510.17 centimetres cube is the volume of iron has a density of 7.86 gram per centimetres cube ( 1 centimetre cube = 1ml) and has a mass of 4.01 kg.
Density is the amount of mass of a substance present per volume of the cubic centimetre and it is the ratio of mass of a substance to the volume of the substance with a unit centimetre cube.
The iron has a density of 7.86 gram per centimetres cube and mass of 4.01 kg so,
mass in grams= [tex]\frac{4.01}{1000} = 0.0041g.\\Density= \frac{mass}{volume}[/tex]
Substituting the values in the equation, we get:-
volume= [tex]\frac{0.0041}{7.86} = 510.17 cm^{3} .[/tex]
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if you had a solution containing a mixture of magnesium nitrate, strontium nitrate, and barium nitrate, how could you separate the mixture?
The mixture could be separated by a process called fractional crystallization. This process takes advantage of the fact that each compound in the mixture has a different solubility.
What is crystallization?Crystallization is a process in which a solid or liquid is converted into solid crystals. During this process, the molecules of the material will arrange themselves in a regular, repeating pattern. This pattern is determined by the properties of the material, such as its molecular structure and chemical makeup. The solidification of a material into a crystal is a spontaneous process, meaning it can occur without any outside energy, such as heating or cooling. Crystallization is a very important process in industry, as it is used to create a variety of products, such as salts, sugars, and pharmaceuticals. In addition, crystallization is also used in scientific research, as it helps scientists understand the properties of a particular material.
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What is the mole concept and why is it important in chemistry?
Answer:
Avogadro's number
Explanation:
Answer:
The mole concept is a unit used in chemistry to express amounts of a substance. It is defined as the amount of a substance that contains Avogadro's number of particles. It is important in chemistry because it allows for accurate and consistent measurement of chemical reactions.
Explanation:
what should you do if you spill sulfuric acid on your hand?
Immediately rinse the affected area with copious amounts of water, then remove any contaminated clothing or jewelry and continue flushing the skin with water for at least 20 minutes. Seek medical attention right away, even if you don't feel any pain or visible skin damage.
Sulfuric acid is a highly corrosive substance that can cause severe burns and tissue damage. It reacts strongly with water, releasing heat and potentially producing hazardous fumes. The prompt and thorough removal of the acid from the skin is critical to minimize the extent of the injury and prevent further damage.
In case of eye exposure, flush the eye with water for at least 20 minutes, remove contact lenses if applicable, and seek medical attention. It is important to wear appropriate personal protective equipment when handling sulfuric acids, such as gloves, eye protection, and a lab coat, and to follow safe handling procedures to prevent accidents.
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What does the mother liquor contain?
The term "mother liquor" is typically used in the field of chemistry or chemical engineering to refer to the residual liquid that remains after a solid material has been crystallized from a solution. The mother liquor contains the dissolved salts, impurities, and other solutes that were not incorporated into the crystalline solid.
In some cases, the mother liquor can be further processed to concentrate the dissolved salts or to recover additional solid material through a process such as evaporation or crystallization. In other cases, the mother liquor may be discarded or treated as a waste product.The specific composition of the mother liquor depends on the starting solution, the conditions used during crystallization, and the properties of the solid material that was formed. The mother liquor can contain a range of different types of species, including salts, acids, bases, and organic compounds.
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Water is evaporated from a sample calcium chloride hydrate. The sample is found to contain
1.110 grams CaCl2 and 1.081 grams of water. What is the formula of the hydrate?
Answer:
To determine the formula of the hydrate, you need to calculate the ratio of water to the salt (CaCl2) in the hydrate. You can do this by dividing the mass of water by the mass of the salt and then determining the simplest whole number ratio that represents this value.
1.081 g H2O / 1.110 g CaCl2 = 0.970
Since the ratio is close to 1:1, we can assume that the formula of the hydrate is CaCl2 * H2O, with one mole of water for every mole of CaCl2. So the formula of the hydrate would be CaCl2.H2O.
Answer:
Explanation:
To determine the formula of a hydrate, we need to calculate the number of moles of calcium chloride and water in the sample, and then use the mole ratios to determine the empirical formula of the hydrate.
