Guys can someone tell me what I did wrong that I didn't get the right answer?

In the Q ask for coefficient of water
in the final balanced equation
The answer is (8) .
But I got (4) !
​

Based on your options, the pair of solvents that would make a good extraction system is water and diethyl ether.

This is because they are immiscible, meaning they do not mix and form two separate layers. This property is essential for an efficient extraction process, as it allows for the separation of different compounds based on their solubility in each solvent. The pair of solvents that would make good extraction systems depend on the specific properties of the substances being extracted.

However, some commonly used extraction systems are diethyl ether and dichloromethane, acetone and diethyl ether, and water and ethanol. Water and dichloromethane may also be a good extraction system depending on the solubility of the substances involved. Water and diethyl ether is another possible pair, but the immiscibility of these two solvents may make the extraction more difficult to perform.

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Bronsted-Lowry acid is a compound that donates a proton.

In the Bronsted-Lowry theory, proton transport between chemical species is used to characterise acid-base interactions.

This theory is also known as the proton theory of acids and bases, which states that any compound that can transfer a proton to another compound is an acid, and the compound that accepts the proton is a base.

Because it makes up the nucleus of a hydrogen atom, a proton is a nuclear particle with a unit positive electrical charge; it is denoted by the symbol H+.

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The condition of the ideal gas law is that the gas molecules must move in a random fashion.

The condition of the ideal gas law is that the gas molecules must move in a random fashion. This means that the molecules move in a chaotic manner with no set pattern or direction, constantly colliding with each other and the walls of their container.

This assumption is based on the kinetic theory of gases, which assumes that gases are made up of small particles (molecules or atoms) that are in constant motion.

The ideal gas law is a mathematical relationship between the pressure, volume, temperature, and number of particles of a gas. It is based on several assumptions, including that the gas molecules are in constant motion, that they occupy no volume, and that they do not interact with each other except through elastic collisions.

Therefore, if the gas molecules do not move in a random fashion, this assumption would not hold, and the ideal gas law would not accurately describe the behavior of the gas.

The other options, such as the gas molecules interacting with each other or adhering to the container wall, are not conditions of the ideal gas law, but rather factors that can affect the behavior of real gases under certain conditions.

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The strongest acid among the given options is A) HIO4 (per-iodic acid).

This is due to its highest oxidation state and greatest electronegativity, which allow it to donate a proton more readily, making it a stronger acid.

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The rate law expression pertains to the rate of the reaction as a function of the reactant concentrations, whereas the equilibrium constant expression deals with the concentrations of products and reactants at equilibrium.

The relationship between the quantity of reactants and products present at equilibrium in a reversible chemical process at a specific temperature is expressed by an equilibrium constant, which is a number.

The equilibrium constant expression and the rate law expression are not the same and serve different purposes in chemical reactions.

The equilibrium constant expression (Kc or Keq) is used to describe the relative amounts of reactants and products at equilibrium for a given chemical reaction. The expression is derived from the law of mass action and is defined as the ratio of the concentration of products to the concentration of reactants, with each concentration term raised to the power of its coefficient in the balanced chemical equation. The equilibrium constant expression is a constant value for a particular reaction at a given temperature and pressure.

On the other hand, the rate law expression describes the rate of a chemical reaction as a function of the concentration of the reactants. The rate law expression is derived experimentally and is determined by measuring the initial rate of the reaction under different conditions (e.g., different concentrations of reactants or different temperatures). The rate law expression typically includes a rate constant (k) and the concentration of each reactant raised to some power (which may or may not be the same as the coefficients in the balanced chemical equation).

In summary, the equilibrium constant expression and the rate law expression are different expressions used to describe different aspects of a chemical reaction. The equilibrium constant expression relates to the concentrations of products and reactants at equilibrium, while the rate law expression relates to the rate of the reaction as a function of the concentrations of the reactants.

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The rate law expression pertains to the rate of the reaction as a function of the reactant concentrations, whereas the equilibrium constant expression deals with the concentrations of products and reactants at equilibrium.

