The range of electrolyte concentration in which controlled flocculation occurs can be determined by performing a series of experiments where the electrolyte concentration is gradually increased or decreased.
Here are the general steps for determining the range of electrolyte concentration:
Prepare a series of solutions with different electrolyte concentrations by adding increasing or decreasing amounts of the electrolyte to the sample.
Mix the solutions thoroughly and allow them to sit for a specific period of time to allow for flocculation to occur.
Observe the samples and record any changes in the sample's appearance, such as increased turbidity or formation of flocs.
Compare the results of each sample to identify the range of electrolyte concentration at which controlled flocculation occurs.
Repeat the experiment several times to confirm the range of electrolyte concentration that results in controlled flocculation.
Once the range of electrolyte concentration is determined, it can be used to optimize the flocculation process by selecting an electrolyte concentration within the range to achieve the desired flocculation effect.
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Convert 25.44 g of calcium oxide to moles.
Answer:
0.4535 mols
Explanation:
CaO Molar Mass is 56.1 grams.
25.44gCaO x 1mol/56.1g = 0.4535 mols
Select all the correct answers.
Fireworks are chemical reactions that release energy. Which of these phenomena are caused by chemical reactions that release energy?
A) Muscles work to perform a task.
B) Fuel burns and heats the surroundings
C) A battery supplies current to a device.
D) A car's air bag expands by igniting a chemical.
PLEASE BE ACCURATE!!! Thank you very much:)
Answer:
B) Fuel burns and heats the surroundings
D) A car's air bag expands by igniting a chemical.
Explanation:
These two phenomena are caused by chemical reactions that release energy. In the case of B, fuel burning releases energy in the form of heat and light. In the case of D, the ignition of a chemical in a car's air bag rapidly releases a large amount of energy, causing the air bag to rapidly inflate and protect the occupants of the car during an accident.
ALLEN
Answer:
D) A car's air bag expands by igniting a chemical.
Explanation:
Fireworks are a type of pyrotechnic display that are created by chemical reactions that release energy in the form of light, heat, and sound. These chemical reactions are usually accomplished through the use of oxidizers, fuel, and various chemicals that are carefully combined to produce the desired effects.
A) Muscles work to perform a task is not caused by a chemical reaction that releases energy. Instead, it is caused by the contraction of muscle fibers, which generate force to move the body or an object.
B) Fuel burns and heats the surroundings is caused by a chemical reaction that releases energy. When fuel, such as gasoline or wood, is burned, it reacts with oxygen in the air to release heat and light.
C) A battery supplies current to a device is not caused by a chemical reaction that releases energy. Instead, it is caused by the flow of electrons through a conductive material, such as a wire.
D) A car's air bag expands by igniting a chemical is caused by a chemical reaction that releases energy. The air bag is typically activated by a chemical reaction between two substances that generates a large amount of gas, which rapidly inflates the air bag to protect the occupants of the vehicle.
If the chromium, Cr, contamination in water is 5ppm, how many grams of Cr are present in 1000g of pond water?
0.005 g of Cr are present in 1000 g of water.
What does "parts per million" mean?
This stands for "parts per million" and can also be written as mg/L (milligrams per liter). The mass of a chemical or contamination per volume of water is the unit of measurement here.
PPM, or parts per million, is a word used to describe a solution's concentration. In 1000 ml or 1 L of solution, 1 milligram of the solute equates to 1 ppm.
It is assumed that water contains 5 parts per million (ppm), or 5 mg of Cr per liter. 1000 ml or 1000 g is equal to one liter of water. Therefore, 5 mg or 0.005 g of Cr are present in 1000 g of water.
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Perform the following calculations and report the answer with the correct number of significant figures.
59.9x35??????????
Balance the Equation to Solve. How many grams of Hydrogen (H2) are needed to completely react with 3 moles of Nitrogen (N2)
The molar mass of hydrogen (H2) is 2.016 g/mol. Therefore, the mass of 9 moles of hydrogen is: 9 mol x 2.016 g/mol = 18.144 g. So, 18.144 grams of hydrogen must react with 3 moles of nitrogen completely.