First, we'll calculate the number of moles of calcium chloride:
1.110 g CaCl2 / (110.98 g/mol) = 0.01 moles CaCl2
Next, we'll calculate the number of moles of water:
1.081 g H2O / (18.015 g/mol) = 0.06 moles H2O
Now that we have the number of moles of each component, we can determine the mole ratio of calcium chloride to water:
0.01 moles CaCl2 / 0.06 moles H2O = 1/6
This means that for every 6 moles of water, there is 1 mole of calcium chloride. Based on this information, the empirical formula of the hydrate can be written as CaCl2 · 6H2O.
Note that the empirical formula represents the simplest whole-number ratio of atoms in a compound and does not necessarily represent the true molecular formula, which may be a multiple of the empirical formula. To determine the true molecular formula, we would need additional information, such as the molecular weight of the compound.
several small molecules are important to biochemical systems. you have isolated one of these and to identify it you determine its molar mass. you release 0.37 g of the gas into a flask with a volume of 732 ml at 21 °c. the pressure in the flask is 209 torr. what is the unknown gas?
The molar mass of 34.26 g/mol is consistent with the molar mass of nitrogen gas (N2), which is 28.02 g/mol. Therefore, the unknown gas is likely nitrogen.
To identify the unknown gas, you need to determine its molar mass. The ideal gas law can be used to calculate the molar mass. The ideal gas law is given as:
PV = nRT
where P is the pressure, V is the volume, n is the number of moles, R is the gas constant, and T is the temperature in kelvin. To calculate the molar mass, we'll rearrange the ideal gas law to solve for n:
n = PV / RT
The gas constant R has a value of 0.0821 L-atm/mol-K. To convert the temperature to kelvin, add 273.15 to the temperature in °C. The pressure must be converted from torr to atm. One atm is equal to 760 torr, so:
P = 209 torr / 760 torr/atm
P = 0.2758 atm
The volume must also be converted from mL to L. 1 L = 1000 mL, so:
V = 732 mL / 1000 mL/L
V = 0.732 L
Now that we have all the required values, we can plug them into the ideal gas law equation to calculate the number of moles:
n = 0.2758 atm * 0.732 L / (0.0821 L-atm/mol-K * (21 + 273.15 K))
n = 0.0108 mol.
Since the mass of the gas is given as 0.37 g, we can calculate the molar mass as:
Molar mass = mass / moles
= 0.37 g / 0.0108 mol
= 34.26 g/mol
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what physical or chemical properties were the defining ones to identify the three unknowns? for example, was the odor the most obvious? the flammability?
Properties that describe how a substance changes into a completely different substance are called chemical properties, general properties of matter such as color, density, hardness, are examples of physical properties.
The general properties of matter such as color, density, hardness, are examples of physical properties. Properties that describe how a substance changes into a completely different substance are called chemical properties. Flammability and corrosion/oxidation resistance are examples of chemical properties.
Flammability is the ability of matter to burn. When matter burns, it combines with oxygen and changes to different substances.
Properties that help geologists identify a mineral in a rock are: color, hardness, luster, crystal forms, density, and cleavage. Crystal form, cleavage, and hardness are determined primarily by the crystal structure at the atomic level.
Flammability is a measure of how quickly a specific material is capable of catching fire and burning. It indicates the ease with which a material can ignite and the intensity with which it burns once it catches on fire.
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Given the ionic formula below, what is the charge on ion x? X2O
For an ionic compound, the charge of the cationic and anionic parts are written in the crisscross formula of the compound. Here, the charge of oxygen is -2 and that of X is + 1.
What are ionic compounds?Ionic compounds are formed between a metal and nonmetal by transferring one or more electrons from the metal to the non-metal. Thus, metal is having a positive charge (cation) and nonmetals gains a negative charge.
The charge of the cation is given as the subscript of anion and vice versa in the formula of the compound.
Here, the overall charge of the compound X₂O is zero. Charge of oxygen is -2. It gains two electrons to achieve octet. Let x be the charge of one X.
then, 2x + -2 = 0
2x = +2
x =+1.
Therefore, the charge of X in the compound X₂O is +1.
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+Brainliest With Correct Answer/Solution And Complete Solution.
