Answer:
Explanation:
The concentration of the salt solution in the beaker is 0.50 M.
if a 5.0 liter sample if a liquid weighs 3400 grams what is the density of the liquid in units of gram/ml
If 5.0 liter sample if a liquid weighs 3400 grams. The density of the liquid in units of gram/ml will be 680.
Density is termed as the substance of a mass per unit volume. It is denoted by ρ. It is defined as mass will be divided by volume. ρ= m / v.
ρ is the density, whereas, V is the volume, and m is the mass.
Based on the given conditions, formulate 5 × x = 3400
Divide both the sides of the equation by the coefficient of a variable: x = 3400 / 5
Cross out the common factor x = 680
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(a) Sketch the molecular orbitals of the H2 - ion and draw its energy-level diagram. (b) Write the electron configuration of the ion in terms of its MOs. (c) Calculate the bond order in H2 -. (d) Suppose that the ion is excited by light, so that an electron moves from a lower-energy to a higher-energy molecular orbital. Would you expect the excited-state H2 - ion to be stable
(a) Sketch the H 2 - ion's molecular orbitals and create an energy-level diagram for it. Indicate the ion's electron configuration using its MOs.
(b) The image below shows how two electrons will be positioned in a bonding molecular orbital. As a result, the electron configuration of the molecular orbitals will be 1 s 2, 1 s 1, and 1 s 2 sigma 1s*1.
(c) Bond order for H2 is 1/2 (2-0) = 1, indicating that there is only one bond in H2. The orbital for antibonding is void. H2 is a stable molecule as a result.
(d) Assume that an electron in the ion transfers from a lower-energy to a higher-energy molecular orbital as a result of the ion being activated by light.
What is molecular orbital theory explain?According to the molecular orbital hypothesis, every atom has a tendency to group together to create molecular orbitals. As a result of this configuration, electrons can be found in a variety of atomic orbitals and are frequently linked to diverse nuclei. Similar to how the energy states of atomic orbitals are filled, the electrons of molecules fill the new energy states of molecular orbitals.
What is the purpose of molecular orbitals?A molecular orbital, which is used in chemistry, is a mathematical function that describes the position and wave-like activity of an electron in a molecule. Calculations involving chemical and physical characteristics, such as the likelihood of discovering an electron in a certain area, can be made using this function.
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What type of connecting force is permanent until the molecules go through a chemical reaction?
Answer: B intermolecular force
Explanation:
The answer to this question is Intermolecular force, since particles are connected to each other with a respective force prior to chemical reaction and this respective force is categorized on the basis of the nature of the particle all these forces are majorly considered an intermolecular force.
inter means between, molecular means molecules, resulting in binding force between molecules.
there are several different types of intermolecular forces :
Dispersion,
Dipole-Dipole,
Hydrogen Bonding
Ion-Dipole.
several types of intramolecular forces are:
Ionic bond( formed between ions)
Covalent bond (formed between carbon atoms)
metallic bond( formed between metallic atoms)
Answer: C. intarmolecular
Explanation:
which of these statements are true for a neutral, aqueous solution at 25 °c?
[H+] = [OH-]
pH = 7.00
pOH = 7.00
The statement which holds true for a neutral, aqueous solution at 25 °C are cane be written as:
The pH = 7.00
where, [ H + ] = [ OH − ]
And pOH = 7.00
The statement which is/are true for a neutral, aqueous solution regardless of temperature is;
[ H + ] = [ OH − ]
We must know that at standard temperature, 25°C, a neutral, aqueous solution has it's pH = pOH = 7. Additionally, the hydrogen ion concentration, [H+] is equal to its hydroxide ion concentration, [OH-]
The pH is slightly affected if there is any change in temperature as it decreases with increase in temperature.
In a neutral aqueous solution, there are always the same concentration of hydrogen ions,[H+] and hydroxide ions, [OH-] and hence, the solution is still neutral (even if its pH changes).
