Based on the graph given, for a stream traveling at 30 cm speeds up at 100cm, the maximum particle diameter it can carry is 0.05 mm.
What is the relationship between particle size and stream velocity?The stream velocity required to carry a particle decreases as the particle size increases.
The Channel's Size and Shape Affect the Stream Velocity
Although the shape of the stream channel also affects water flow in a stream, the gradient of the stream is the main factor.
Discharge rises as a result of the increased cross-sectional area and velocity. The competency and capacity of the stream grow with discharge and velocity.
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when the ph of was measured, it was found to be 1.2. what are the values of and of chlorous acid? (b) the ph of a 0.10 m propylamine, , aqueous solution was measured as 11.86. what are the values of and of propylamine?
The pH of 0.10 m HClO2(aq) was measured, and it was determined to be 1.2, with chlorous acid concentrations of 0.1072 and 0.9695. A 0.10 m propylamine, C3H7NH2, the aqueous solution was tested.
the pH was found to be 11.86 with propylamine concentrations of 5.65 x 104 and 3.25.
In order to figure this out, we must put down the chemical equation describing the two processes in question.
a) A 0.10 M solution of HClO2 with a pH of 1.2
Let's get first with the pH the concentration of the H3O+ in equilibrium:
[H₃O⁺] = 10^(-pH)
[H₃O⁺] = 10^(-1.2) = 0.063 M
Now, let's write the equilibrium reaction for this acid:
HClO₂ + H₂O <-------> H₃O⁺ + ClO₂⁻
Now, an ICE chart for this reaction:
HClO₂ + H₂O <-------> H₃O⁺ + ClO₂⁻
I: 0.1 0 0
C: -x +x +x
E: 0.1-x x x
This allows us to create the following expression for Ka:
Ka = [H₃O⁺] [ClO₂⁻] / [HClO₂] = x² / 0.1 - x
calculate it above and it's 0.063 M, so, all we have to do is replace this value in the expression, and solve for Ka:
Ka = (0.063)² / 0.1 - 0.063
Ka = 0.1072
Then the pKa is:
pKa = -logKa
pKa = -log(0.1072)
pKa = 0.9695
With this, we use the same procedure for part b) but instead of using pH and H₃O⁺, we will use OH⁻ and pOH.
b) 0.1 M of a C₃H₇NH₂ solution with pH = 11.86
Like in part a) we calculate the concentration of [OH⁻] instead because this is a base so, to get that, we use pOH:
14 = pH + pOH
pOH = 14 - pH
pOH = 14 - 11.86 = 2.14
[OH⁻] = 10^(-pOH)
[OH⁻] = 10^(-2.14) =7.24x10⁻³ M
Now, we use an ICE chart again and do the same procedure as part a) so:
C₃H₇NH₂ + H₂O <-------> C₃H₇NH₃⁺ + OH⁻
I: 0.1 0 0
C: -x +x +x
E: 0.1-x x x
Kb = (7.24x10⁻³)² / (0.1 - 7.24x10⁻³)
Kb = 5.65x10⁻⁴
pKb = -log(5.65x10⁻⁴)
pKb = 3.25
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The required Ka and pKa of HClO2 are 0.1072 and 0.9695 while the values of Kb and pKb of propylamine are 5.65x10⁻⁴ and 3.25 respectively.
Given the pH of HClO2 = 1.2
The concentration of HClO2 = 0.1M
(a) We know that [H₃O⁺] = 10^(-pH) then,
[H₃O⁺] = 10^(-1.2) = 0.063 M
the equilibrium reaction for this acid be:
[tex]HClO2 + H2O < ------- > H3O+ + ClO2-[/tex]
The ICE chart for this equation is :
[tex]HClO2 + H2O < --- > H3O+ + ClO2-[/tex]
I: 0.1 0 0
C: -x +x +x
E: 0.1-x x x
Then, Ka = [H3O+] [ClO2-] / [HClO2] = x² / 0.1 - x = 0.63 * 0.63/1 - 0.63
Ka = 0.1072
Then, pKa = -logKa
pKa = -log(0.1072) = 0.9695
(b) concentration of propylamine = 0.1M
The pH of propylamine = 11.86
As [OH] is a base, we determine the concentration of [OH].
