The order of the solvents according to their polarities, from the most polar to nonpolar are :
water > ethanol > acetone > ethyl acetate > hexane
The water is the most polar compound as the water has the two polar end and the shape of the water molecule is bent shape. Th water molecule has the net dipole moment. The ethanol will be than water as the ethanol contains the non polar alkyl group. The alcohols are polar than that of ketone because alcohol form the hydrogen bond. The carbonyl are more polar than the ester.
The hexane is the nonpolar compound because it does not have any of the polar bond present in it.
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what is the purpose of using acetone in this experiment? how would you correctly use actone to achieve the desired goal?
The purpose of using acetone in this experiment is to extract the lipids from a sample. To correctly use acetone, you would need to mix the sample with a small amount of acetone and an equal volume of water.
After mixing, the lipids can be separated from the rest of the sample by centrifugation. The separated lipids can then be collected and analyzed.
The purpose of using acetone in the experiment and provides a detailed description of how to use it correctly to achieve the desired goal. The answer also provides an explanation of how the lipids can be separated from the rest of the sample and how they can then be analyzed.
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true or false. To maintain beer quality it is important to maintain consistent calcium and pH levels.
To maintain the quality of beer, it is important to maintain consistent calcium and pH levels. So the statement is true.
Calcium is important for yeast health and contributes to the beer's flavor and texture.
while pH affects yeast activity and can impact the stability and flavor of the beer. If the levels of calcium and pH fluctuate too much, it can lead to issues with fermentation and negatively affect the quality of the beer.
Maintaining consistent levels of calcium and pH in beer can also impact the clarity and stability of the final product.
Therefore, consistent levels of calcium and pH are crucial in maintaining the quality of beer.
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A scientist measures a glass of water and finds that it is 240 g. What did the scientist measure?
Answer:
the glass and water maybe
Is the disaccharide made from a glucose linked to a fructose quizlet?
A disaccharide called sucrose is made up of glucose connected to fructose, not galactose.
What disaccharide is made when glucose and fructose are combined?Two monosaccharide units are joined by glycosidic linkages in either the or orientation to form disaccharides. Succrose, lactose, and maltose are the three most significant ones. The most prevalent sugar is sucrose, which is composed of a molecule of α-glucose and β-fructose bonded together.
A glycosidic bond connects the two monosaccharide units that make up a disaccharide. The O-glycosidic linkages, which link the oxygen from a hydroxyl group to the carbonyl carbon, are the most typical glycosidic connections joining monosaccharide units.
The disaccharide sucrose is created through the condensation process between glucose and fructose. One type of disaccharide exists sucrose, also referred to as table sugar. Two monosaccharides are joined to create a disaccharide, which is a type of carbohydrate. Maltose and lactose are two other typical disaccharides.
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what is an object when it has equal numbers of posstive and negative charges
Answer:
normal
Explanation:
Fill in the blank for the sentences below. (1 pt each)
11. Ionic bonds are between
and lost. Covalent bonds are between
electrons are
and
and
In these compounds, electrons are gained
In these compounds
Ionic and Covalent Bonds.
Ionic bonds are between metals and non-metals, where electrons are transferred from the metal to the non-metal.
Covalent bonds are between non-metals, where electrons are shared between atoms and are not lost or gained.
In Anions, electrons are gained
What are anions?Anions are negatively charged ions. They gain electrons to achieve a stable electron configuration.
b) Electrons are negatively charged subatomic particles that orbit the nucleus of an atom. They are responsible for chemical reactions and the formation of chemical bonds between atoms.
The most common examples of anions are halide ions such as chloride (Cl-), bromide (Br-), and iodide (I-), which are formed by the addition of an extra electron to the outermost shell of a halogen atom.
Other examples of anions include hydroxide (OH-), sulfate (SO42-), and nitrate (NO3-), which are important in many chemical reactions and biological processes. Anions are usually attracted to positively charged ions or molecules, called cations, to form ionic compounds.