How is ammonia useful?Ammonia is useful in many ways, including fertilizer production, household cleaning product, refrigeration, water treatment, textile production and fuel production.
Why is ammonia a key component of fertilizer?Ammonia is a key component of fertilizer because it contains nitrogen, an essential nutrient for plant growth. Plants require nitrogen to build proteins and other essential molecules. While nitrogen is abundant in the atmosphere, plants cannot use it in its gaseous form. Instead, nitrogen must be converted into a usable form, such as ammonia, through a process called nitrogen fixation.
The balanced chemical equation for the reaction between nitrogen and hydrogen to form ammonia is N2 + 3H2 → 2NH3.
To react completely with 3 moles of nitrogen,
3 moles N2 x 3 moles H2 / 1 mole N2 = 9 moles H2
The molar mass of hydrogen (H2) is 2.016 g/mol. Therefore, the mass of 9 moles of hydrogen is: 9 mol x 2.016 g/mol = 18.144 g
So, 18.144 grams of hydrogen must react with 3 moles of nitrogen completely.
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During what type of phase change does a substance release energy to its surroundings ?
The phase change where energy is released into the surrounding is called exothermic change. Here the heat energy is released to undergo a phase change.
Phase change is the change in the states, that is transitioning from one state to another. Here matter changes phases from liquid, solid, air to any other state. The reaction is exothermic during the changes like a gaseous phase changes into liquid phase or a liquid phase to solid phase.
An example for exothermic change is condensation and freezing. During condensation the latent heat of vaporization is released to the surroundings to undergo change from gaseous to liquid state. During freezing the latent heat of fusion is released to the environment to change phase from liquid to solid.
So during exothermic change a substance release energy to its surroundings.
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the half-life of radium-226 is 1620 years. what percentage of a given amount of the radium will remain after 1200 years?
If the half-life of radium-226 is 1620 years. Then the percentage of a given amount of the radium that will remain after 1200 years is about 42.86%.
To solve this problem, we can use the formula for exponential decay:
N(t) = N0 * (1/2)²(t/T)
where:
N(t) is the amount of radium-226 remaining after time t
N0 is the initial amount of radium-226
T is the half-life of radium-226
We want to find the percentage of the radium that will remain after 1200 years, so we need to calculate N(1200)/N0 and express the result as a percentage.
Using the formula above and plugging in the given values, we get:
N(1200) = N0 * (1/2)²(1200/1620)
N(1200)/N0 = (1/2)²(1200/1620)
N(1200)/N0 ≈ 0.4286
So, after 1200 years, approximately 42.86% of the radium-226 will remain.
Therefore, after 1200 years, about 42.86% of the given amount of radium will remain.
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Place in order the steps involved for flavors on the tongue to create a perception in the brain.-Chemical substances in food disolve in saliva.-Taste receptors are stimulated.-Signals are sent to the thalamus.-The frontal lobe perceives taste.
1. Chemical substances in food dissolve in saliva. 2. Taste receptors are stimulated. 3. Signals are sent to the thalamus. 4. The frontal lobe perceives taste.
What is substances ?Substances can be defined as materials or substances that are composed of one type of atom or molecule. They are made up of atoms and molecules that are combined together in a specific way and can be observed in the physical world. Substances can be either natural or man-made and can be either solid, liquid, or gas. They have a unique set of properties such as boiling point, melting point, and density, which helps to describe them.
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how many atoms of carbon are contained in 47.6 g of al2(co3)3? the molar mass of al2(co3)3 is 233.99 g/mol. 1.23 x 1023 c atoms 2.96 x 1024 c atoms 2.87 x 1025 c atoms 1.10 x 1024 c atoms 3.68 x 1023 c atoms
The correct answer is 3.68 x 10^23 c atoms.To determine the number of atoms of carbon in 47.6 g of Al2(CO3)3, we first need to calculate the number of moles of Al2(CO3)3 using the formula:
moles = mass / molar mass
moles = 47.6 g / 233.99 g/mol
moles = 0.203 moles
Next, we can use the chemical formula of Al2(CO3)3 to determine the number of moles of carbon present in the compound.