A car starts from rest and moves at the speed of 30km/h after half an hour. What is the car's acceleration?
The car's acceleration is 0.0046 m/s². Acceleration is a physical quantity that describes the rate of change in velocity of an object over time.
Describe Acceleration?
It is a vector quantity, which means it has both magnitude and direction, and is measured in units of meters per second squared (m/s²).
When an object is accelerating, its velocity is changing, either by increasing or decreasing in speed or changing direction. The magnitude of the acceleration depends on the force applied to the object, which can come from a variety of sources such as gravity, friction, or electromagnetism.
The formula for acceleration is:
a = (v2 - v1) / t
where a is the acceleration, v2 is the final velocity, v1 is the initial velocity, and t is the time it takes to go from v1 to v2.
If an object is moving in a straight line with a constant acceleration, its velocity can be calculated by the following equation:
v = v0 + at
where v is the final velocity, v0 is the initial velocity, a is the acceleration, and t is the time.
Acceleration is a fundamental concept in physics and is used to describe the motion of objects in a wide variety of situations, including free-fall, projectile motion, circular motion, and the behavior of fluids. It is also essential in engineering and design, where it is used to calculate the performance and efficiency of machines and vehicles.
To solve the problem, we need to use the equation:
acceleration = (final velocity - initial velocity) / time
We are given that the car starts from rest, so the initial velocity, u = 0.
After half an hour, the car moves at a speed of 30 km/h. We need to convert this to m/s as follows:
30 km/h = (30 × 1000 m) / (60 × 60 s) = 8.33 m/s
The time taken, t = 0.5 h = 1800 s
Substituting the values into the equation, we get:
acceleration = (8.33 m/s - 0) / 1800 s
acceleration = 0.0046 m/s²
Therefore, the car's acceleration is 0.0046 m/s².
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if the rate of a reaction is four times as fast when the concentration of a reactant is doubled, what is the order of the reaction with respect to that reactant?
The order of reaction is 1/2 with respect to that reactant when the concentration of a reactant is doubled.
Rate of reaction =k[A] ⁿ where n is the order of reaction
=>r₁=k[A₁]ⁿ-----(eq1)
=>r₂=k[A₂]ⁿ-------(eq2)
Dividing eq2 with eq1
=>r₂/r₁=[A₂]ⁿ / [A₁]ⁿ
=>2/1 = [4/1]ⁿ
=>4ⁿ=2
=>n=1/2
The order of reaction is characterized as the power reliance of the rate on the centralization of every reactant.
When the rate law of a reaction is resolved a similar regulation can be utilized to totally figure out the creation of the response combination. At the end of the day, the reaction request is the type to which the convergence of the particular species is raised, and it shows to what level the centralization of the species influences the pace of reaction. It likewise demonstrates up to which degree the species makes an extensive difference. For instance, the pace of a first order of reaction is resolved simply by the convergence of one animal types in the reaction.
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elect The Appropriate Pipette To Use For Each Of The Following Volumes.- 874 mL, 57 ML, 340 mL, 15 mL a. P1000 -B. P200 C.P20 - -
For 874 mL you should use a P1000 pipette;For 57 mL, 340 mL you should use a P200 pipette;For 15 mL you should use a P20 pipette.
For 874 mL you should use a P1000 pipette. This is because the P1000 has a maximum volume capacity of 1000 mL, so it can easily accommodate the 874 mL volume.
For 57 mL you should use a P200 pipette. This is because the P200 has a maximum volume capacity of 200 mL, so it can easily accommodate the 57 mL volume.
For 340 mL you should use a P200 pipette. This is because the P200 has a maximum volume capacity of 200 mL, so it can easily accommodate the 340 mL volume.
For 15 mL you should use a P20 pipette. This is because the P20 has a maximum volume capacity of 20 mL, so it can easily accommodate the 15 mL volume.
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Write the physical properties of metal
Answer:
Five physical properties of metals are:
Metals are malleable and ductile.Metals are good conductors of heat and electricity.Metals are lustrous (shiny) and can be polished.Metals are solids at room temperature (except mercury, which is liquid).Metals are tough and strong.Explanation:
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The material gallium phosphides is a wide bandgap semiconductor. Option c is the correct answer.