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Select the conjugate bases that will deprotonate water:H-Cl pKa -7CH3COO-H pKa 4.8HO-H pKa 15.7CH3CH2O-H pKa 16HC?CH pKa 25H-H pKa 35H2N-H pKa 38CH2=CH2 pKa 44CH3-H pKa 50
To deprotonate water, we need to choose a conjugate base with a pKa value greater than the pKa value of water (pKa = 15.7). The following are the conjugate bases with pKa values greater than 15.7:
CH3- (pKa = 50)
Out of these, the strongest base would be , with a pKa value farthest from that of water. Therefore, is the least likely conjugate base to deprotonate water.
That in practice, the extent to which a conjugate base deprotonates water also depends on factors such as concentration, solvent, and temperature, as well as the identity and concentration of any other acids or bases present.
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What combinations of positive or negative AH, and positive or negative As, can indicate a spontaneous reaction according to the Gibbs free energy equation (AG- AH-TAS)?
According to the Gibbs free energy equation (ΔG = ΔH - TΔS), the spontaneity of a reaction is determined by the sign and magnitude of the enthalpy change (ΔH) and the entropy change (ΔS).
If ΔH is negative (exothermic) and ΔS is positive (increase in disorder), the reaction will be spontaneous at all temperatures. This indicates that the products are more energetically stable than the reactants.
If ΔH is positive (endothermic) and ΔS is negative (decrease in disorder), the reaction will be non-spontaneous at all temperatures. This indicates that the products are less energetically stable than the reactants.
If ΔH is positive and ΔS is positive, the reaction will be spontaneous only at high temperatures. This indicates that the products are less energetically stable than the reactants, but the increase in entropy at high temperatures can drive the reaction forward.
If ΔH is negative and ΔS is negative, the reaction will be spontaneous only at low temperatures. This indicates that the products are more energetically stable than the reactants, but the decrease in entropy at low temperatures can drive the reaction forward.
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How do you determine the mechanism of a reaction?
The mechanism of a reaction can be determine by the overall sequence of the elementary reactions is called as the mechanism of the reaction.
The mechanism of the reaction is the sum of all the individual steps, or the elementary reactions, in the mechanism that provides the balanced chemical equation of the overall reaction. The overall sequence of the elementary reactions is called as the mechanism of the reaction.
A mechanism of the is the step by the step sequence of the elementary reactions by which the overall chemical change is occurs. The mechanism of the reaction is the actual process by which the reaction takes place.
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Identify the items needed to run a spectrophotometric experiment. Choose one or more: A. spectrophotometer B. Hot plate C. blank solution D. sample solutionE. cuvette F. stir bar
The items required to run the spectrophotometry experiment exists Spectrophotometer, Blank solution, Sample solution, Cuvette and Stir bar.
What is meant by spectrophotometric experiment?Spectrophotometry is an experimental method for determining the concentration of solutes in a particular solution by estimating the amount of light that each solute absorbs. Because specific substances will absorb certain light wavelengths at various intensities, this technique is effective.
By measuring the intensity of light as a beam of light travels through a sample solution, a technique called spectrophotometry can determine how much light a chemical component absorbs.
The spectrophotometer is the device used to calculate how much light the sample absorbs. In order to measure the sample's light's intensity, a light beam will be directed through the sample. The tool is employed in both color measurement and color monitoring.
In a number of spectroscopic experiments, the spectrophotometer is employed to ascertain the peak's wavelength.
Therefore, the correct answer is option A. Spectrophotometer
C. Blank solution
D. Sample solution
E. Cuvette
F. Stir bar.
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a molecule that can absorb energy within the wavelengths of visible light is
What is the mass of the object if it has a density of 657g/ml and a volume of 32 mL
We can use the formula for density to calculate the mass of the object:
Density = Mass / Volume
Rearranging the formula, we get:
Mass = Density x Volume
Substituting the given values of density and volume, we get:
Mass = 657 g/mL x 32 mL = 21,024 g
Therefore, the mass of the object is 21,024 g or 21.024 kg (rounded to three decimal places).