14 = pH + pOH
pOH = 14 - 11.86 = 2.14
[OH⁻] = 10^(-pOH) = 10^(-2.14) = 7.24x10⁻³ M
The ICE chart for this reaction be:
[tex]C3H7NH2 + H2O < --- > C3H7NH3+ + OH-[/tex]
I: 0.1 0 0
C: -x +x +x
E: 0.1-x x x
Kb = (7.24x10⁻³)² / (0.1 - 7.24x10⁻³) = 5.65x10⁻⁴
pKb = -log(5.65x10⁻⁴) = 3.25
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complete question: When the pH of 0.10M HClO2(aq) was measured, it was found to be 1.2. (a). What are the values of Ka and pKa of chlorous acid? (b). The pH of a 0.10M propylamine, C3H7NH2, aqueous solution was measured as 11.86. What are the values of Kb and pKb of propylamine?
The combustion of methane is shown in the
following equation: CH4 +202
CO₂ + 2H₂
According to the equation, if 65.5L of methane
undergoes combustion how many liters of
carbon dioxide gas will be produced if the
reaction is carried out at STP?
-D-0
The volume (in liters) of the carbon dioxide gas produced if the reaction is carried out at STP is 65.5 L
How do I determine the volume of carbon dioxide gas produced?We'll begin by examining the eqaution for the reaction to get useful information about the reaction. Details below:
CH₄ +2O₂ -> CO₂ + 2H₂
From the balanced equation above,
1 L of methane, CH₄ reacted to produce 1 L of carbon dioxide, CO₂
With the above information, we can obtain the volume of carbon dioxide, CO₂ produced when 65.5 L of methane, CH₄ reacts at STP. Details below:
1 L of methane, CH₄ reacted to produce 1 L of carbon dioxide, CO₂
Therefore
65.5 L of methane, CH₄ will also react to produce 65.5 L of carbon dioxide, CO₂
Thus, the volume of carbon dioxide, CO₂ produced is 65.5 L
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What quantity in moles of
precipitate will be formed when
70.0 mL of 0.150 M AgNO3 is
reacted with excess CaCl₂ in the
following chemical reaction?
2 AgNO3(aq) +CaCl₂(aq) → 2
AgCl(s) + Ca(NO3)2(aq)
Answer: 0.0105 mol AgCl
Explanation:
Step 1: To find moles AgNO₃, use 70.0 mL and 0.150 M and the definition of molarity. Convert 70.0 mL to L.
70.0 mL x (1 L/1000 mL) = 0.070 L
M = mol/L
0.150 = mol/0.070
0.150 x 0.070 = mol
0.0105 mol AgNO₃
Step 2: Use the balanced equation and the moles AgNO₃ from step 1 to determine moles precipitate (AgCl) when reacting with excess CaCl₂.
0.0105 mol AgNO₃ x (2 mol AgCl/2 mol AgNO₃) = 0.0105 mol AgCl
0.0105 mole of precipitate will be formed when 70.0 mL of 0.150 M AgNO[tex]_3[/tex] is reacted with excess CaCl₂ in the given chemical reaction.
What is mole?In chemistry, a mole, usually spelt mol, is a common scientific measurement unit for significant amounts of very small objects like atoms, molecules, or even other predetermined particles. The mole designates 6.02214076 1023 units, which is a very large number. Under the International Units of Measurement (SI), the mole is defined as this number as of May 20, 2019, according the General Meeting on Weights and Measurements.
The quantity of atoms discovered through experimentation to be present in 12 grammes of carbon-12 was originally used to define the mole. On honour of a Italian scientist Amedeo Avogadro, the amount of cells in a mole is also known as Avogadro's number or Avogadro's constant (1776–1856).
70.0 mL x (1 L/1000 mL) = 0.070 L
M = mol/L
0.150 = mol/0.070
0.150 x 0.070 = mol
0.0105 mol AgNO₃
0.0105 mol AgNO₃ x (2 mol AgCl/2 mol AgNO₃) = 0.0105 mol AgCl
Therefore, 0.0105 mole of precipitate will be formed when 70.0 mL of 0.150 M AgNO3 is reacted with excess CaCl₂ in the given chemical reaction.
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Write the balanced net ionic equation for the addition of aqueous sodium carbonate to a solution of aqueous iron(II) nitrate.
Balanced equation: Fe(NO₃)₂(aq) + Na₂CO₃(aq) ----> FeCO₃(s) + 2NaNO₃(aq) Ionic equation: Fe²⁺(aq) + 2NO₃⁻(aq) + 2Na⁺(aq) + CO₃²⁻(aq) ----> FeCO₃(s) + 2Na⁺(aq) + 2NO₃⁻(aq).
What are Balanced equation?An equation for a chemical reaction is said to be balanced if both the reactants and the products have the same number of atoms and total charge for each component of the reaction.
It is typical to balance chemical equations for both mass and charge in aqueous solutions. Equal numbers and types of atoms are produced on both sides of the equation when balancing for mass.
