reading of 6.0 units indicates that the water sample is:
a. Very acidic
b. Slightly alkaline
c. Very alkaline
d. Slightly acidic
Answer c
the answer is c
If the concentration of H+ ions in a solution is 3.16 x 10^-4mol/1. Then what is the concentration of OH ions?
A 3.16 x 10^-4 mol/L
B 3.16 x 10^-11 mol/L
C 3.16 x 10^-13 mol/L
D 3.16 x 10^-14 mol/L
The concentration of [OH-] = 3.16*[tex]10^{-11}[/tex]M.
What is concentration?The amount of solute contained in a specific amount of solution is the substance's concentration. The number of moles of solute in 1 L of solution, or molarity, is used to express concentrations.
What is solution?In chemistry, a solution is a homogeneous mixture of two or more compounds in their relative proportions. The composition of the solution can be continually changed up to the solubility limit. Although solutions of gases and solids are possible, the term "solution" is most frequently used to refer to the liquid condition of matter.
according to question:
[H+] *[OH-] = 1*[tex]10^{-14}[/tex]
If [H+] = 3.16*[tex]10^{4}[/tex]
then [OH-] = (1*[tex]10^{-14}[/tex]) / ( 3.16*[tex]10^{-4}[/tex])
[OH-] = 3.16*[tex]10^-11[/tex] M
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How do heat and acid affect the green chlorophyll molecule?
Both heat and acid can negatively impact the green chlorophyll molecule by causing it to degrade and lose its green color, which affects the plant's ability to perform photosynthesis effectively.
Heat and acid both affect the green chlorophyll molecule in different ways.
1. Heat: When chlorophyll is exposed to high temperatures, the molecule becomes unstable and starts to degrade. This degradation process results in the loss of its green color, which in turn affects the photosynthetic capacity of plants. The breakdown of chlorophyll can also lead to the formation of other pigments, such as carotenoids, which might cause a change in the color of the plant.
2. Acid: Exposure to acidic conditions can also cause chlorophyll to break down. Acidic environments can cause protonation of certain parts of the chlorophyll molecule, altering its structure and eventually leading to degradation. This process also results in the loss of the green color and reduced photosynthetic activity.
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Provide the balanced rxn equation for the rxn that occurs when the mixture of initial reactants forms a clear yellow soln n the dibenzalacetone synthesis.
The balanced reaction equation for the formation of dibenzalacetone from the initial reactants that form a clear yellow solution is:
2C6H5CHO + C6H5CH=CHCHO → C17H14O + 2H2O
In this equation, C6H5CHO and C6H5CH=CHCHO are the reactants, which undergo a condensation reaction to form the product C17H14O (dibenzalacetone) and water (H2O).
Hi! In the dibenzalacetone synthesis, the balanced reaction equation for the formation of a clear yellow solution involves the condensation of acetone with benzaldehyde. The reactants and product in this reaction are as follows
2 C₆H₅CHO (benzaldehyde) + CH₃COCH₃ (acetone) → C₁₇H₁₄O (dibenzalacetone) + H₂O (water)
This balanced equation represents the mixture of initial reactants producing a clear yellow solution of dibenzalacetone.
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Question 10
The chemical quality of a pool is generally measured by which 2 tests?
a. pH and alkalinity
b. alkalinity and TDS
c. pH and chlorine residual
d. alkalinity and chlorine residual
The chemical quality of a pool is generally measured by two tests are c. pH and chlorine residual.
Monitoring and maintaining the appropriate pH and chlorine residual levels are essential for a healthy and safe swimming environment. The pH scale measures the acidity or alkalinity of water, ranging from 0 to 14, with 7 being neutral. The ideal pH level for a swimming pool is between 7.2 and 7.8. This range ensures that the water is comfortable for swimmers and maximizes the effectiveness of the chlorine.
Chlorine is a vital disinfectant used to kill harmful bacteria, viruses, and other microorganisms in the water. The residual chlorine level indicates the amount of chlorine available to continue sanitizing the pool. The ideal range for chlorine residual in a pool is 1-3 parts per million (ppm),it is crucial to regularly test and adjust the pH and chlorine residual levels to provide a clean and safe swimming environment for everyone. The chemical quality of a pool is generally measured by two tests are c. pH and chlorine residual.
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PLEASE ANSWER!!!!! 40 POINTS!!!!!!!!
8.0 mol AgNO3 can form 8.0 Ag and 5.0 mol Zn can form 10.0 mol Ag.
Ag: 108 g/mol
What mass of Ag can form during the reaction?