A solution is prepared by dissolving 17. 75 g sulfuric acid, h2so4, in enough water to make exactly 100. 0 ml of solution. If the density of the solution is 1. 1094 g/ml, what is the weight % h2so4 in the solution?.
The weight percent of H₂SO4in the solution is 15.98%.
To calculate the weight percent of H₂SO4in the solution, we need to first find the mass of H₂SO4in the solution. We can use the molarity of the solution and the molar mass of H₂SO4to calculate the mass of H₂SO4present:
Calculate the number of moles of 4:
Molar mass of H₂SO4 = 2(1.008 + 32.06 + 4(16.00)) = 98.08 g/mol
Number of moles of H₂SO4= mass of H₂SO4 / molar mass of H₂SO4
= 17.75 g / 98.08 g/mol
= 0.1809 mol
Calculate the mass of the solution:
Mass of the solution = volume of the solution x density of the solution
= 100.0 ml x 1.1094 g/ml
= 110.94 g
Calculate the mass of H₂SO4in the solution:
Mass of H₂SO4in solution = number of moles of H₂SO4x molar mass of H₂SO4
= 0.1809 mol x 98.08 g/mol
= 17.73 g
Now that we know the mass of H₂SO4in the solution, we can calculate the weight percent of H₂SO4:
Weight % H₂SO4= (mass of H₂SO4/ mass of solution) x 100%
= (17.73 g / 110.94 g) x 100%
= 15.98%
Therefore, the weight percent of H₂SO4in the solution is 15.98%.
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These players train by pushing a massive object. If the players produce a net force of 150 N, and the object has a mass of 75 kg, what is the object’s acceleration?
2m/s^2 is the object’s acceleration.
Describe a force.
A push or pull that an object experiences as a result of interacting with another item is known as a force. Every time two items interact, a force is exerted on each of the objects. The force is no longer felt by the two objects when the interaction ends.
According to Newton's second law of motion, the force is equal to the change in momentum divided by the change in time. Force is equal to the mass times the acceleration for a constant mass.
Force ⇒ m.a
F ⇒ 150N
m ⇒ 75kg
a ⇒?
a ⇒ F/m
⇒ 150/75
⇒ 2m/s^2
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How does C6H12O6 dissociate?
The glucose with the molecular formula of C₆H₁₂O₆ does not dissociates into the ions it will remain same as the molecule.
The glucose that is the C₆H₁₂O₆ is the covalent compound. The covalent compound is the compound which is formed in between the atoms or the molecules with the mutual sharing of the electrons. This compound contains the three non metallic elements. When the non metal bond they will share the electron pairs and form the covalent compound. It is typical example of the nonelectrolyte. The Glucose is also known as the which sugar dissolves readily in water.
Thus, the glucose does not dissociates in to the ions it stays same as the molecule.
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do ionic bonds have shapes
Ionic bonds themselves do not have shapes, as they involve the electrostatic attraction between positively and negatively charged ions.
What is ionic bonds?Ionic bonds are a type of chemical bond that involves the transfer of electrons between atoms. Ionic bonds occur when one atom, typically a metal, loses one or more electrons and another atom, typically a nonmetal, gains those electrons. This transfer of electrons results in the formation of positively charged cations and negatively charged anions, which then attract each other through electrostatic forces to form an ionic compound. Ionic bonds tend to be strong and stable, and ionic compounds typically have high melting and boiling points due to the strong attraction between the positively and negatively charged ions. They also tend to be brittle and hard, and often form crystalline structures. Examples of common ionic compounds include table salt (sodium chloride), magnesium oxide, and calcium carbonate.