When the charge is balanced, there is no net charge on either side of the equation. Only the ions are depicted in the equation's state of matter (aq), which denotes that they are in water.
Therefore, Balanced equation: Fe(NO₃)₂(aq) + Na₂CO₃(aq) ----> FeCO₃(s) + 2NaNO₃(aq) Ionic equation: Fe²⁺(aq) + 2NO₃⁻(aq) + 2Na⁺(aq) + CO₃²⁻(aq) ----> FeCO₃(s) + 2Na⁺(aq) + 2NO₃⁻(aq).
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Explain the difference in Kinetic energy between the polar molecules at 100k to the non polar molecules at 100 k. Which group of molecules has the greater intermolecular forces between them
Answer using complete sentences
Answer:
Explanation:
The kinetic energy of molecules is related to their temperature, and at a given temperature, all molecules, polar or non-polar, have the same average kinetic energy. The difference between polar and non-polar molecules lies in their intermolecular forces. Polar molecules have dipoles (separation of charge) due to differences in electronegativity of the atoms within the molecule. These dipoles cause the polar molecules to have stronger intermolecular forces, such as dipole-dipole forces and hydrogen bonding, compared to non-polar molecules which only have weak van der Waals forces.
At 100 K, the kinetic energy of both polar and non-polar molecules is low. However, polar molecules are more likely to be attracted to each other due to their stronger intermolecular forces. This means that polar molecules may have lower kinetic energy compared to non-polar molecules at the same temperature, because they may be more likely to be held together by these forces.
In terms of which group of molecules has greater intermolecular forces, it would be the polar molecules due to the presence of dipoles and the resulting stronger intermolecular forces. However, it's important to note that intermolecular forces can vary greatly within each group of molecules, depending on the specific molecule and its structure.
iron has a bcc crystal structure, an atomic radius of 0.124 nm, and an atomic weight of 55.85 g/mol. compute and compare its theoretical density with the experimental value found in table (7.87 g/cm3)
To calculate the theoretical density of iron with its given parameters, you can use the formula:
density = (2 atoms/unit cell)(atomic weight)/[(4π/3)(radius)³].
Using the given values of 2 atoms/unit cell, an atomic weight of 55.85 g/mol , and a radius of 0.124 nm, we can calculate the theoretical density of iron to be 7.86 g/cm3, which is very close to the experimental value of 7.87 g/cm3.
This equation can be used to calculate the theoretical density of any substance, provided the number of atoms/unit cell, atomic weight, and radius are known. Additionally, the equation can be used to compare the theoretical density of a substance to its experimental density in order to assess the accuracy of the theoretical model.
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how is the rate of reaction related to the rate of consumption of a reactant and its stoichiometric coefficient? provide your answer using a grammatically correct sentence.
The rate of reaction is directly proportional to the rate of consumption of a reactant and its stoichiometric coefficient.
The rate of reaction refers to the change in the concentration of a reactant or product over time, and it is directly proportional to the stoichiometric coefficient of the reactant. For example, if a reactant has a stoichiometric coefficient of 2 in a reaction, it will be consumed twice as fast as a reactant with a coefficient of 1. The rate of reaction can be determined by measuring the change in concentration of the reactant over time and using the stoichiometry of the reaction to calculate the rate. This relationship is crucial in understanding how reactions proceed and how to control their speed by manipulating the concentration of reactants and products.
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How much is done when 7n of force is use to push a stalled motorbike
A push or pull on a body produces acceleration and it is called the force. Its SI unit is Newton. Here the work done when 7n of force is use to push a stalled motorbike is 35 J.
What is work done?The amount of energy that is transferred by the applied force in moving an object is defined as the work done. The product of magnitude of the force applied and the distance moved by the object in the direction of the force is the formula of work done.
W = F × d
Here F = Force, d = distance moved in meter (m).
The SI unit of the work done is joule (J).
The given force is 7N and the distance moved by the object is 5m. Then the work done is:
W = 7 × 5 = 35 J
Thus the amount of work done is 35 J.