Answer:
The molar mass of silver nitrate is 169.87 g/mol.
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Question 3
Which one of the following is not a part of particulate radiation?
a. Proton
b. Neutron
c. Electron
d. x-ray
X-ray is not a part of particulate radiation. The correct answer is option d.
Particulate radiation is composed of particles with mass such as protons, neutrons, and electrons. X-rays, on the other hand, are a form of electromagnetic radiation and do not have mass or charge.
X-rays are produced when high-energy electrons collide with a metal target and can penetrate through materials, making them useful for medical imaging and industrial inspection.
However, they can also be harmful to human health if exposure is prolonged or at high doses. In contrast, particulate radiation can be stopped by a material barrier, such as clothing or walls, but can be more damaging to biological tissue if absorbed due to their mass and charge.
It is important to be aware of the different types of radiation and their potential effects to take appropriate safety precautions.
Therefore, option d is correct.
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4.5. Steel is particularly well suited for structural framing because of its relative I. strength. II. ease of fabrication. III. low cost. Iv. corrosion resistance. V. fire resistance. A.I and IV B. I and ill C. II, IV, and V D. I, II, ill, and V
The answer is B. I and ill. Steel is particularly well suited for structural framing because of its relative strength and low cost.
Steel is well suited for structural framing due to its high strength and ease of fabrication. It is also a relatively low-cost material, which makes it an attractive option for many construction projects. However, steel is not known for its corrosion resistance, and it can be vulnerable to rust and other forms of corrosion over time. Steel is also not particularly fire resistant, and it can lose its strength quickly when exposed to high temperatures.
Therefore, only options (I) and (III) are correct, indicating that steel is well suited for structural framing because of its strength and low cost.
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of the following, which is false? select the correct answer below: the rate laws of all chemical reactions can be determined directly from their net chemical equations. elementary reaction rate laws can be determined directly from their chemical equations. the rate laws of termolecular elementary reactions are third order overall. the rate laws of unimolecular elementary reactions are first order overall.
The false statement is: the rate laws of all chemical reactions can be determined directly from their net chemical equations.
This is because not all chemical reactions follow a simple stoichiometry and may involve multiple intermediate steps and complex mechanisms. However, elementary reaction rate laws can be determined directly from their chemical equations, and the rate laws of termolecular elementary reactions are third order overall, while the rate laws of unimolecular elementary reactions are first order overall.
The false statement among the given options is: The rate laws of all chemical reactions can be determined directly from their net chemical equations. This is because the rate law is determined experimentally and cannot be derived solely from the net chemical equation. The other statements regarding elementary reaction rate laws and order for termolecular and unimolecular reactions are true.
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the column of smoke (mostly water vapor) billowing from the huntington beach electrical plant smokestacks levels off at a particular altitude because
The column of smoke (mostly water vapor) billowing from the Huntington Beach electrical plant smokestacks levels off at a particular altitude because of atmospheric conditions.
As the hot smoke rises, it meets the cooler air in the atmosphere, causing the water vapor to condense and form clouds. This creates an equilibrium where the rising smoke is balanced by the sinking cool air, which leads to the smoke column leveling off at a particular altitude.
Additionally, the shape and height of the smokestacks also play a role in determining the height of the smoke column. The column of smoke (mostly water vapor) billowing from the Huntington Beach electrical plant smokestacks levels off at a particular altitude because the surrounding air temperature and pressure reach equilibrium with the rising water vapor, causing the water vapor to condense and disperse.
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Question 28 Marks: 1 Sodium fluoroacetate, also known as "1080," is the most effective fast-acting rodenticide available for use throughout the United States.Choose one answer. a. True b. False
a. True. Sodium fluoroacetate, also known as "1080," is indeed the most effective fast-acting rodenticide Rodenticide Act available for use throughout the United States.
The Federal Insecticide, Fungicide, and Rodenticide Act (FIFRA) of 1947 is the law that governs the use of pesticides and herbicides in the USA. Certain substances are not allowed to be used as pesticides under this law.
A proper federal regulatory framework for the use, distribution, and sale of pesticides is provided by the Federal Insecticide, Fungicide, and Rodenticide Act (FIFRA) statute.
The purpose of this law (FIFRA) is to safeguard those who use pesticides, consumers, and the environment.
The US Environmental Protection Agency (EPA) is required to grant licences for the use of pesticides throughout the country.
To assure the safety and efficacy of all pesticides used in the US, the EPA reviews and registers them in accordance with FIFRA. The organisation also controls the use, handling, and disposal of pesticides and performs routine inspections to make sure they remain safe.