To summarize, the pH of a solution will decreases with increase in temperature and vice versa.
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What mass of H2O is produced by the combustion of 2.00 mol of CH4?
CH4 + 2O2 → CO2 + 2H2O
Answer:
The mass of water produced by the combustion of methane is 33.7 grams.
the pressure of a gas is increased from 100 mmhg to 120 mmhg. what effect will this change have on the temperature of the gas?
The pressure of a gas is increased from 100 mmhg to 120 mmhg. The temperature of the gas is also increases.
What is pressure ?The term pressure is defined as an expression of force exerted on a surface per unit area. It is represented by the symbol "P".
The molecules of a gas receive more energy when heated, causing them to move more quickly. This results in increased pressure and more impacts on the container's walls. On the other hand, cooling the molecules will cause them to slow down and reduce pressure.
Pressure and temperature are directly related to each other, so if the pressure increased, the temperature is also increase.
Thus, The pressure of a gas is increased from 100 mmhg to 120 mmhg. The temperature of the gas is also increases.
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Titration for Acetic Acid in Vinegar-Lab Report Exercise 1: Determining the Concentration of Acetic Acid Data Table 1. NaOH Titration Volume Initial NaOH Volume (mL) 8.59 9.20 9.20 Final NaOH Volume Trial 1 Trial 2 Trial 3 (mL) 0.20 1.00 2.01 Total volume of NaOH used (mL) 8.39 8.20 7.19 Average Volume of NaOH Used (mL): 7.93 Data Table 2. Concentration of CH3COOH in Vinegar Average volume of NaOH Concentration CH3COOH % CH3C00H in vinegar used (mL) in vinegar (mol/L) 7.93 0.793 4.76% If the manufacturer of the vinegar used in the experiment stated that the vinegar contained 5.0% acetic acid, what would the percent error between your result and the manufacturer's statement be? Show your calculations. . Given Average volume of NaOH7.93mL Volume of acetic acid 5.0mL Conceptual Plan M1V1 M2V2 M1 M2V2/V1 Percent error((accepted value - experimental value)/accepted value) x 100 Solve 0.5M x 7.93mL 5.0mL 0.793M. . CH3COOH 0.793M Moles of acetic acid (1000mLx5 g/100mL) x 1mol /60.05g 0.833mol Molarity 0.833mol1L 0.833M Percent error-(0.833 M-0.793 M ) / 0.833 M) x 100-4.80 % Percent error = 4.80 %
The mass of acetic acid found to be 0.675g and percentage acetic acid in vinegar is 9.64%
Why are titrations performed?Titration is used to determine the equivalence point, or the point at which chemically equivalent amounts of the reactants have been incorporated. The quantity of reactants that have been mixed at the equivalence point will depend on the stoichiometry of the reaction.
In question which percentage of acetic acid in vinegar is asked it should be
M₁V₁ (acetic acid)= M₂ V₂ (NaOH)
M₁ = 1.5M ×7.5 mL = 11.25mmol
Mass of acetic acid = (11.25×60)/1000= 0.675 g
% acetic acid in vinegar = (0.675×100)/7= 9.64
Furthermore, the addition of phenolphthalein to the base will cause the color change at the end point to be undone.
Rest of answers appear to be accurate.
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3 Cu 8HNO3 --> 3 Cu(NO3)2 2 NO 4 H2O In the above equation how many moles of water can be made when 158.4 grams of HNO3 are consumed?
The generated grammes of water are requested by the stated statement and are discovered to be 1427.17 g.
What are an equation and a reaction?A new substance is produced as a result of a chemical reaction in which bonds between the units of the reactant and product are broke and new groups are attached. Simply said, a stoichiometry is a mathematics statement that describes how reactants produce products. The five basic categories of chemical reactions are combination, hydro, mono, quintuple, and combustion.