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Your question is incomplete but most probably your full question was,
How much work is done when 7 N of force is used to push a stalled motorbike 5 m?
when a hydrocarbon burns, water is produced as well as carbon dioxide. the density of gasoline is . assume gasoline to be represented by octane, c8h18, for which the combustion reaction is . calculate the mass of water produced from the combustion of 1.0 gallon (3.8 l) of gasoline
The balanced chemical equation for the combustion of octane (C8H18) is: C8H18 + 12.5O2 → 8CO2 + 9H2O
To calculate the mass of water produced, we first need to determine the amount of octane present in 1 gallon (3.8 L) of gasoline. The density of gasoline is around 0.7 g/mL, so 1 gallon (3.8 L) of gasoline would have a mass of approximately: 3.8 L * 0.7 g/mL = 2.66 kg = 2660 g
From the balanced chemical equation, we see that for every mole of octane burned, 9 moles of water are produced. To convert the mass of octane to the number of moles, we can use the molar mass of octane, which is approximately 114 g/mol: 2660 g / 114 g/mol = 23.4 mol
Therefore, the amount of water produced from the combustion of 1 gallon of gasoline would be: 23.4 mol * 9 moles H2O/1 mole C8H18 * 18 g H2O/mole = 3,741 g or 3.7 kg
So, approximately 3.7 kg of water would be produced from the combustion of 1 gallon (3.8 L) of gasoline.
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how much of the water (in ml m l ) contains 165 mg m g of pb p b ? (assume a density of 1.0 g/ml g / m l .)
The Volume of water contains 165 mg of pb is 0.165ml
The amount of matter in a particle or object is represented by the dimensionless quantity mass (symbolised m). The kilogramme (kg) is the accepted unit of mass in the International System (SI).
We can use the following formula to determine how much water has 165 mg of lead in it:
Volume times Density = Mass
Since we are aware of the density of water (1.0 g/ml) and the amount of
lead (165 mg), we can modify the formula to determine the volume:
Mass x Density = Volume
Unit conversion to SI units:
165 mg is equal to 0.165 g
We can now determine the volume:
volume is equal to 0.165 g / 1.0 g/ml (0.165 ml).
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How does the product of an alpha decay compare with the original nuclide?
A.
The product's mass number is the same as that of the original nuclide.
B.
The product's atomic number is two less than that of the original nuclide.
C.
The product's mass number is two more than that of the original nuclide.
D.
The product's atomic number is the same as that of the original nuclide.
When compared to the initial nuclide, the alpha decay product: The answer is B. The atomic number of the product is two less than the atomic number of the original nuclide.
What is Alpha Decay?
A nuclear process known as "alpha decay" causes the parent nucleus to emit an alpha particle. The alpha particle is made up of two neutrons and two protons. There is a radioactive decay process known as "alpha decay" in which an atomic nucleus produces an alpha particle and radioactively decays into a separate atomic nucleus with a mass number reduced by four and an atomic number reduced by two.
Alpha decay reduces atomic mass by 4 and atomic number by 2.
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when a hydroxyl group and a hydrogen atom are removed from biomolecules, water is produced and a new chemical bond is formed. what type of reaction has occurred?
Hydrocarbon chain to which hydrogens have been added. A dehydration reaction type of reaction has occurred.
A chemical reaction is a method that leads to the chemical transformation of 1 set of chemical materials to any other. Classically, chemical reactions embody changes that handiest involve the positions of electrons in the forming and breaking of chemical bonds among atoms, with no alternative to the nuclei (no alternate to the factors gift), and can often be defined by a chemical equation. Nuclear chemistry is a sub-area of chemistry that entails the chemical reactions of risky and radioactive factors where each electronic and nuclear modification can occur.
The substance (or materials) to start with concern in a chemical response are referred to as reactants or reagents. Chemical reactions are normally characterized by a chemical exchange, and they yield one or greater merchandise, which normally have houses special from the reactants. Reactions regularly consist of a series of personal sub-steps, the so-known as primary reactions, and the facts on the precise direction of movement are part of the reaction mechanism.
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quizzlet consider a component made of joined copper and iron pieces that will be exposed to salt water conditions as pictured here (top image labels what is what). which placement(s) of a plastic coating (a, b, c, or d below) could be used to prevent galvanic corrosion?
The placement of a plastic coating (a, b, c, or d below) that could be used to prevent galvanic corrosion would depend on the type of plastic coating being used and the specifics of the joined copper and iron pieces that are exposed to salt water conditions.
Generally, a plastic coating should be applied to prevent any direct contact between the copper and iron pieces. Placement “a” and “b” could both be used, as they would create a barrier between the two pieces, while placement “c” and “d” would not be as effective because there would still be direct contact between the two pieces.
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lithium belongs to the group of the periodic table. question 7 options: a) alkaline earth metal b) alkali metal c) noble gas d) halogen
Lithium belongs to the group of the periodic table, specifically Group 1. Group 1 elements are commonly referred to as the "alkali metals".