One molecule of Al2(CO3)3 contains three molecules of CO3, each of which contains one atom of carbon. Therefore, the total number of atoms of carbon in one molecule of Al2(CO3)3 is:
3 x 1 = 3 atoms of carbon
So, the number of atoms of carbon in 0.203 moles of Al2(CO3)3 is:
0.203 moles x 3 atoms/molecule x Avogadro's number (6.022 x 10^23 atoms/mol)= 3.68 x 10^23 atoms of carbon
Therefore, the correct answer is 3.68 x 10^23 c atoms.
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Which two rings have approximately the same bond angle in their favored conformations?
A. Cyclopropane
B. Cyclobutene
C. Cyclohexane
D. Cyclopentane
E. Cycloheptane
Which ring(s) sacrifice bond angle to relieve torsional strain?
A. Cyclobutene
B. Cyclopropane
C. Cycloheptane
D. Cyclopentane
E. Cyclohexane
Which strain(s) are a type of steric interaction?
A. transannular strain
B. ring strain
C. torsional strain
D. bond angle strain
The favored conformations of cyclopropane and cyclobutene have approximately the same bond angle of about 60 degrees.
Cyclopropane and cyclobutane sacrifice bond angle to relieve torsional strain.
Both torsional strain and steric strain are examples of steric interactions.
What is Cyclopropane?The cycloalkane with the chemical formula (CH2)3 is known as cyclopropane. It is made up of three methylene groups (CH2) that are joined together to create a ring.
It is an extremely strained molecule due to the high angle strain resulting from the 60-degree bond angles in the ring. It is used as a starting material in organic synthesis and as an anesthetic in medicine.
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What are the properties of covalent bonds and how do they differ from ionic bonds?
Answer:
Covalent bonds are formed by the sharing of electrons between two non-metallic atoms. These bonds are typically stronger and more stable than ionic bonds and are found in compounds such as water, hydrogen, and carbon dioxide. Covalent bonds differ from ionic bonds in that they do not involve the transfer of electrons from one atom to another.
Explanation:
which of the following conditions does not contribute to greater gas ideality? group of answer choices lower system temperatures larger system volumes smaller gas molecule sizes smaller system pressures
Smaller gas molecule sizes do not contribute to greater gas ideality. On the other hand, larger system volumes and smaller system pressures both contribute to greater gas ideality
The ideal gas law assumes that gas molecules are point masses with no volume and that there are no attractive or repulsive forces between the molecules. In reality, gas molecules do have volume, and there are intermolecular forces that can affect the behavior of the gas. However, if the gas molecules are small compared to the volume of the container they are in, their volume becomes relatively insignificant and can be ignored. Therefore, smaller gas molecule sizes do not contribute to greater gas ideality, as their small size makes them approach the ideal gas behavior more closely. Smaller gas molecule sizes do not contribute to greater gas ideality.
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if two protiens contain the same type and number of amino acids, but the order in which they link up, are the properties of the two protiens the same?
No, the properties of two proteins with the same type and number of amino acids but a different order of linkage are not the same.
Proteins are complex biomolecules with unique physical and chemical properties that are determined by their three-dimensional structure, which in turn depends on the specific order and arrangement of amino acids in the protein chain.
The order of amino acids in a protein is known as its primary structure, and it can greatly affect the protein's properties, such as its shape, stability, solubility, and function. Therefore, two proteins with different primary structures, even if they contain the same amino acids, will have different properties, and may interact differently with other molecules and cells in the body.
In conclusion, the primary structure of a protein plays a critical role in determining its properties, and any changes or variations in the order of amino acids can have significant consequences for the protein's structure and function. Therefore, two proteins with the same type and number of amino acids but different primary structures are not the same and can have different properties and functions.