[tex]158.4 \mathrm{~mol} \mathrm{HNO} \mathrm{NO}_3 * \frac{4 \mathrm{molH}_2 \mathrm{O}}{8 \mathrm{molHNO}_3} * \frac{18.02 \mathrm{gH}_2 \mathrm{O}}{1 \mathrm{molH}_2 \mathrm{O}}[/tex]
where 18.02 is just the molar water content and 4:8 is the water-to-nitric acid molecule ratio. Thus, the following is the result:
1427.17 g of H2O
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what is the ph and poh of a solution made by adding water to 15g of hcl until the final solution was 2500 ml
The pH and pOH of the solution made by adding water to 15g of HCl until the final solution was 2500 mL are 3.79 and 10.21, respectively.
What is final solution?The final solution is a term used in chemistry to refer to the last step in a sequence of reactions or processes. The final solution is the one that yields the desired product or result.
The pH and pOH of a solution made by adding water to 15g of HCl until the final solution was 2500 ml can be calculated using the following equation:
pH = -log [HCl]
Where [HCl] is the molarity of the HCl solution.
To calculate the molarity of the HCl solution, we need to know the number of moles of HCl in the solution. We can calculate this by using the following equation:
Number of moles = (mass of HCl) / (molar mass of HCl)
Using this equation, we can calculate the number of moles of HCl in the solution:
Number of moles = (15 g) / (36.46 g/mol) = 0.41 mol
Now, we can calculate the molarity of the HCl solution using the following equation:
Molarity = (Number of moles) / (Volume of solution)
Using this equation, we can calculate the molarity of the HCl solution:
Molarity = (0.41 mol) / (2500 mL) = 0.00164 M
Now, we can use this molarity to calculate the pH of the solution using the following equation:
pH = -log [HCl] = -log (0.00164 M) = 3.79
The pOH of the solution can be calculated using the following equation:
pOH = 14 - pH = 14 - 3.79 = 10.21
Therefore, the pH and pOH of the solution made by adding water to 15g of HCl until the final solution was 2500 mL are 3.79 and 10.21, respectively.
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select the best statement. multiple choice chemical changes provide the only valid basis for identification of a substance. chemical changes are easily reversed by altering the temperature of the system. chemical changes always produce substances different from the starting materials. chemical changes are associated primarily with extensive properties. chemical changes are accompanied by changes in the total mass of the substances involved.
The best statement is chemical changes are easily reversed by altering the temperature of the system and chemical changes are associated primarily with extensive properties.
Extensive properties: what are they?The amount of materials in a sample can affect a property known as an extensive property. Examples of extensive attributes include mass and volume. A material's intense properties are those that are solely dependent on the type of sampled material and not on its quantity.
When would the system's temperature start to drop?Temperature is an indicator of the system's atoms' or molecules' typical kinetic energy. The system's temperature drops due to adiabatic expansion. The temperature stays the same during an isothermal process. An adiabatic compression raises the system's temperature.
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which statement best describes the movement of carbon dioxide into or out of a plant during photosythensis
During photosynthesis, plants take in carbon dioxide (CO2) and water (H2O) from the air and soil.
What is the movement of carbon dioxide into or out of a plant during photosynthesis?Once the carbon dioxide takes up the plant, the process starts with the help of sunlight and water. During this procedure, the plant combines carbon dioxide with water to let the plant extract what it needs for food.
So which statement best explain the movement of carbon dioxide and oxygen during photosynthesis so uh carbon dioxide literally moves into a plant, whereas oxygen will move out and we know this is very major for us because we release carbon dioxide, and then plants release oxygen.
So we can conclude that Carbon dioxide and oxygen cannot pass through the cuticle, but proceed in and out of leaves through an aperture called stomata.
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how many moles of o are in 1 mole of al(no3)3?
a. 3 mol b. 9 mol c. 12 mol d. 1 mol e. 6 mol
In total, there are nine oxygen atoms in every one aluminum nitrate. Since one mole of aluminum nitrate contains nine moles of oxygen, the answer will be nine when discussing mole units.
How many O atoms make up an Al no2 3 compound?