Here,
However, when ionic compounds are formed, they can take on different shapes depending on the arrangement of the ions in the crystal lattice. The crystal lattice structure of an ionic compound is determined by the relative sizes and charges of the ions involved, as well as by the conditions under which the compound was formed (e.g., temperature, pressure, and other environmental factors).
For example, sodium chloride (NaCl) has a crystal lattice structure that forms a cubic shape, while calcium fluoride (CaF2) has a crystal lattice structure that forms a more complex, cubic shape with additional voids in the lattice. In general, ionic compounds tend to have relatively high melting and boiling points, as well as a tendency to form brittle, crystalline solids.
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What is the ratio of hydrogen atoms to carbon atoms in a carbohydrate?
The ratios are 1:2:1. The ratio of carbon, hydrogen, and oxygen in most carbohydrates is 1:2:1.
This means for every one carbon atom and there are two hydrogen atoms and one oxygen atom. It forms the structure of even the most complex carbohydrates such as starch and glycogen. Carbohydrates are the organic molecules madeup of carbon, hydrogen, and oxygen atoms.
The ratio of these three atoms in carbohydrates is most commonly 1:2:1, meaning for every carbon atom, there are two hydrogen atoms and a oxygen atom. This ratio is the same for both monosaccharides and polysaccharides. Monosaccharides are the simplest carbohydrates and are composed of single sugar molecules, while polysaccharides are larger molecules composed of multiple sugar molecules linked together.
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Which two rings have approximately the same bond angle in their favored conformations? a. cyclopropane b. cyclobutane c. cyclohexane d. cyclopentane e. cycloheptane
The two rings with approximately the same bond angle in their favored conformations are a) cyclopropane and c) cyclohexane.
Both rings have a bond angle of approximately 120 degrees, which allows them to be in their most stable conformation. In cyclopropane, the three carbon atoms are arranged in a planar triangle, with each bond angle being approximately 120 degrees.
In cyclohexane, the six carbon atoms are arranged in a regular hexagon, with each bond angle being approximately 120 degrees. The bond angles in both of these rings are approximately the same because both rings are planar, allowing them to form their most stable conformations.
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how many moles are there in 4.00 moles of glucose, C₆H₁₂O₆
2.40 ×10²⁴ molecules are there in 4.00 moles of glucose, C₆H₁₂O₆. A molecule is a collection of at least two atoms.
What is molecule?According on the context, the word can or cannot encompass ions that meet this requirement. A molecule is a collection of at least two atoms bound together by the attractive forces called as chemical bonds.
When speaking of polyatomic ions, the difference between them and ions is frequently ignored in the fields of quantum theory, organic chemistry, especially biochemistry.
number of molecule = number of moles × 6.022×10²³
= 4× 6.022×10²³
= 2.40 ×10²⁴ molecules
Therefore, 2.40 ×10²⁴ molecules are there in 4.00 moles of glucose, C₆H₁₂O₆.
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What is m in chemistry?
Answer:
Possibly molar.
Explanation:
It depends on the context in which it is used. If it appears as 1.52m, it likely means 1.52 Molar, or 1.52M. Molar is defined as moles/liter. It is usually capitalized, but I've increasingly seen it appearing as a small "m." The letter "n" typically means actual moles of a substance. If the letter m appears as part of an equation, it should be defined at that point, or in the previous paragraphs.
What is the electron configuration of Sulfur 16?
The electronic configuration of the Sulfur with the atomic number of 16 is as : 1s² 2s² 2p⁶ 3s² 3p⁴ .
The atomic number of the sulfur is 16. The sulfur has the total number of the electrons is 16 , the number of the protons are 16 and the number of the neutrons are the 16. The electronic configuration of the sulfur is as follows :
The electronic configuration of the sulfur, S = 1s² 2s² 2p⁶ 3s² 3p⁴
The the Sulfur belongs to group 16 in the Modern periodic table. The Sulfur is placed in the third period in the modern periodic table.