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1. Calculate pH of 5M solution of NaOH.
Answer:
the pH of the solution is 5.5.
Explanation:
the concentration is 5 moles per liter and the acidity or alkalinity is 0.5 moles per liter.
Why would you want to know how much carbon dioxide your dream car produces?
Answer:
You might want to know the amount of carbon dioxide produced by your dream car for a variety of reasons. For example:
Environmental impact: Knowing the carbon dioxide emissions of a car can give you an idea of its impact on the environment. High carbon dioxide emissions contribute to climate change, air pollution, and other environmental issues.
Fuel efficiency: A car that produces high levels of carbon dioxide is likely to be less fuel efficient. This means that it may consume more fuel than other vehicles, making it more expensive to operate over time.
Government regulations: Many countries have regulations that limit the amount of carbon dioxide that cars can emit. Knowing the emissions of your dream car can help you determine whether it is compliant with these regulations.
Personal responsibility: If you are concerned about the impact of your actions on the environment, knowing the carbon dioxide emissions of your dream car can help you make informed decisions about the car you purchase and how you use it.
Explanation:
Overall, knowing the carbon dioxide emissions of your dream car can help you make informed decisions about your driving habits and the car you purchase.
ALLEN
how does a crowbar used to remove the top of a box change the direction of the force?
Question: What type of intermolecular forces are present in each compound? Van der Waals forces.Van der Waals forces and dipole-dipole interactions.Van der Waals forces and dipole-dipole interactions.Van der Waals forces and dipole-dipole interactions.Van der Waals forces, dipole-dipole interactions, and hydrogen bonding.Van der Waals forces.
The characteristics of the individual molecules and their molecular geometry determine the types of intermolecular forces that a compound displays.
Intermolecular forces typically fall into one of three categories:
All molecules exhibit London dispersion forces, the weakest kind of intermolecular force. They develop as a result of brief variations in electron density that lead to the creation of instantaneous dipoles. As molecular size and surface area grow, London dispersion forces rise.
Interactions between molecules possessing permanent dipoles, such as polar covalent compounds, are known as dipole-dipole interactions. There is a net attractive force created when the positive ends of two dipoles are drawn together. London dispersion forces are outweighed by interactions between dipoles.
When hydrogen atoms are joined to strongly electronegative atoms like nitrogen, oxygen, or fluorine, an unique sort of dipole-dipole interaction called hydrogen bonding takes place. Due to the significant difference in electronegativity between hydrogen and several other atoms, hydrogen bonds are a sort of intermolecular force that are exceptionally powerful.
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10. Oil formed from ---
that were once alive.
A. Plants
B. Plants and animals
It should be b
oil was formed from sea animals and bacteria or plants like algae. hope this helps!
What are the components in Covellite
Covellite is a mineral that is composed mainly of sulfur(S) and copper (Cu), with occasional traces o other elements such as Iron (Fe), Nickel (Ni), and arsenic (Ar). Covellite has a chemical formula of CuS.
It is a member of the sulfide mineral group and is commonly found in the alteration process of other similar minerals that are made of CuS. Examples of such similar minerals are Chalcolite and Chalcopyrite.
The given element, Covellite has a distinct blue-black color for which it is known for. It is one of the rare minerals which is often sought out and after by mineral collectors all around the world.
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ASAP
A carbon atom has a relative atomic mass of 13. 60% of the carbon atom has a mass number of 12.4, 30% of the carbon atoms have a mass number of 13.1, whilst the remaining 10% have a mass number which is not known.
Calculate the mass number of the carbon isotope which is 10% of the Carbon 13 atom.
Give your answer to 1 decimal place, if needed.
Answer:
16.3.
Explanation:
The average atomic mass of an element is calculated by weighing each isotope present and multiplying it by its percent abundance, and then adding all the values.