Lithium is a chemical element with the symbol Li and atomic number 3. It is a soft, silvery-white metal and is the lightest of all metals. Lithium belongs to the Group 1 of the periodic table, which is commonly referred to as the "alkali metals". Alkali metals are characterized by their low reactivity and high reactivity with water. They are also highly reactive with halogens and form ionic compounds, such as lithium chloride, with non-metals. Lithium is an important element in the production of batteries, ceramics, and pharmaceuticals. In addition, it is used as a treatment for bipolar disorder and other mental health conditions. Lithium is found in nature in minerals such as spodumene, lepidolite, and petalite, and it is also present in seawater.
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A pH strip was used to test the pH of a glass of water. The image shows the results.
Use the scale below to determine the pH value of the water, and determine whether the water is acidic, alkaline, or
neutral. Then predict what will happen to the pH if someone were to place a straw into the water and blow.
The pH strip is used to test the pH of a solution. The pH of water is neutral which is around 7.
What is pH?The pH is known as the power of hydrogen. The pH is used to measure the degree of basicity and acidity of a solution. The amount of hydrogen ion concentration in a solution determines the pH of the solution. Mathematically, pH is given by the formula:
pH -= -log [H⁺]
The pH strip is a strip of litmus paper with which a person can measure the pH value of a liquid solution. The substance in the pH paper causes the paper to show a different color at different acidity values. The official pH scale is between the pH values of 0 to 14, where 0 is very acidic and 14 very alkaline and 7 is neutral pH.
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Answer:
The pH value of the water is 7. And I don't exactly know what would happen if you put a straw into it and blew into it, but if I had to make a guess then I would guess that the pH value would go down because the water is moving around.
the hydrogen bonds among water molecules endow water with which property?
The hydrogen bonds among water molecules endow water with the property of high surface tension.
What is surface tension?Surface tension is a property of the surface layer of a liquid that causes it to behave as if it has a thin, elastic skin. The hydrogen bonds between water molecules are relatively strong and result in the surface layer of water molecules having a higher cohesive force than the underlying liquid. This high cohesive force gives water its high surface tension, which allows it to form droplets, resist spreading out, and retain its shape.
In addition to high surface tension, the hydrogen bonds among water molecules also contribute to several other important properties of water, including its high boiling point, high heat of vaporization, and high heat capacity.
These properties make water an important solvent for many biological and chemical processes and help regulate temperature in living organisms.
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consider the reaction: 3h2 n2 --> 2nh3. if a mixture of 3.0 mole of h2 and 3.0 mole n2 is taken, how many moles of excess reactant remain unused?
There are 2 moles of excess reactant remain unused.
The given reaction: -
3H2(g) + N2 -----> 2NH3(g)
3 mole 1 mole 2 mole
Here in the given reaction we see that 3 mole of H2 reacts with 1 mole of N2 to produced 2 mole of NH3.
The mixture contain 3.0 mole of H2 and 3.0 mole of N2,
So, 1.0 mole of N2 can react with 3.0 mole of H2.
So (3.0 - 1.0) = 2.0 moles of N2 remain unused.
2.00 mole of N2 reactant remain unused.
Reactants are the substances that are involved in a chemical reaction and undergo changes to produce new substances, known as products. In a chemical reaction, the reactants are the starting materials that are combined to form the end products. These reactants are characterized by their molecular formula and chemical properties, which determine the type of reaction that will occur.
The amount of reactants used in a reaction is an important factor in determining the amount of product produced. In some reactions, only a small amount of reactant is needed to produce the desired product, while in others, large amounts of reactants are required. The type of reactants used in a reaction also determines the rate at which the reaction will proceed and the amount of energy required to initiate the reaction.
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Explain why there would be no reaction between Potassium Chloride and Zinc
Zinc and potassium chloride wouldn't react with each other. There is no reaction because potassium has a higher degree of reactivity than zinc.
Potassium cannot be removed from a compound by zinc. Since zinc is replacing potassium, it must have a greater activity level. It is, however, lower, therefore there is no interaction between these two molecules.
When potassium hydroxide and zinc metal combine, potassium zincate is created as well as hydrogen gas.
Nitric acid being a potent oxidizing agent prevents zinc from reacting with it. It reduces itself to an oxide while oxidizing the hydrogen gas produced by the interaction of zinc with nitric acid to make water.
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There would be no reaction between Potassium Chloride and Zinc as zinc is less reactive than potassium.
What is zinc?Zinc has the chemical symbol Zn and the atomic number 30. At room temperature, zinc is a somewhat brittle metal with a shiny-greyish look when oxidation is eliminated. It is the first element in periodic table group 12 (IIB).
Zinc is the twenty-fourth most prevalent metal in the Earth's crust, with five stable isotopes. Sphalerite (zinc blende), the zinc sulfide mineral, is the most common zinc ore. There would be no reaction between Potassium Chloride and Zinc as zinc is less reactive than potassium.