Each unit of aluminum nitrate's chemical formula comprises three nitrate ions, as can be seen by looking at the compound's chemical formula. Additionally, three oxygen atoms make up each nitrate ion. This indicates that there are nine oxygen atoms in one formula unit of aluminum nitrate.
How many oxygen atoms are there in al2o3?
Aluminum oxide has three oxygen atoms because its structure is made up of two aluminum atoms bound to two oxygen atoms each.
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For each complex, determine the number of d electrons in the metal ion.
A. [Fe(CN)6]3%u2013
B. [Fe(CN)6]4%u2013
C. [Co(NH3)6]2
D. [CoF6]3%u2013
E. [Mn(H2O)6]2
The number of d electrons in the metal ion in each complex:
a) 5 b) 6 c) 7 d) 6 e) 5
What is d electrons?The electron arrangement of the valence electrons of a transition metal center in a coordination complex is described by the chemical term "d electron count." Understanding the shape and reactivity of transition metal complexes can be done well by counting the number of d electrons.
What exactly are d orbital electrons?Because one opposite spin proton aligns gluons with three spin-aligned protons, the electron is pushed out four times during rotation, giving the d orbital its clover form.
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where does the equivalence point occur on a titration curve for a strong acid/strong base titration?
When a strong acid and a strong base are titrated, the curve starts off acidic and then turns basic after reaching the equivalence point, which happens at pH = 7.
When a solution is titrated, the pH is represented graphically by a titration curve. During a titration between a strong acid and strong base, the equivalence point occurs when the moles of acid and base are the same and the pH is 7. The point at which chemically equivalent amounts of reactants have been combined is known as the equivalence point, also known as the stoichiometric point, in a chemical process. The equivalence point for an acid-base reaction is the point at which, in accordance with the chemical reaction, equal amounts of acid and base would neutralize one another.
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1. I. CH₂=CH-CH₂
II, CH₂-C
CH₂
III.
CH₂
1Ct₂
Which of the following orders is correct for the stability of these radicals?
a) I > II > III
c) I > III > II
b) III >II>I
d) III >1>II
Answer:
Option A: I > II > III.
Explanation:
The stability of radicals depends on the number of bonds and electrons they have. In general, radicals with more bonds and electrons are more stable than those with fewer bonds and electrons.
In this case, the correct order of stability of the radicals is option (a) I > II > III.
I. CH₂-C• is the most stable radical because it has the most number of bonds and electrons, it has 4 sigma bonds and 4 pi electrons.
II. CH₂• is less stable than I because it has 3 sigma bonds and 2 pi electrons.
III. CH• is the least stable of the three radicals because it has only 2 sigma bonds and 1 pi electron.
Option III >II>I, or III >1>II, is not correct because it doesn't match with the stability order of the given radicals.
given the bright-line spectra of three elements and the spectrum of a mixture formed from at least two of these elements: which elements are present in this mixture?
By analyzing the spectra of the three elements and the spectrum of the mixture, it should be possible to identify which elements are present in the mixture.
What is mixture?Mixture is a combination of two or more substances that are mixed together but not chemically combined. This means that the individual components remain separate, and can be separated from each other. Mixtures can be found in nature and in everyday life; they can be solid, liquid, or gas.
In most cases, the spectral lines of each element will be distinct and recognizable, allowing for a clear identification of which elements are present in the mixture.
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300.0 ml of a 0.425 m solution of nai is diluted to 700.0 ml. what is the new concentration of the solution?
After solving the equation: the new concentration of the solution is 0.301 M.
What is concentration?Concentration is the act of focusing one's attention on a particular task or activity. It is a vital skill for achieving success in any endeavor, as it allows an individual to stay focused on the task at hand and block out distractions. Concentration can be improved with practice and determination, as well as through certain strategies, such as breaking up large tasks into smaller, more manageable ones, and setting realistic goals. Additionally, creating a conducive environment for concentration, such as minimizing or eliminating distractions, can help improve focus.