First, we'll find the weighted average of the isotopes present in 60% and 30% of the Carbon 13 atom:
0.6 * 12.4 + 0.3 * 13.1 = 7.44 + 3.93 = 11.37
Next, we'll subtract the weighted average of these two isotopes from the relative atomic mass of carbon:
13.0 - 11.37 = 1.63
This is the weighted average of the isotope present in the remaining 10% of the Carbon 13 atom. To find the mass number, we'll divide the weighted average by the atomic weight of the isotope:
1.63 / 0.1 = 16.3
So, the mass number of the carbon isotope present in 10% of the Carbon 13 atom is approximately 16.3.
at ph 9.0, what is the major form of each ionizable group? a. n-terminus: ammonium; lysine r group: ammonium; c-terminus: carboxylate; aspartic acid r group: carboxylate b. n-terminus: amine; lysine r group: ammonium; c-terminus: carboxylate; aspartic acid r group: carboxylate c. n-terminus: amine; lysine r group: ammonium; c-terminus: carboxylic acid; aspartic acid r group: carboxylate d. n-terminus: amine; lysine r group: ammonium; c-terminus: carboxylic acid; aspartic acid r group: carboxylic acid
At pH 9.0, the solution is basic and the ionizable groups in the peptide will be ionized. The correct answer is option b: n-terminus: amine; lysine r group: ammonium; c-terminus: carboxylate; aspartic acid r group: carboxylate.
Ionization of Peptide at pH 9.0At pH 9.0, the ionizable groups in a peptide are likely to be ionized. The pKa values of the different ionizable groups in the peptide determine which form they will be in at a given pH. The amino group at the N-terminus of the peptide has a pKa value of about 9.0, which means that it will mostly exist in the ionized form as an amine (NH2) at pH 9.0. The lysine R group has a pKa value of approximately 10.8, which means that it will exist in the ionized form as ammonium (NH3+) at pH 9.0. The carboxyl group at the C-terminus of the peptide has a pKa value of around 2.2, which means that it will exist in the ionized form as a carboxylate (COO-) at pH 9.0. The aspartic acid R group has a pKa value of about 3.9, which means that it will also exist in the ionized form as a carboxylate (COO-) at pH 9.0. Therefore, at pH 9.0, the major forms of each ionizable group in a peptide are N-terminus - amine (NH2), Lysine R group - ammonium (NH3+), C-terminus - carboxylate (COO-), and Aspartic acid R group - carboxylate (COO-). Understanding the ionization of peptides at different pH values is important in many biochemical and biophysical studies that involve peptides and proteins.
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The qualities/quantities of a gas are independent of one another.
True
False
Explanation:
True. They may both be properties of a gas but they are independent of each other since the pressure of a gas may vary without changing the temperature or volume (or any other properties).
Answer:
True
Explanation:
The statement "The qualities/quantities of a gas are independent of one another" is True. This means that a change in one property of a gas, such as pressure, volume, or temperature, does not affect the other properties. This is one of the basic assumptions of the ideal gas law, which states that the pressure, volume, and temperature of a gas are proportional to one another under certain conditions.
For example, when the volume of a gas is increased, its pressure decreases, and when its temperature is increased, its pressure also increases. These changes in properties are independent of one another, and can be described by the mathematical relationships described by the ideal gas law.
ALLEN
If 200g of CH3OH is used in a combustion process. How many grams of water can be produced?
224.7 grams of water can be produced by the combustion of 200 grams of CH3OH.
What is combustion?
Combustion is a chemical reaction that occurs between a fuel and an oxidizing agent, usually oxygen, which results in the release of energy in the form of heat and light. During combustion, the fuel is oxidized (i.e., loses electrons) and the oxidizing agent is reduced (i.e., gains electrons). This reaction is often accompanied by the production of other products, such as water and carbon dioxide.