In this case, the transition between the maximum of valence band to the minimum of the conductive band is not possible with only the absorption of photon with energy hν close to the bandgap W.
Gallium Phosphide (By Crystallization) is a wide bandgap semiconductor with a cubic crystal structure and an indirect bandgap structure with an indirect band gap of 2.24 eV at room temperature.
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--The complete question is, How would you classify the material gallium phosphide? (a) metal (b) ceramic (c) semiconductor--
What is the ground state electron configuration for chloride ion?
The chloride ion's ground state electron configuration is [Ne] 3s2 3p6.
An atom of chlorine that has lost one electron and now has a net charge of -1 is known as a chloride ion.
The chloride ion contains 16 electrons overall due to the loss of one electron from the chlorine atom, which has 17 protons in its nucleus.
The chloride ion's atomic structure resembles that of a chlorine atom, but one electron from the 3s orbital is missing.
The chloride ion now has an electron configuration of [Ne] 3s2 3p6, with the 3s orbital having two electrons and the 3p orbital having six.
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which features make H2O a polar molecule? select all that apply
-the molecule has a bent molecular shape
-the molecule has an uneven distribution of electron density
-the electrons are distributed unevenly within each bond of the molecule
-each H2O molecule has a different shape
-the molecule is electrically charged
The features that make H₂O a polar molecule are:
The molecule has a bent molecular shape.The molecule has an uneven distribution of electron densityThe electrons are distributed unevenly within each bond of the moleculeWhat is a polar covalent bond?It is a bond that occurs when the bonding atoms have a difference in electronegativity causing the generation of an area with higher electron density creating a positive pole and a negative pole.
The oxygen atom in water has a partial negative charge, while the hydrogen atoms have a partial positive charge. This results in an overall dipole moment, with the molecule having a slightly positive end and a slightly negative end.
H₂O is a polar molecule due to its bent molecular shape, an uneven distribution of electron density, and uneven electron distribution within each bond of the molecule. This results in an overall electrical charge for the molecule.
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All of the following pairs of ions are isoelectronic except which one?
A) Al³⁺ and N³⁻
B) Fe²⁺ and Co³⁺
C) Fe²⁺ and Mn³⁺
D) K+ and Ca²⁺
E) Zn²⁺ and Cu+
Except Fe²⁺ and Mn³⁺ remaining all pairs of ions are isoelectronic. These species are substances with the same arrangement of electrons (and therefore the same number of electrons).
When two ions or molecules share the same electronic structure and valence electron count, they are said to be isoelectronic. In Fe we see the total number of electrons are 26 electrons then Fe2+ loses two electrons after which it becomes 24 electrons while Mg has 12 electrons, the Mg3+ loses 3 electrons after which it contains 9 electrons. The electronic configuration of Fe2+ is [Ar] 3d6. The electronic configuration of Mg3+ is [Ne] 3s2. So, here we can observe they have different arrangement of electrons as to which they are not isoelectronic.
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2. Explain why the drop of water on the wax paper is "very round" in comparison to the drop on the glass is more flat use the term either hydrophobic or hydrophilic
The water droplet on wax paper is round and flat on a glass surface, this is because of the hydrophobic and hydrophilic properties of water.
The water drop on wax paper is very round in comparison to the one on a glass which is flatter, this indicates the property of cohesion of water molecules, this is due to gravity.
On the other hand, when the water droplet is on wax paper it is way rounder in shape and attracted to the wax paper called as adhesion.
Hydrophobic literally means "fear of water."
In chemistry, it could be said it's the physical property of molecules that are repelled from a mass of water. This is the case with wax paper where its can't get absorbed or fail to mix and rather tend to repel.
Hydrophile is basically opposite of hydrophobic which is the molecules attracted to water. A hydrophile is a molecule or other molecular entity that is attracted to water molecules and tends to be dissolved by water.
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Which units express specific heat capacity? J/(gi°C), J/(giK), cal/(gi°C), cal/(giK)
C is the specific heat capacity, q is the amount of heat required, m is the mass of the substance, and T is the change in temperature. Jkg1K1 is the unit of specific heat capacity as a result.