The relationship between the quantity of reactants and products present at equilibrium in a reversible chemical process at a specific temperature is expressed by an equilibrium constant, which is a number.

The equilibrium constant expression and the rate law expression are not the same and serve different purposes in chemical reactions.

The equilibrium constant expression (Kc or Keq) is used to describe the relative amounts of reactants and products at equilibrium for a given chemical reaction. The expression is derived from the law of mass action and is defined as the ratio of the concentration of products to the concentration of reactants, with each concentration term raised to the power of its coefficient in the balanced chemical equation. The equilibrium constant expression is a constant value for a particular reaction at a given temperature and pressure.

On the other hand, the rate law expression describes the rate of a chemical reaction as a function of the concentration of the reactants. The rate law expression is derived experimentally and is determined by measuring the initial rate of the reaction under different conditions (e.g., different concentrations of reactants or different temperatures). The rate law expression typically includes a rate constant (k) and the concentration of each reactant raised to some power (which may or may not be the same as the coefficients in the balanced chemical equation).

In summary, the equilibrium constant expression and the rate law expression are different expressions used to describe different aspects of a chemical reaction. The equilibrium constant expression relates to the concentrations of products and reactants at equilibrium, while the rate law expression relates to the rate of the reaction as a function of the concentrations of the reactants.

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Answer:Dissociate, Ionize

Explanation:

An ionic compound will dissociate in aqueous solution, breaking apart into its component ions. This process is called ionization, and it occurs because water molecules surround and interact with the ions, separating them from each other and allowing them to move freely in solution.

Acids and molecular bases will ionize in water, producing ions even though they are molecular compounds. When an acid dissolves in water, it donates a hydrogen ion (H+) to the water molecule, forming a hydronium ion (H3O+). Similarly, when a molecular base dissolves in water, it accepts a hydrogen ion from the water molecule, forming a hydroxide ion (OH-). These ions then move freely in solution and can participate in chemical reactions.

Answer:

Physiological adaptations are how the animal's body functions on the inside. This includes changes in the cells, chemicals, and processes inside an animal's body. Behavioral adaptations are how an animal acts. This includes actions like hibernating and communicating.

Explanation:

mark branliest

The sum of coefficients, when an equation is balanced using the lowest, whole numbered coefficients, is called the balanced equation.

When balancing a chemical equation, the coefficients in front of the reactants and products are adjusted to ensure that the same number of each type of atom appears on both sides of the equation. The coefficients must be whole numbers, and the lowest possible set of coefficients should be used. The sum of these coefficients gives us the balanced equation, which represents the chemical reaction that is taking place. The sum of the coefficients is important because it tells us how many molecules of each substance are involved in the reaction.

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The three factors that cause ring strain are angle strain, torsional strain, and steric strain. These factors contribute to the overall instability and higher potential energy of strained ring systems.

The three factors that cause ring strain are:

1. Angle strain: Angle strain occurs when the bond angles in a ring deviate from the ideal bond angles. This leads to a higher potential energy in the ring system, causing strain. For example, in cyclopropane, the bond angle is 60° instead of the ideal tetrahedral angle of 109.5°, leading to significant angle strain.

2. Torsional strain: Torsional strain is the resistance to rotation about single bonds in a ring system. When the atoms in the ring are eclipsed, there is an increase in steric hindrance, leading to higher energy and strain in the ring. This can be observed in cyclohexane, where the chair conformation is the most stable due to staggered arrangement of atoms, minimizing torsional strain.

3. Steric strain (non-bonded interactions): Steric strain arises from the repulsive interactions between non-bonded atoms in the ring system. As the atoms in the ring come closer together, their electron clouds repel each other, causing an increase in energy and strain in the ring. An example of steric strain is found in the highly strained structure of cyclobutane.

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Open systems allow energy and matter (stuff) to enter and leave the system. A pan on the stove is an open system because water can evaporate or be poured in, and heat can enter the pan if the stove is turned on, and leave the pan also.

The mass of the liquid is 250 grams.