The balanced chemical equation for the combustion of CH3OH is:
2 CH3OH + 3 O2 → 2 CO2 + 4 H2O
From the balanced equation, we can see that 2 moles of CH3OH react with 4 moles of H2O. Therefore, we can use the molar mass of CH3OH to calculate the number of moles of CH3OH, and then use the stoichiometric ratio to calculate the number of moles of H2O produced. Finally, we can convert the moles of H2O to grams using the molar mass of water.
Step 1: Calculate the number of moles of CH3OH.
molar mass of CH3OH = 12.01 g/mol (C) + 4(1.01 g/mol) (H) + 16.00 g/mol (O) = 32.04 g/mol
moles of CH3OH = mass / molar mass = 200 g / 32.04 g/mol = 6.237 mol
Step 2: Calculate the number of moles of H2O produced.
From the balanced equation, we need 4 moles of H2O for every 2 moles of CH3OH.
moles of H2O = 4 x moles of CH3OH / 2 = 4 x 6.237 mol / 2 = 12.474 mol
Step 3: Calculate the mass of H2O produced.
molar mass of H2O = 2(1.01 g/mol) + 16.00 g/mol = 18.02 g/mol
mass of H2O = moles of H2O x molar mass of H2O = 12.474 mol x 18.02 g/mol = 224.7 g
Therefore, 224.7 grams of water can be produced by the combustion of 200 grams of CH3OH.
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what are the limiting reagent in the chemical reaction that was used to determine the molar volume of h2 gas?
The limiting reagent would be either Hydrochloric acid (HCl) or Zinc (Zn), depending on the amounts of each present in the reaction.
The chemical reaction commonly used to determine the molar volume of hydrogen gas is:
2 HCl(aq) + Zn(s) → ZnCl2(aq) + H2(g)
In this reaction, the limiting reagent is the reactant that is completely consumed, limiting the amount of product that can be formed.
In this case, the limiting reagent would be either HCl or Zn, depending on the amounts of each present in the reaction. Typically, the reactant that is present in the smallest amount is the limiting reagent.
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Classify the outcomes based on whether they are caused by adding or removing a reactant from a chemical reaction.
The rate of the reverse
reaction increases.
The concentration of
products decreases.
The concentration of
products increases.
The rate of the forward
reaction increases.
A) adding a reactant
B) removing a reactant
PLEASE BE ACCURATE!!! Thank you very much!!:)
Answer:
The rate of the reverse reaction increases - B) removing a reactant
The concentration of products decreases - B) removing a reactant
The concentration of products increases - A) adding a reactant
The rate of the forward reaction increases - A) adding a reactant
Explanation:
In a chemical reaction, adding a reactant increases the amount of reactants in the system, which can increase the rate of the forward reaction. On the other hand, removing a reactant decreases the amount of reactants, which can increase the rate of the reverse reaction.
The increase in the rate of the reverse reaction can lead to a decrease in the concentration of the products. Meanwhile, the increase in the rate of the forward reaction can lead to an increase in the concentration of the products.
So, based on this information, we can classify the outcomes as follows:
The rate of the reverse reaction increases: B) removing a reactant
The concentration of products decreases: B) removing a reactant
The concentration of products increases: A) adding a reactant
The rate of the forward reaction increases: A) adding a reactant
ALLEN
Fireing the thrusters would have caused the pod to kove in the oppsite direction if
Force applied by the thrusters forced the pod to reverse course, this is determined by direction and strength of the force applied.
What is thrust?Thrust is a response force that can be quantified using Newton's third law. When a system expels and accelerates mass inside one direction, the accelerating mass causes the system to experience a force of same magnitude but opposite direction.
We were told because firing the thrusters slowed but did not halt the pod. If the pod collided with the space station, it would bounce and go in the other direction.
The most likely scenario as well as reason that this has occur is that the force applied by the thrusters forced the pod to reverse course. However, this is primarily determined by two factors: the direction and strength of something like the force applied.
Therefore, force applied by the thrusters forced the pod to reverse course, this is determined by direction and strength of the force applied.