If someone or a business violates FIFRA rules, the EPA has the authority to file a lawsuit and, if necessary, revoke or suspend pesticide registrations.
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13. The rate constant for a certain first-order reaction is 0.40/min. What is the initial rate in mole/Llmin, if the initial concentration of the compound involved is 0.50 mol/L?
The rate constant for a certain first-order reaction is 0.40/min, if the initial concentration of the compound involved is 0.50 mol/L then the initial rate is 0.20 mol/L min.
The rate law for a chemical reaction is an expression that describes a relationship between the rate of the reaction and the concentrations of all the reactants participating in it.
The rate law for a first-order reaction is given by:
Rate = k[A]
Here k is the rate constant and [A] is the concentration of the reactant.
The initial rate of the first-order reaction is calculated by substituting the rate constant and initial concentration into the rate law equation.
Rate = k[A]
Rate = (0.40/min) x (0.50 mol/L)
Rate = 0.20 mol/Lmin
Therefore, the initial rate of the reaction is 0.20 mole/Lmin.
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26. In a linked-based implementation of the ADT list with only a head reference, what is the performance of removing an entry at the end of the list? a. O(n) b. O(n 2 ) c. O(log n) d. O(1)
The performance of removing an entry at the end of a linked-based implementation of the ADT list with only a head reference is O(n).
This is because in order to remove the last entry, we need to traverse the entire list to find the second-to-last node, and then update its reference to null. This traversal requires visiting every node in the list, so the time complexity is proportional to the length of the list, which is O(n). Therefore, the correct answer is (a) O(n).
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#41. What is the correct expression for the deltaG'o for the transition observed in the experiments described in the passage?
The correct expression for the deltaG'o for the transition observed in the experiments described in the passage is ΔG° = -RT ln(K).
In order to provide an accurate answer, I would need more information about the specific passage and experiments being referred to. However, I can provide a general answer about ΔG° (standard Gibbs free energy change) in relation to a transition observed in experiments.
The correct expression for the standard Gibbs free energy change (ΔG°) in a transition observed in experiments is:
ΔG° = -RT ln(K)
where:
- ΔG° is the standard Gibbs free energy change
- R is the gas constant (8.314 J/mol·K)
- T is the temperature in Kelvin
- K is the equilibrium constant for the reaction
This equation allows you to calculate the standard Gibbs free energy change for a transition observed in experiments, provided you have the required information.
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After 3-PGA is phosphorylated, it receives energized electrons from _____.- NADPH - NADP+ - ADP - CO2 - ATP
After 3-PGA is phosphorylated, it receives energized electrons from NADPH.
In the Calvin cycle, there are three steps involved:
1. Carbon Fixation: In this step, the carbon molecule is fixed that is the Carbon atom from carbon dioxide is fixed by conjugation with RuBP. The compound formed after is 3-PGA.
In this step, no ATP molecules are required.
2. Reduction: This step involves the reduction of the fixed carbon, into the formation of G3P which further produces carbohydrates. This step requires 2 ATP and 2 NADPH for each G3P molecule. After phosphorylation by ATPs 3-PGA receives energy from NADPH.
3. Regeneration of RuBP: This step is used to regenerate the used RuBP molecule used in the first step which is the fixation of carbon. This step requires five ATP per RuBP regeneration.
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Question 61
Which one of the following is the most common "technological fix" for reduction of sulfur dioxide emissions?
a. Coal washing
b. Fluidized bed combustion
c. Integrated gasification
d. Stack gas scrubbers
The most common "technological fix" for reduction of sulfur dioxide emissions is option d, stack gas scrubbers.
These devices remove sulfur dioxide from industrial emissions by spraying a mixture of water and alkaline substances into the flue gas stream. The sulfur dioxide reacts with the alkaline substances to form a solid compound that can be removed from the scrubber. This is a widely used method for reducing sulfur dioxide emissions in power plants and other industrial facilities. They work by introducing a lime or limestone-based reagent into the exhaust gas stream. The reagent reacts with the sulfur dioxide in the exhaust gas and binds it, forming a dry particulate matter that can be removed from the exhaust stream through filtration. This process is known as “scrubbing” and it is the most widely used method for reducing sulfur dioxide emissions from power plants and other industrial facilities.
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when fuel Burns what is the dissipated energy and why?
Answer:
When we burn fuels, it begins a process called combustion. Combustion is where you burn a fuel in the presence of an oxidant like oxygen. Heat is produced, because the bonds in the fuel store more energy than the bonds in the water and carbon dioxide that are the products of combustion.