The new concentration of the solution can be calculated using the formula:
C1V1 = C2V2
Where C1 is the original concentration, V1 is the original volume, C2 is the new concentration, and V2 is the new volume
In this case, C1 = 0.425 M, V1 = 300.0 mL, and V2 = 700.0 mL.
Plugging these values into the equation, we get:
0.425 M x 300.0 mL = C2 x 700.0 mL
Solving for C2, we get:
C2 = 0.301 M
Therefore, the new concentration of the solution is 0.301 M.
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what is the assumption of idea gas? question 4 options: a) perfect collision between all molecules and container walls b) negligible molecular interaction c) negligible volume occupies by the melecules d) all of the above are correct
There are four guiding presumptions for a fuel to be "ideal": The gas particles' volume is minuscule. There are no intermolecular forces (attraction and repulsion) between the equal-sized gas particles and other gas particles. According to Newton's Laws of Motion, the gas particles travel at random.
What exactly is an ideal gas?An ideal gas is one with both the quantity of such molecules and the forces between them are so negligibly small as to not affect the behavior of such gas.
Describe ideal gas versus actual gas.Ideal gas is a fictitious gas that, under all temperature and pressure conditions, complies with the Ideal Gas Law. Real gases are any gases that exist in the natural world. Only in conditions of extremely high temperatures and low pressure do real gases adhere to the Ideal Gas Law. Therefore, ideal gas isn't a true gas.
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Which of the following occurs during the Calvin cycle?
(A) carbon fixation
(B) reduction of NADP
(C) release of oxygen
(D) generation of Co2
Carbon fixation is the first step in the Calvin cycle so option - A is correct answer.
Is CO₂ fixation a part of the Calvin cycle?It makes use of the ATP and NADPH generated by the light reaction of photosynthesis. The Calvin cycle's first step, carbon fixation, sees CO₂ fixed to a stable organic intermediate through the carboxylation of RUBP.
The Calvin cycle is a series of reactions that take place in the chloroplast stoma of a plant cell. With the help of ATP and NADPH, the chemical reactions change carbon dioxide into glucose. These reactions take place in a chloroplast's stoma, which is its interior cavity or fluid-filled area.
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The amount of carbon 14 present after t years is given by the exponential equation A(t)=A0ekt, with k=− ln2/5600. Using carbon 14 dating of charcoal found along with fossilized leaf fragments, botanists arrived at an age of 48,000 years for a plant. What percent of the original carbon 14 in the charcoal was present?
The exponential formula (A/Ao) x 100 ≈ 2.63 x 10-3 x 100 ≈ 0.263 gives the quantity of carbon 14 that was present after t years, meaning that 0.263 % of the original was still there.
What is a carbon's purpose?Metals are melted using coke made from coal and charcoal, two forms of impure carbon. Inside the steel and iron sectors, it is particularly crucial. Pencil leads, electric motor brushes, and furnace linings all include graphite. For filtration and purification, activated charcoal is employed.
Are people harmed by carbon?This information on health risks is predicated on exposures with carbon black, and elemental carbon. Chronic inhalation of carbon black can harm the heart and lungs, either permanently or temporarily.
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A5 M solution of 100 mL of glucose contains how many grams of glucose, molecular mass = 180 Daltons? 1.0 90 360 6.02 x 10^23 180
A 1.0 M solution of 100 mL of glucose contains 180 grams of glucose.
What is glucose?Glucose is a simple sugar molecule and the most important carbohydrate in human metabolism. It is a monosaccharide, meaning it has a single sugar unit, and is found in a variety of plant and animal sources.
The molecular mass of glucose is 180 Daltons. To calculate the amount of glucose in the M solution of 100 mL of glucose, we need to multiply the molecular mass of glucose (180 Daltons) by the molarity of the solution (1.0 M):180 Daltons x 1.0 M = 180 grams of glucose.
Therefore, a 1.0 M solution of 100 mL of glucose contains 180 grams of glucose.