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how many protons and electrons are in the ion gold(iii)? express your answers numerically separated by a comma.
In an atom, number of electrons and protons is same and thus number of electrons and protons are 79 in an ion of gold(III).
What is an atom?An atom is defined as the smallest unit of matter which forms an element. Every form of matter whether solid,liquid , gas consists of atoms . Each atom has a nucleus which is composed of protons and neutrons and shells in which the electrons revolve.
The protons are positively charged and neutrons are neutral and hence the nucleus is positively charged. The electrons which revolve around the nucleus are negatively charged and hence the atom as a whole is neutral and stable due to presence of oppositely charged particles.
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The reaction of benzaldehyde with acetone and sodium hydroxide produces v Choose... stilbere This is an example of Choose.... reaction dibenzylideneacetone benzocaine anthracene triphenyl methanol The reaction of benzaldehyde with acetone and sodium hydroxide produces Choose... This is an example of v Choose... reaction. a Diels-Alder a Wittig an aldol condensation a Fischer esterification a Grignard
Dibenzylideneacetone is formed when benzaldehyde reacts with acetone and sodium hydroxide. An aldol condensation process is seen here. The aldol condensation reaction.
is a process that occurs in the presence of a base (sodium hydroxide) between an aldehyde or ketone to generate a beta-hydroxy aldehyde or ketone, which may then be dehydrated to form an alpha,beta-unsaturated aldehyde or ketone. In this scenario, Dibenzylideneacetone is formed when benzaldehyde reacts with acetone and sodium hydroxide. An aldol condensation process is seen here. The aldol condensation reaction. the beta-hydroxy ketone produced (dibenzylideneacetone) is dehydrated to produce the alpha,beta-unsaturated ketone (stilbene is not formed in this reaction).
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where can oxygen that has been ionized up to 5 times be typically found? question 2 options: h-ii regions ultra-hot interstellar gas clouds neutral hydrogen clouds emission clouds molecular clouds
In Ultra-hot Interstellar gas clouds can oxygen that has been ionized up to 5 times be typically found.
Ultra Hot Interstellar Gas Clouds:
Although the 10,000 K temperature of the H II region may seem warm, it is not the hottest phase of the interstellar medium. Some of the interstellar gas is a million degrees hot, even though there are no nearby visible sources of heat.
The discovery of this super-hot interstellar gas came as a great surprise. Before launching observatories into space that could see ultraviolet and X-ray radiation, astronomers assumed that most of the interstellar regions were filled with hydrogen at temperatures not higher than those found in the H II region. However, telescopes launched above Earth's atmosphere captured an ultraviolet spectrum that included interstellar lines formed by five times ionized oxygen atoms. It takes a lot of energy to knock 5 electrons off their orbits around the oxygen nucleus.
Astronomers estimate that a supernova explodes somewhere in the galaxy about every 100 years. On average, supernova impacts pass through some point in the galaxy once every few million years. These thrusts support some interstellar space filled with gas at temperatures of millions of degrees and constantly disturb the cooler gas to maintain constant turbulent motion.
Complete Question:
Where can oxygen that has been ionized up to 5 times be typically found?
a. Ultra-hot Interstellar gas clouds
b. Molecular clouds
c. H-II regions
d. Neutral hydrogen clouds
e. Emission clouds
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6. how many grams of water are needed to dissolve 25.31 g of potassium nitrate (kno3, mw 101.11 g/mol) in order to prepare a 0.1982 m solution?
The grams of water are needed to dissolve 25.31 g of the potassium nitrate in order to prepare the 0.1982 M solution is 1263 g.
The expression of the molality is as follows :
Molality = moles solute / kg solvent
The kg of solvent = moles solute / molality
The moles of solute = mass / molar mass
The moles of solute = 25.31 g / 101.1 g/mole
The moles of solute = 0.2503 mole
The amount in kg solvent = 0.2503 mole / 0.1982 m
The amount in kg solvent = 1.263 kg
The amount in kg solvent = 1263 g
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