Therefore, there would be no reaction between Potassium Chloride and Zinc as zinc is less reactive than potassium.
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in one process, 135 g of al are reacted with 601 g of fe2o3. calculate the mass (in grams) of al2o3 formed, and determine the amount of excess reagent left at the end of the reaction.
135 g of al are reacted with 601 g of fe2o3. 254.9 grams of al2o3 formed, and there is 202.5 g of excess Fe2O3 left at the end of the reaction.
The balanced chemical equation(Fe2O3) is:
2Al + Fe2O3 → Al2O3 + 2Fe
moles of Al = 135 g / 26.98 g/mol = 5.00 mol
moles of Fe2O3 = 601 g / 159.69 g/mol = 3.77 mol
The mass of Al2O3 produced can be calculated as follows:
moles of Al2O3 = moles of Al / 2 (from balanced equation)
moles of Al2O3 = 5.00 mol / 2 = 2.50 mol
mass of Al2O3 = moles of Al2O3 x molar mass of Al2O3
mass of Al2O3 = 2.50 mol x 101.96 g/mol = 254.9 g
Therefore, 254.9 g of Al2O3 is formed in the reaction.
mass of excess Fe2O3 = moles of excess Fe2O3 x molar mass of Fe2O3
mass of excess Fe2O3 = 1.27 mol x 159.69 g/mol = 202.5 g
Therefore, there is 202.5 g of excess Fe2O3 left at the end of the reaction.
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bond energy what makes a reaction endothermic or exothermic why? chemical reaction can be. alot like playing with legos
Exothermic, where less heat is released than it is taken and in exothermic more heat is released in making bonds.
Exothermic reactions in solution give out energy and the temperature increases, while endothermic reactions take in energy and the temperature decreases. Bonds are broken and made in reactions.
Breaking and making bonds can be described as follows-
exothermic - if more heat energy is released in forming bonds in the products than is taken in when breaking bonds in the reactants. Bond energy is less.
endothermic - if less heat energy is released in forming bonds in the products than is taken in when breaking bonds in the reactants. Bond energy is more.
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cetic acid (hc2h3o2) is the active ingredient in vinegar. calculate the mass percent composition of oxygen in acetic acid.
Acetic acid (hc2h3o2) is the active ingredient in vinegar. 26.67 grams mass percent composition of oxygen in acetic acid.
Acetic acid, also known as HC2H3O2, is composed of two hydrogen atoms, two carbon atoms, and two oxygen atoms. To calculate the mass percent composition of oxygen in acetic acid, we must first find the molar mass of acetic acid. The molar mass of acetic acid is 60.052 g/mol. The molar mass of oxygen is 16.00 g/mol. Therefore, the mass percent composition of oxygen in acetic acid is 26.67%. This means that for every 100 grams of acetic acid, there are approximately 26.67 grams of oxygen atoms. the pressure of a gas is equal to the number of moles of the gas multiplied by its temperature and the universal gas constant, divided by the volume of the container.
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how many grams of ca(oh)2 are contained in 100 ml of 0.50 m ca(oh)2 solution? the molar mass of ca(oh)2
The molecular mass Ca(OH)2 = 40.078 g/mol
Grams of Ca(OH)2 = 275.935 g
Ca(OH)2 is calcium hydroxide, a compound composed of calcium, oxygen, and hydrogen atoms. The chemical formula for calcium hydroxide is Ca(OH)2, and the equation for its formation is: CaO + H2O → Ca(OH)2
Ca(OH)2 -> Ca2+ + 2OH-
The equation represents the dissociation of calcium hydroxide, Ca(OH)2, in water to form calcium ions (Ca2+) and hydroxide ions (OH-) in solution.
Molarity (M) = [tex]\frac{moles of solute}{liter of solution}[/tex]
Moles of Ca(OH)2 = Molarity x Volume x Molecular Weight
Moles of Ca(OH)2 = [tex]0.50 M * 0.100 L * 74.10 g/mol[/tex]
Moles of Ca(OH)2 = [tex]3.705 moles[/tex]
Grams of Ca(OH)2 = Moles of Ca(OH)2 x Molecular Weight
Grams of Ca(OH)2 = [tex]3.705 moles * 74.10 g/mol[/tex]
Grams of Ca(OH)2 = [tex]275.935 g[/tex]
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Calculate the specific heat capacity for a 32.3-g sample of titanium that absorbs 392 j when its temperature increases from 42.1 °c to 65.3 °c.
The specific heat for the given sample will be 0.522 J/g°C
Q= mcΔT,
here Q is the heat energy absorbed,
m is the mass of the sample,
ΔT is the change in temperature.