Joules per gram per degree (J/goC) or calories per gram per degree (cal/goC) are two different ways to measure specific heat.Specific heat is expressed in SI units of J/kg•K. (On occasion, you might also find specific heat given in J/g•K.) 903 J/kg•K is the specific heat of aluminum. As a result, to elevate 1 kg of aluminum by 1 K, 903 J are needed. Typically, joules or calories per gram per degree Celsius are used as the units of specific heat.As an illustration, the specific heat of water is 1 calorie (4.186 joules) per gram per degree Celsius.The formula q = mcT, where m is the sample's mass, c is its specific heat, and T is the temperature change, can be used to Identify the heat that a sample (q) gains or loses.
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The rate limiting step in a reaction is the slowest step in the reaction sequence. True False
The statement is true. The rate-limiting step in a reaction is the slowest step.
The rate-limiting step in a reaction is the slowest step in the reaction sequence and determines the overall rate of the reaction. This step is generally characterized by having the highest activation energy and is often the step with the lowest concentration of reactants. The rate-limiting step is often the rate-determining step, meaning that the rate of the reaction is dependent on this step. The rate-limiting step is also called the slow step or the rate-controlling step.
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a certain metal oxide has the formula mo. if a 39.46 g sample of mo is heated in an atmosphere of hydrogen to remove all of the oxygen as h2o, and 31.70 g of m is left over, which metal is m?
This atomic mass corresponds to the metal iron (Fe). Therefore, the metal in the MO compound is iron (Fe).
The given chemical formula of the metal oxide is MO, where M represents the metal cation. When the sample of MO is heated in an atmosphere of hydrogen, the oxygen from the metal oxide reacts with hydrogen to form water vapor. The balanced chemical equation for this reaction can be written as:
MO + H2 → H2O + M
Here, one mole of MO reacts with one mole of H2 to produce one mole of water vapor and one mole of metal M. Using the molar mass of MO, which is the sum of the atomic masses of M and O, we can calculate the number of moles of MO present in the given sample:
Molar mass of MO = atomic mass of M + atomic mass of O
= M + 16
Mass of MO = 39.46 g
Number of moles of MO = mass of MO / molar mass of MO
= 39.46 g / (M + 16)
Now, according to the problem, all the oxygen in MO is removed, leaving behind 31.70 g of M. From the balanced chemical equation, we know that the mass of M produced is equal to the initial mass of MO minus the mass of water vapor produced. The molar mass of water is 18 g/mol, so the number of moles of water produced is:
Number of moles of H2O = mass of H2O / molar mass of H2O
= mass of oxygen removed / 16
= (39.46 g - 31.70 g) / 18
= 0.43 mol
Therefore, the number of moles of M produced is also 0.43 mol. We can use this value and the number of moles of MO calculated earlier to write an equation that relates the atomic mass of M to the number of moles of M:
0.43 mol = 39.46 g / (M + 16)
Solving for M gives us:
M = 55.85 g/mol
This atomic mass corresponds to the metal iron (Fe). Therefore, the metal in the MO compound is iron (Fe).
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QuestionThe product formed in Aldol condensation is:Aan alpha, beta unsaturated esterBa beta-hydroxy acidCA beta-hydroxy aldehyde or a beta-hydroxy ketoneDan alpha-hydroxy aldehyde or ketoneMedium
Aldol condensation produces a beta-hydroxy aldehyde or a beta-hydroxy ketone (C). Aldol condensation is a process that occurs when two carbonyl compounds combine with each other in the presence of a base.
resulting in the creation of a -hydroxy aldehyde or ketone. An enolate ion (from one carbonyl molecule) is added to the carbonyl group of another carbonyl chemical in the process. Depending on the type of the carbonyl molecules utilized in the process, Aldol condensation produces a beta-hydroxy aldehyde or a beta-hydroxy ketone (C). Aldol condensation is a process that occurs when two carbonyl compounds combine with each other in the presence of a base. the result of the Aldol condensation reaction is either a -hydroxy aldehyde or a -hydroxy ketone.