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Which of the following statements is correct for an endothermic reaction?
- The activation energy of the forward reaction is equal to the difference of the activation energy for the reverse reaction and the enthalpy change for the forward reaction.
- The activation energy for the forward and reverse reactions is equal.
The activation energy of the forward reaction is equal to the enthalpy change for the reverse reaction.
- The activation energy of the forward reaction is equal to the sum of the activation energy for the reverse reaction and the enthalpy change for the forward reaction.
The activation energy of the forward reaction is equal to the sum of activation energy for the reverse reaction and the enthalpy change for the forward reaction.
Why is the endothermic reaction a forward one?The forward reaction will take place if the reaction is endothermic as specified, increasing the amounts of the products and lowering the amounts of reactants. If the temperature is reduced, the result will be the opposite.
An endothermic reaction: why is that?Any chemical process that takes heat from the surroundings is said to be endothermic. The energy that was absorbed provides the activation energy for the process. This kind of response is characterised by its icy sensation.
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Which factor causes a decrease in the rate of dissolution?
There are several factors that can cause a decrease in the rate of dissolution:
Decrease in temperature: As the temperature decreases, the kinetic energy of the particles decreases, and the rate of dissolution also decreases.
Increase in solute concentration: If the solution is already saturated with solute, then adding more solute will cause it to become supersaturated, which can cause a decrease in the rate of dissolution.
Increase in pressure: Increasing the pressure can force more solute into the solution, but it can also cause an increase in the solubility of the solute, which can cause a decrease in the rate of dissolution.
Decrease in surface area: If the solute is in the form of large particles, then breaking it down into smaller particles will increase the surface area available for dissolution and increase the rate of dissolution. Conversely, decreasing the surface area will decrease the rate of dissolution.
Formation of a precipitate: If the solute is capable of forming a precipitate in the solution, then the rate of dissolution may decrease as the solute is removed from the solution and deposited as a solid.
~~~Harsha~~~
Phenolphthalein has often been used to monitor the progress of acid-base neutralization reactions.
What color will phenolphthalein be if there is an excess of base present?
A) colorless
B) green
C) pink
D) yellow
Pink color will phenolphthalein be if there is an excess of base present.
If there is an excess of base present in an acid-base neutralization reaction, phenolphthalein will turn --pink . Phenolphthalein is a commonly used acid-base indicator that is colorless in acidic solutions and pink in basic solutions.
When an acid-base neutralization reaction occurs, the pH of the solution changes from acidic to basic as the reaction progresses. Once all the acid has reacted with the base, any additional base that is present will increase the pH of the solution and cause phenolphthalein to turn pink, indicating the presence of excess base. Therefore, the correct answer is C) pink.
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Products when starting alkyl halide is chiral and why?
When starting with a chiral alkyl halide, the products of a substitution reaction can be either achiral or chiral, depending on the reaction mechanism and the stereochemistry of the nucleophile.
In an SN1 reaction, the nucleophile attacks the carbocation intermediate from either side with equal probability, resulting in a racemic mixture of both R and S enantiomers.
In contrast, in an SN2 reaction, the nucleophile approaches the alkyl halide from the opposite side of the leaving group, resulting in an inversion of stereochemistry at the chiral center. This means that the product will be the opposite enantiomer of the starting material, resulting in a chiral product.
However, if the nucleophile used in the SN2 reaction is achiral, such as a hydroxide ion, the product will be racemic, as the reaction can occur with equal probability on both sides of the molecule.
In summary, the products of a substitution reaction starting with a chiral alkyl halide can be either achiral or chiral, depending on the reaction mechanism and the stereochemistry of the nucleophile.
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determine the volume in milliliters of a 0.270 m 0.270 m naoh naoh solution needed to neutralize a 155 ml 155 ml solution of 0.180 m 0.180 m hcl hcl and 0.360 m 0.360 m h2so4.
Answer:
19⋅mL . We know that. Concentration=Amount of substance in molesVolume of solution.
Explanation:
The volume in mililitres of a solution of 0.270 M NaoH solution needed to neutralize a 155 ml solution is 950 ml
We have
N₁V₁=N₂V₂
Where N= normality, V=Volume
Normality= basicity ×molarity
For H₂SO₄ basicity=2
Normality =0.360 × 2
=0.720 N
For HCl basicity=1
normality = 0.180×1
=0.180 N
Total strength N₂= 0.720N +0.180N =0.900N
N₁= 0.270 N
V₂= 285 ml
substituting all values we get
V₁= N₂V₂/N₁
=0.900N ×285ml/0.270N
=950 ml
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