Q= m*c*ΔT,
Q= m*c*(T2-T1)
since we have to find the specific heat capacity therefore,
c= Q*(T2-T1)/m
putting values,
c= 392/(65.3-42.1)*32.3
c= 392/23.2*32.3
c= 392/749.36
c=0.522 J/g°C
The specific heat capacity is the amount of heat absorbed by a unit mass of a material when it's temperature is increased by 1°C.
The S.I unit for Specific heat capacity is Joule per kelvin per kilogram.
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PLS HELP I WILL GIVE BRAINLISTED AND I GIVE YOU SO MUCH STUFF FI NEED IT PLS
Photosynthesis removes CO2 and animal activities, burning fossil fuels and burning wood add CO2.
Why is CO2 needed?
The main greenhouse gas that helps keep our atmosphere warm is carbon dioxide. Without them, our earth would be uninhabitable. However, the rise in average global temperature due to rising levels of CO2 in our atmosphere is affecting other aspects of Earth's climate. Carbon dioxide is required for the internal respiration of the human body. Internal respiration is the process of removing carbon dioxide and delivering oxygen to body tissues.
The pH value of the blood is protected by the vital carbon dioxide. Therefore, only plants excrete CO2.
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the half-life of radium-226 is 1590 years. if a sample contains 500 mg, how many mg will remain after 1000 years?
The remaining amount after 1000 years is 323.33 mg.
What is radioactivity decay?
An atom's nuclei exhibit radioactivity as a result of nuclear instability. Henry Becquerel made this discovery in 1896. The process of radioactivity is when an unstable atom's nucleus releases radiation to lose energy. In a drawer containing photographic plates, a small quantity of uranium compound was placed after being wrapped in black paper. When these plates were later examined, the findings showed that an exposure had occurred. The phrase "radioactive decay" is used to describe this occurrence. Radioactive elements are those elements or isotopes that emit radiation and undergo radioactivity.
The formula of half-life is
[tex]t_{\frac{1}{2}[/tex] = ln 2/λ
Given that the half-life of radium-226 is 1590 years.
λ = ln 2/ 1590
The formula of radioactivity decay is
N = N₀e^(-λt)
N = final amount
N₀ = initial amount
t = time
Given that
The initial amount is N₀ = 500 mg, λ = ln 2/ 1590, and t = 1000 years
N = 500 e^(- (ln 2/ 1590) ×1000)
N = 323.327737322
N = 323.33
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PLEASEE HELP IM DESPERATE
You'll have 20.5 g of hydrochloric acid (HCl) left, which is the answer to your query.
The least amount of hydrochloric acid that can be produced?Data
HCl = 31.4 g
NaOH = 12 g
insufficient HCl =?
equilibrium in a chemical reaction
NaCl and H2O are produced from HCl and NaOH.
HCl's molar mass is equal to 1 + 35.5 = 36.5 g.
NaOH's molar mass is 40 g (23 + 16 + 1)
Figure out the limiting reactant.
Theoretical yield: 36.5/40 = 0.9125 for HCl/NaOH.
Research yield: HCl/NaOH = 31.4/12 = 2.62
Conclusion
Because of the increasing experimental yield, NaOH is the limiting reactant.
The excess reactant's mass should be determined.
35. 5 g of HCl ———————— NaOH weight 40 g
x ———————— NaOH in 12 g
x = (12 x 36.5) / 40
x = 438 / 40
x = 10.95 grams of HCl
Surplus HCl = 31.4 - 10.95
= 20.5 g
You'll have 20.5 g of HCl left, which is the answer to your query.
The complete question is,
To create aqueous sodium chloride and liquid water, aqueous hydrochloric acid must be combined with solid sodium hydroxide. Consider combining 12.g of sodium hydroxide with 31.4g of hydrochloric acid. Determine the smallest amount of hydrochloric acid that could possibly remain after the reaction. The quantity of significant digits in your response must be accurate.
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the molecules of which phase have the greatest intermolecular forces, compared to their kinetic energies? responses solid solid plasma plasma liquid liquid gas
The phase with the greatest intermolecular forces compared to their kinetic energies is the solid phase.
In a solid, the particles are packed closely together and are held in fixed positions by strong intermolecular forces such as covalent bonds or hydrogen bonds. These strong forces keep the particles from moving freely, giving the solid its characteristic rigidity and resistance to change of shape. The kinetic energy of the particles in a solid is much lower than in a liquid or gas, where the particles are more free to move and are not held in fixed positions. This difference in intermolecular forces and kinetic energy gives solids their unique physical properties and makes them behave differently than liquids or gases.