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0.50 moles of gas take up 10.5 L
of space under constant pressure
and temperature conditions.
What volume is required to hold
2.0 moles of the gas?
Answer:
The volume required to hold 2 moles of the gas is 42 L
Explanation:
By setting up mole and volume ratio:
moles : volume
0.50 : 10.5
2.0 : X
thus X would be equal to:
(2.0 x 10.5)/0.50
= 21/0.50
= 42 L
Answer: 42
Explanation:
For a theoretical yield of 5.3 g and actual yield of 4.00551 g, calculate the percent yield for a chemical reaction.
Select all that apply
To calculate the percent yield for a chemical reaction, you need to know the theoretical yield and the actual yield of the product.
The percent yield is calculated using the following formula:
% yield = (actual yield / theoretical yield) x 100
In this case, the theoretical yield is 5.3 g and the actual yield is 4.00551 g.
So, the percent yield is:
% yield = (4.00551 g / 5.3 g) x 100 = 75.59 %
Therefore, the percent yield for the chemical reaction is 75.59%.
It's important to note that percent yield is a measure of the efficiency of a chemical reaction, it is the ratio of the actual yield of product to the theoretical yield, multiplied by 100. The theoretical yield is calculated from the stoichiometry of the balanced equation for the reaction, and the actual yield is the amount of product obtained in the laboratory. A yield of 100% indicates that all the reactant has been converted to product, while a yield less than 100% means that some of the reactant has been lost or wasted, and a yield greater than 100% is not possible in real chemistry.
how much solid sodium hydroxide is needed to neutralize the 500.0 ml of 3.0 m acid in problem 1 (answer must include balanced chemical equation)? what is the concentration of sodium ions in the solution after neutralization?
2.64 g of NaOH is needed to neutralize the acid. A further neutralizing procedure. 65 mL of 0.00100 must be dissolved how much 0.9 M Naoh solution?
How do you make liters of 2Naoh Solution?Explanation: To make 500 mL of a 1.75 M NaOH solution, make sure per ml of the solutions contains 2.00 mol of NaOH. Therefore, a 1 L of a 2.00 solution of NaOH has 2.00(23.0 + can utilize + 1.0) g of NaOH. In addition, a 500 mL solution of a 2Naoh Solution contains 80.02 grams of NaOH and 40.0 grams of Hcl.
How can I make a 1 M NaOH solution in 100 ml?As a result, we would be required to dissolve 1ml of 1.75 M sodium hydroxide with 100 mL of water.
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A molecular compound has the empirical formula XY3. Which of the following is a possible molecular formula? a. X2Y3
b. X2Y6
c. XY4
d. X2Y5
An empirical formula is the simplest ratio of atoms in a chemical compound, it gives the lowest whole number ratio of atoms in a compound. A molecular formula is the actual number of atoms of each element in a molecule.
In this case, the empirical formula XY3 gives the ratio of atoms in the compound, but not the actual number of atoms. The molecular formula of the compound can be a multiple of the empirical formula.
A possible molecular formula for the compound with the empirical formula XY3 is:
b. X2Y6: This is a possible molecular formula for the compound, as it is a multiple of the empirical formula, and it matches the ratio of atoms in the compound.
This is because, in order to obtain the molecular formula, you need to know the molecular weight or the molar mass, which can be obtained by isotopic analysis or other methods, once you have the molecular weight, you can calculate the number of atoms of each element in the compound.
Which properties of an element are determined by valence electrons?
Select all correct answers.
electricity conduction
magnetism
atomic mass
O reactivity
The valence electrons play a major role in determining the chemical characteristics of the elements. Due to their shared valence shell electron arrangement, the elements in a group have comparable chemical characteristics.
Why are there electrons in an atom?The negatively charged atom's electrons are responsible for this. An atom's total negative charge, which is produced by all of its electrons, counteracts the positive charge of the protons in the atomic nucleus. In comparison to all the other atom's constituents, electrons are quite tiny.