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Chemical bonds hold together the atoms that make up a molecule. molecules may also be attached to one another by chemical bonds.
a. True
b. False
Answer:
False
Explanation:
When atoms join together to form molecules, they are held together by chemical bonds. These bonds form as a result of the sharing or exchange of electrons between the atoms. It is only the electrons in the outermost shell that ever get involved in bonding.
if a bullet makes an oval shaped hole as it moves through glass, it entered the glass how? a. straight on b. at an angle c. from the top d. from the bottom
The correct option is b. at an angle; If a bullet passes through glass and leaves an oval-shaped hole, it entered the glass at an angle.
Explain the formation of oval-shaped hole?An oval resembles the form, contour, or shape of an egg.
Take a moment to picture yourself grabbing your favourite ball as well as squeezing it in your hands. You would observe an oval-shaped object. The uneven curves and strange, semi-round egg form of the ball would prevent it from rolling or throwing as smoothly if you were to maintain that shape.Every shape contains characteristics, such as the flat shapes that can detect and outline on an object, such as edges, corners, and faces.For instance:
A square has a square face, four sides, and four corners.Four sides, four corners, and a rectangle's face make up a rectangle.Thus, If a bullet passes through glass and leaves an oval-shaped hole, it entered the glass at an angle.
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what enzyme uses the energy of a proton gradient to add a phosphate to adp?
The correct answer is ATP Synthase uses the energy of a proton gradient to add a phosphate to ADP.
The mitochondrial enzyme ATP synthase, which is found in the inner membrane, transforms ADP and phosphate into ATP. The stream of protons is driven by the movement of electrons from the chemically positive to the negative side of the proton, which creates a gradient.The electron transport chain involves the downhill flow of electrons to the final electron acceptor through a chain of membrane-bound carriers in order to aid the uphill transfer of protons across a proton-impermeable membrane. In order to move protons (ions) via ATP synthase Fo particles and down the concentration gradient, it creates a proton gradient. The proton-motive force, which drives protons to move, provides the energy for ADP phosphorylation (ions).
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how is a limiting reactant problem different from other stoichiometry problems? (what is your clue that it is a limiting reactant problem?)
A limiting reactant problem is a type of stoichiometry problem that involves determining which reactant in a chemical reaction will be completely consumed, and therefore limit the amount of product that can be formed.
The key clue that a problem is a limiting reactant problem is the presence of information about the amounts or masses of two or more reactants that are involved in a chemical reaction. In a limiting reactant problem, you are typically given the amounts of two or more reactants, and asked to determine the amount of product that can be formed.
To solve a limiting reactant problem, you must first determine the balanced chemical equation for the reaction, and then use stoichiometry to calculate the theoretical amount of product that can be formed from each reactant. The reactant that produces the smallest amount of product is the limiting reactant, because it will be completely consumed in the reaction, while the other reactant(s) will be left over.
The calculation of the limiting reactant and the amount of product produced from it is what sets a limiting reactant problem apart from other stoichiometry problems. In other types of stoichiometry problems, you may be given the amount of a single reactant or product, and asked to find the amount of another reactant or product using stoichiometry.
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someone help please and asap
Answer:
D) 1:2
Explanation:
would the separation schemes considered in sections 10.1, 10.3-10.5, 11.1, and 11.2 of mohrig work and why?
The separation schemes considered in sections 10.1, 10.3-10.5, 11.1, and 11.2 of mohrig work "Quantitative Chemical Analysis" (which is commonly known as "Mohrig" after one of its co-authors).
Assuming that is the case, these sections likely cover various methods for separating and isolating components in a mixture, including techniques like extraction, chromatography, and distillation. Whether or not these methods will work depends on a variety of factors, such as the chemical properties of the components in the mixture, the separation schemes outlined in Mohrig are based on well-established principles and techniques that have been used successfully in many different contexts. So while I cannot provide a definitive answer without more specific information, it is likely that many of the separation schemes described in these sections will be effective for separating and isolating components in a mixture, provided that they are used correctly and in the appropriate circumstances.