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Coriolis Effect and Atmospheric Circulation for AP Environmental Science Student Guide
Discussion Questions
1. How does the rotation of the earth affect global
air circulation? Examine this simplified diagram of
the earth's major wind belts, and explain how the
Coriolis effect influences the direction of the polar
easterlies, the westerlies, and the trade winds.
As the Earth rotates, the circulating air is deflected. Instead of flowing straight, air deflects to the right in the Northern Hemisphere and to the left in the Southern Hemisphere, creating curved paths.
What does Coriolis effect influence?Hurricanes, for example, spin counterclockwise in the Northern Hemisphere and clockwise in the Southern Hemisphere due to the Coriolis effect. The Coriolis effect deflects air from all directions as it flows toward the low-pressure area at the center of a storm.
Winds flowing from the equator to the North Pole and from the North Pole to the equator are deflected to the right by Coriolis Force, while winds flowing north-south and south-north in the southern hemisphere are deflected to the left.
Thus, The Coriolis effect refers to this deflection.
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when 2.00g of magnesium combines with oxygen, the resulting mass of magnesium oxide is 3.32g. what was the mass of oxygen that combined with the magnesium?
1.32 g of oxygen combined with 2.00 g of magnesium to form 3.32 g of magnesium oxide.
What is a balanced equation?
A chemical equation is said to be balanced when each element has an equal number of atoms on both the reactant and product sides of the equation. In other words, the equation depicts a chemical reaction in which the total number of atoms present prior to the reaction is equal to the total number present following the reaction.
The law of conservation of mass is upheld when the equation is balanced, and the reaction that is occurring is correctly depicted.
You must find the difference between the total mass of the reactants and the mass of the product in order to calculate the mass of oxygen that combined with magnesium. The chemical equation for the reaction of magnesium and oxygen is as follows:
O2 + 2Mg = 2MgO
Therefore, the mass of magnesium oxide (MgO) produced by the reaction of 2.00 g of magnesium (Mg) and a small amount of oxygen (O) can be expressed as follows:
x g O + 2.00 g Mg = 3.32 g MgO
where x represents the oxygen's mass. You can calculate x by deducting the mass of magnesium from the product's overall mass:
We get 1.32 g from x = 3.32 g - 2.00 g.
Therefore, 1.32 g of oxygen and 2.00 g of magnesium were combined.
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For each of the following descriptions of reactions below:
Write a balanced chemical equation
Write a balanced complete ionic equation
Circle the spectator ions in the complete ionic equation
Write a balanced net ionic equation
Draw a square around the precipitate in the net ionic equation
If no reaction takes place, then only include the balanced chemical equation and write "no reaction" instead of the other four parts.
A) Aqueous solutions of lithium bromide and silver nitrate are mixed.
B) Aqueous solutions of ammonium iodide and lead (II) nitrate are mixed.
C) Aqueous solutions of ammonium sulfide and potassium hydroxide are mixed
Do this in another file or on a piece of paper and upload that file or picture to this question. You need to upload as a pdf, jpeg, png, or heic. There is a blue "Attach A File" button at the bottom of this question.
The balanced chemical reaction between lithium bromide and silver nitrate is written as follows:
[tex]\rm LiBr (aq) + AgNO_{3} (aq) \rightarrow LiNO_{3} (aq) + AgBr (s)[/tex]
Here, the spectator ions are Li+ and NO₃-. Hence, the net ionic equation is: [tex]\rm Ag^{+} (aq) + Br^{-}(aq) \rightarrow AgBr (s)[/tex]
What is balanced equation of reactions ?The balanced equation of a reaction shows the perfect stoichiometry of reactants and products. The number of each elements in the reactants must be equal to their number in the product side.
Net ionic equation of a reaction is written in terms of the ions which are giving the solid product. Remaining ions are called spectator ions.
The remaining reactions can be completed as following :
[tex]\rm NH_{4}I (aq) + Pb(NO_{3}) _{2}(aq) \rightarrow NH_{4} NO_{3} (aq) + PbI_{2} (s)[/tex]
Here, the spectator ions are NH4+ and NO₃-.
Then, net ionic equation is:
[tex]\rm Pb^{2+} (aq)+ I^{-} (aq) \rightarrow PbI_{2} (s)[/tex]
The third reaction can be written as follows:
[tex]\rm (NH_{4})_{2}S + KOH \rightarrow NH_{4}OH + K_{2}S[/tex]
Here, the solid product is potassium sulphide. The net ionic reaction is written as follows:
[tex]\rm K^{+} (aq) + S^{2-} (aq) \rightarrow K_{2} S(s)[/tex]
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