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ammonia is produced at high temperatures and under great pressure in a tank passing a mixture of nitrogen snd hydrogen over an iron catalyst the reaction is represented by this equation N2(g)+3h2(g)->2nh3(g) if the total pressure of nitrogen and hydrogen in the tank before the reaction is4200 kPa, what is the partial pressure of the nitrogen gas? [assume there would be no excess reagent if the reaction went to completion.]
1400 kPa
3150kPa
2100 KPa
1050 kPa
Answer:
The answer is 1050
:
Partial pressure of nitrogen in the mixture is calculated as 1050 kPa.
What is partial pressure?The pressure exerted by a (specified) component in a mixture of gases is called partial pressure.
The reaction N2(g) + 3H2(g) -> 2NH3(g) shows that one molecule of nitrogen reacts with three molecules of hydrogen to produce two molecules of ammonia. This means that the ratio of moles of nitrogen to moles of hydrogen in the reaction is 1:3.
X(N2) = (moles of N2) / (total moles of gas)
As the ratio of moles of nitrogen to moles of hydrogen in the reaction is 1:3, we can use the mole fraction of nitrogen to determine the mole fraction of hydrogen:
X(H2) = 3 * X(N2)
moles of gas = (total pressure) / (gas constant * temperature)
where gas constant = 8.31 J/mol*K and temperature is in kelvin.
moles of N2 = X(N2) * moles of gas
so, partial pressure of N2 = X(N2) * total pressure
X(N2) = moles of N2 / moles of gas = 1 / (1 + 3) = 0.25
X(H2) = 3 * X(N2) = 0.75
moles of gas = (4200 kPa) / (8.31 J/mol*K * 298 K) = 1.789 mol
moles of N2 = X(N2) * moles of gas = 0.25 * 1.789 mol = 0.447 mol
partial pressure of N2 = X(N2) * total pressure = 0.25 * 4200 kPa = 1050 kPa
Therefore, the partial pressure of nitrogen in the mixture is 1050 kPa.
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What are the types of chemical reactions answer key?
There are five common types of reactions which are combination, decomposition, single-replacement, double-replacement, and combustion reactions.
Combination Reactions are defined as the reactions in which two or more reactants combine between itself in order to form one product.
Decomposition reactions are defined as the processes in which chemical species break up into simpler parts. Basically, decomposition reactions require input of energy.
A single replacement reaction, also called a single displacement reaction, is defined as a reaction in which one element is substituted for another element in a compound to form a different product.
A double-replacement reaction is defined as a reaction in which the positive and negative ions of two ionic compounds usually exchange places to form two new compounds.
Combustion is defined as a chemical process in which a substance reacts rapidly with oxygen and gives off heat in the product side.
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Why is salt water heterogeneous?
Salt water is heterogeneous because it contains two or more distinct phases that can be seen with the eye.
Salt water is a mixture of water and salt, which are two distinct phases that do not blend evenly. The salt in salt water is in the form of ions, which are evenly distributed throughout the water. However, these ions do not dissolve completely, and they can form a separate layer of solid salt at the bottom of the container.
This layer can be easily seen with the eye, demonstrating that the salt water is not uniform throughout. Additionally, if the salt water is heated, it will undergo a phase change and evaporate, leaving behind a residue of solid salt, which again shows that the salt water is a heterogeneous mixture.
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Hydrogen peroxide breaks down back into water and oxygen when exposed to air and light. When purchased at a pharmacy for home use, hydrogen peroxide is sold in dark bottles labeled as having a concentration of 3% by weight.A chemistry student wants to test the concentration of hydrogen peroxide that has been poured into light and dark vials, and exposed to air for 10, 20 and 30 hours.The concentration was tested by titration with potassium permanganate, and each sample was tested twice.
Since the breakdown of hydrogen peroxide can cause a reduction in concentration and potency over time, it is a good idea to check the concentration of hydrogen peroxide that has been exposed to air and light.