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Convert 2.55 moles of calcium chloride to grams. CaCl2
Answer:
282.999g
Explanation:
2.55moles times the molar mass of CaCl2
CaCl2= 40.08+35.45(2)=110.98
2.55 moles times 110.98g/1mol
=282.999g CaCl2
Consider the reaction:
2N2O (g) = 2N2 (g) + O2 (g)
A. Express the rate of the reaction with respect to each of the reactants and products.
B. In the first 15.0 s of the reaction, 0.015 mol of O2 is produced in a reaction vessel with a volume of 0.500 L. What is the average rate of the reaction over this time interval.
C. Predict the rate of change in the concentration of N2O over this time interval. In other words, what is [N2O]/t?
A. The rate of the reaction with respect to each of the reactants and products is given by:
Rate = -1/2 Δ[N2O]/Δt = 1/2 Δ[N2]/Δt = Δ[O2]/Δt
Note that the negative sign in the rate of change of N2O is due to the fact that the concentration of N2O is decreasing with time, while the positive signs for the other two rates indicate that the concentrations of N2 and O2 are increasing with time.
B. The average rate of the reaction over the first 15.0 s can be calculated by dividing the change in the concentration of O2 by the time interval:
Average rate of reaction = Δ[O2]/Δt = (0.015 mol)/(15.0 s) = 0.001 mol/s
Note that the reaction is given in terms of moles of O2 produced, so we can directly use the change in the concentration of O2 to calculate the rate.
C. The rate of change in the concentration of N2O over the first 15.0 s can be predicted using the rate expression:
Rate = -1/2 Δ[N2O]/Δt
We can rearrange this equation to solve for the rate of change in the concentration of N2O:
Δ[N2O]/Δt = -2 × Rate
Substituting the average rate of reaction calculated in part B, we get:
Δ[N2O]/Δt = -2 × 0.001 mol/s = -0.002 mol/s
This indicates that the concentration of N2O is decreasing at a rate of 0.002 mol/s over the first 15.0 s of the reaction.
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when measuring a melting point for a solid compound, why is it important to slow the rate of heating when approaching the melting point of a substance?
Answer:
Explanation:
It is important to add heat slowly and steadily because when a substance undergoes a phase change, it absorbs much energy until it heats its melting. So, the heat must be provided steadily. Slow heating helps to determine a more accurate melting point range.
625 grams of aluminum metal is reacted with 450. grams of iron (iii) oxide in the presence of heat. calculate the number of grams of all species present after the reaction.
There a number of grams of all species present after the reaction, there are 287.4 g of aluminum oxide, 315.4 g of iron, and 34.12 g of aluminum remaining.
Calculation of the number of grams of all species present after the reactionTo determine the products of the reaction, we need to write the balanced chemical equation:
2 Al + Fe2O3 → Al2O3 + 2 Fe
From the equation, we see that two moles of aluminum react with one mole of iron (III) oxide to produce one mole of aluminum oxide and two moles of iron.
To calculate the number of grams of each species present after the reaction, we need to determine the limiting reagent, which is the reactant that is completely consumed and limits the amount of product that can be formed.
The number of moles of each reactant can be calculated using their respective molar masses:
Moles of aluminum = 625 g / 26.98 g/mol = 23.16 mol
Moles of iron (III) oxide = 450 g / 159.69 g/mol = 2.82 mol
The stoichiometry of the balanced equation tells us that 2 moles of aluminum react with 1 mole of iron (III) oxide, so aluminum is in excess. Therefore, iron (III) oxide is the limiting reagent.
The amount of product formed can be calculated using the mole ratio from the balanced equation:
Moles of aluminum oxide produced = 2.82 mol Fe2O3 × (1 mol Al2O3 / 1 mol Fe2O3) = 2.82 mol Al2O3
Moles of iron produced = 2 × 2.82 mol Fe2O3 × (1 mol Fe / 1 mol Fe2O3) = 5.64 mol Fe
To calculate the mass of each species, we need to multiply the number of moles by their respective molar masses:
Mass of aluminum oxide produced = 2.82 mol Al2O3 × 101.96 g/mol = 287.4 g
Mass of iron produced = 5.64 mol Fe × 55.85 g/mol = 315.4 g
Mass of aluminum remaining = 625 g - (23.16 mol Al × 26.98 g/mol) = 34.12 g
Therefore, after the reaction, there are 287.4 g of aluminum oxide, 315.4 g of iron, and 34.12 g of aluminum remaining.
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