Why is it that our bodies require electrons?To carry electrical currents, our cells have been specially designed. We cannot move or think without the help of electricity, which the nervous system needs to deliver impulses to the brain and throughout the body.
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Answer:
Explanation:
The correct answerers are Magnetism, Reactivity, and Electricity conduction.
7. The percent by mass of chlorine in C2H5Cl is A) 51.94% B) 53.94% C) 64.94% D) 54.94%
The percent by mass of chlorine in C2H5Cl is D) 54.94%.
In C2H5Cl, The molecular weight of C2H5Cl is (12.01 + (2*1.01) + 35.45) = 64.47 g/mol
The weight of chlorine in the compound is 35.45 g/mol.
The mass percent of chlorine in the compound can be calculated by (mass of chlorine/total mass) x 100%.
Therefore, (35.45/64.47) x 100% = 54.94%
So, The percent by mass of chlorine in C2H5Cl is 54.94%.
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Part AI2(s)+OCl−(aq)→IO−3(aq)+Cl−(aq) (acidic solution)Express your answer as a chemical equation. Identify all of the phases in your answer.Part Boxidizing agent, reducing agentExpress your answers as chemical expressions separated by a comma.Part CAs2O3(s)+NO−3(aq)→H3AsO4(aq)+N2O3(aq) (acidic solution)Express your answer as a chemical equation. Identify all of the phases in your answer.Part Doxidizing agent, reducing agentExpress your answers as chemical expressions separated by a comma.
Part A: Perchlorate acts as an oxidizing agent, and chlorine acts as a reducing agent.
Part B: Nitrate ion acts as an oxidizing agent while arsenic oxide acts as a reducing agent.
What is the reaction?A redox reaction, as the name suggests, is a type of reaction in which oxidation and reduction take place simultaneously. In this instance, as has been demonstrated, we are being asked to balance the reaction equations.
The shown balanced reaction equations for part A are as follows:
I₂(s) + 5OCl⁻(aq) +H₂O(l) → 2IO⁻3(aq) + 5Cl⁻(aq) + 2H⁺(aq)
In response to part B reaction, we have:
As₂O₃(s)+ 2NO₃⁻(aq) + 2H₂O(l) + 2H⁺(aq) → 2H₃AsO₄(aq) + N₂O₃(aq)
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Question Match the element with the correct number of valence electrons. Put responses in the correct input to answer the question. Select a response, navigate to the desired input and insert the response. Responses can be selected and inserted using the space bar, enter key, left mouse button or touchpad. Responses can also be moved by dragging with a mouse. aluminum magnesium fluorine arsenic 12345678
The valence electrons are;
aluminum - 3
magnesium - 2
fluorine - 7
arsenic - 5
What is the valence electrons?We have to note that when we talk about the valence electrons we mean the electrons that we can be able to find at the outermost shell of the atom. In the case of the atoms that we have here. We would have to look at the shell where the electrons can be found.
In this case, we can see that have the following elements that we need to determine the valence electrons; aluminum magnesium fluorine arsenic. This can be done when we look at the groups that they belong to in the periodic table.
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Which type of molecule is more likely to quickly pass through a cellular membrane viasimple diffusion, polar or nonpolar? Why? (You may need to use information from yourtextbook and class discussions to answer this question
Non-polar molecules carry no charge and are more likely to cross cell membranes by simple diffusion.
In biology, simple diffusion can be described as the process by which molecules move from high to low concentrations along a concentration gradient.
Nonpolar molecules have no charge and are not ionized. Therefore, since the cell membrane is polar, it is difficult for polar molecules to cross the cell membrane by simple diffusion. Small non-polar molecules can easily cross cell membranes by diffusion.
The molecules most likely to cross cell membranes are small molecules, whether polar or non-polar. Molecules such as oxygen and carbon dioxide (nonpolar molecules) easily cross cell membranes, as does water, which is a polar molecule.
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