The chemical student employed titration with potassium permanganate to measure the quantity of hydrogen peroxide.
Using this technique, the volume of potassium permanganate solution needed to completely react with the hydrogen peroxide sample is measured after adding a known quantity of a standard potassium permanganate solution to the hydrogen peroxide sample until the reaction is complete.
Hydrogen peroxide and potassium permanganate react in the following way: 5 H2O2 + 2 KMnO4 + 3 H2SO4 5 O2 + 2 MnSO4 + K2SO4 + 8 H2O
The amount of hydrogen peroxide in the sample may be determined from the volume and concentration of the potassium permanganate solution used in the titration because the reaction uses 5 moles of hydrogen peroxide for every 2 moles of potassium permanganate.
The chemical student should carry out the following procedures to examine the hydrogen peroxide samples in dark and light vials that have been exposed to air for 10, 20, and 30 hours:
1. Make a standard potassium permanganate solution with a known concentration.
2. Pour a known volume of each test sample of hydrogen peroxide into a flask.
3. To serve as a catalyst for the reaction, add a tiny quantity of diluted sulfuric acid to the hydrogen peroxide sample.
4. Continue titrating the hydrogen peroxide sample with the potassium permanganate standard solution until the reaction is finished, which is shown by a lingering pink hue of the potassium permanganate solution.
5. To confirm the correctness of the results, repeat the titration using the same sample.
6. Using the volume and concentration of the potassium permanganate solution used in the titration, determine the concentration of hydrogen peroxide in the sample.
The chemical student can find out if the exposure to air and light has changed the concentration of hydrogen peroxide over time by analysing the concentration of hydrogen peroxide in the light and dark vials after 10, 20, and 30 hours.
The findings may be calculated by comparing them to the original concentration of 3% by weight.
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The volume of a gas is halved during an adiabatic compression that increases the pressure by a factor of 2.5.
a. What is the specific heat ratio γ?
b. By what factor does the temperature increase?
a. To find the specific heat ratio γ, we can use the adiabatic compression equation:
P₁V₁^γ = P₂V₂^γ
where P is pressure, V is volume, and γ is the specific heat ratio.
We are given that the volume is halved, which means V₂ = (1/2)V₁. We are also given that the pressure increases by a factor of 2.5, which means P₂ = 2.5P₁. Substituting these values into the equation and solving for γ, we get:
P₁V₁^γ = P₂V₂^γ
P₁V₁^γ = 2.5P₁(1/2V₁)^γ
1 = 2.5(1/2)^γ
γ = ln(1.4)/ln(1/2)
γ ≈ 1.88
Therefore, the specific heat ratio γ is approximately 1.88.
b. To find the factor by which the temperature increases, we can use the adiabatic compression equation again, but this time we'll use the relationship between temperature and pressure:
P₁V₁^γ/T₁ = P₂V₂^γ/T₂
where T is temperature.
We know that the pressure increases by a factor of 2.5, which means P₂ = 2.5P₁. We also know that the volume is halved, which means V₂ = (1/2)V₁. Substituting these values into the equation, we get:
P₁V₁^γ/T₁ = 2.5P₁(1/2V₁)^γ/T₂
T₂/T₁ = (2.5/2^γ)
T₂/T₁ ≈ 1.8
Therefore, the temperature increases by a factor of approximately 1.8.
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The Particulate Nature of Matter -
Drag all of the atoms and molecules into correct boxes.
pure substance
and an element
mixture of an
element and a
compound
The first diagram shows pure elements and the second diagram shows molecules. The third one is compounds and the fourth one is mixtures. Except mixtures, all are pure substances in their pure form.
What is are compounds ?Compounds are the combination of two or atoms of different elements. They are of different types, like ionic compounds, covalent compounds, coordination compounds etc.
Here, elements and molecules only contains the same thing itself and they are pure substances. Similarly compounds with out the presence of addition substance are pure substances.
Mixtures are combinations of two or more individual substances or the mix of two or more pure substances. The third diagram represents a mixture of different compounds.
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The image related to this question is given below:
How many grams of potassium sulfate(K2SO4) are dissolved in 700 mL of a 0.5M?
The number of grams of potassium sulfate dissolved in 700 mL of a 0.5M is 60.991g.
How to calculate mass?The mass of a substance can be calculated by multiplying the number of moles in the substance by its molar mass as follows:
mass = no of moles × molar mass
However, the number of moles can be calculated from the molarity as follows:
0.5M = moles ÷ 0.7L
moles of pottasium sulfate = 0.35 moles
Molar mass of pottasium sulfate = 174.259 g/mol
Mass = 174.26 × 0.35 = 60.991g
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Halogens on two adjacent carbons in a benzene ring are in the:
para-position
meta-position
ortho-position
none of the above
Halogens on two adjacent carbon atoms in a benzene ring are in the para position.
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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Answer:
the correct answer is ortho-position
You are required to go to the lab and test the combustion of calcium carbonate. Calcium carbonate is a white mineral. You burned calcium carbonate, CaCO3, to produce carbon dioxide, CO2, and a white powder, CaO.
a. By referring to the given, write down the chemical equation.
b. Compare the properties of the products and reactants in this reaction.
c. Use numbers of atoms to describe the amounts of calcium, carbon, and oxygen before and after the reaction.
d. Explain where the equation shows the conservation of matter.
e. Research another specific chemical reaction and create a poster to explain what happens during the reaction.
f. Design an experiment to test the reaction of two substances and record observations. Be specific about the substances and the observations.
Step-by-step Explanation:
a. [tex]CaCO_{3}[/tex] → [tex]CaO[/tex] + [tex]CO_{2}[/tex]
This is the balanced chemical equation for the combustion of Calcium carbonate.
b. Properties of [tex]CaCO_{3}[/tex] :
Odorless, white powderWater-insolubleCommon name - limestoneProperties of [tex]CaO[/tex] :
Amorphous white solidSoluble in water and glycerolCommon name - quicklimeIonic bond between Calcium and OxygenProperties of [tex]CO_{2}[/tex] :
One of the most popular greenhouse gasColorless, odorless, non-flammable gasWater-soluble - dissolves in water to form carbonic acidIt is 1.5 times heavier than airCooling of carbon dioxide liquid forms dry iceIt reacts with alkalis like NaOH to form carbonates which on further hydration gives bicarbonates.When passed through lime water, carbon dioxide turns limewater milky.c. According the above equation, number of atoms on both sides are equal.
Before reaction: Ca = 1, C = 1, O = 3
After reaction: Ca = 1, C = 1, O = 1 + 2 = 3
d. The law of conservation of matter states that the total mass and kind of elements in the reactants is equal to the total mass and kind of elements in the products. Thus matter cannot be created not destroyed, it can only be conserved. From the chemical equation, we get to know that the mass and number of atoms of all the elements is equal in the reactants and products. Thus we can prove the conservation of matter.
e. Combustion of Sodium Carbonate:
[tex]Na_{2} CO_{3}[/tex] → [tex]Na_{2}O + CO_{2}[/tex]
In this reaction, sodium carbonate undergoes combustion at temperature > 500°C and forms sodium oxide and carbon dioxide.
f. The following results are achieved when a chemical reaction occurs:
Change in stateChange in colorEvolution of a gasChange in temperatureWater and calcium oxide react quickly to form calcium hydroxide. A significant amount of heat is also released during this process, raising the system's temperature. This demonstrates that there was a chemical reaction.
Calcium carbonate breaks down into calcium oxide and carbon dioxide when heated. Here, the evolution of gas (carbon dioxide) proves that a chemical reaction has occurred.