We can use the following formula to determine the liquid's mass:

Q = mcΔT

Where

When provided, Q = 4750 J, c = 1.9 J/g°C, and T = (10°C - 30°C)°C. To find m, we can rearrange the equations as follows:

m = Q / (c × ΔT)

We obtain the following by substituting the values:

m = 4750 J / (1.9 J/g°C 10°C)

m = 250 grams

Therefore, the mass of the liquid is 250 grams.

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Here is the molecular geometry of each interior atom in acetic acid (CH₃COOH):

Carbon (left): tetrahedral

Carbon (right): trigonal planar

Oxygen (center): bent

The structure of acetic acid has two possible resonance structures. The geometry of the atoms in each resonance structure is the same, but the location of the double bond between the carbon and oxygen atoms alternates between the two carbons.

Molecular geometry refers to the three-dimensional arrangement of atoms and the spatial relationships among them in a molecule. It describes the shape and orientation of the molecule in space and is determined by the arrangement of the atoms and the lone pairs of electrons around the central atom(s) in the molecule.

Molecular geometry is an important concept in chemistry as it determines many of the physical and chemical properties of a molecule, including its reactivity, polarity, and intermolecular forces.

The geometry of a molecule can be determined experimentally using techniques such as X-ray crystallography or nuclear magnetic resonance spectroscopy, or it can be predicted using computational methods and models.

Molecular geometry refers to the three-dimensional arrangement of atoms and the spatial relationships among them in a molecule. It describes the shape and orientation of the molecule in space and is determined by the arrangement of the atoms and the lone pairs of electrons around the central atom(s) in the molecule.

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After 4 days, about 6.25 grams of malathion will remain in the environment.

To determine how much malathion will remain after 4 days given its half-life of 1 day and an initial amount of 100 grams, you can follow these steps:

1. Understand that the half-life is the time it takes for the substance to decrease by half.
2. Since the half-life of malathion is 1 day, this means that after 1 day, half of the initial amount will remain.
3. After each subsequent day, the amount of malathion will continue to decrease by half.

Now, let's calculate how much malathion will remain after 4 days:

Day 1: 100 grams / 2 = 50 grams remaining
Day 2: 50 grams / 2 = 25 grams remaining
Day 3: 25 grams / 2 = 12.5 grams remaining
Day 4: 12.5 grams / 2 = 6.25 grams remaining

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The pH of a 0.200 M NaCN solution is 11.31.

To calculate the pH of a 0.200 M NaCN solution, we must first find the concentration of CN- ions and the concentration of HCN. Since NaCN dissociates completely in water, the concentration of CN- ions is 0.200 M. The Ka for HCN is 4.9 × 10^-10.

Next, we need to set up an ICE (Initial, Change, Equilibrium) table to determine the change in concentration of HCN and CN- ions:

HCN + H2O ↔ H3O+ + CN-
I:  0     -       -       0.200 M
C:  +x    -      +x      -x
E:  x      -      x       0.200-x

Ka = [H3O+][CN-]/[HCN] = (x)(0.200-x)/x = 4.9 × 10^-10

Assuming that x is small compared to 0.200, we can simplify the equation to:

x(0.200) = 4.9 × 10^-10
x = 2.45 × 10^-9

Since x represents the concentration of H3O+ ions, we can now calculate the pH using the formula:

pH = -log10[H3O+]
pH = -log10(2.45 × 10^-9)
pH ≈ 11.31

The pH of the 0.200 M NaCN solution is approximately 11.31.

Therefore, the correct answer is B) 11.31.

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The atrazine is the type of the herbicide which has the half-life of the 224 days in the wetland soils. After the 448 days, the persistence of the atrazine will be 1/4 of the original amount.

The Atrazine is the chlorinated triazine systemic of the herbicide which is used to the selectively control of the annual grasses and the broadleaf weeds before it will emerge.

The Persistence with the symbol as P is the chemical property and this is refers to the chemical's degradation rate of the one or the more environmental compartment with the symbol as S.

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The equilibrium constant (K) is a constant that describes the ratio of products to reactants at equilibrium for a given chemical reaction.

It is calculated by taking the concentration of products raised to their stoichiometric coefficients and multiplying them together, and then dividing by the concentration of reactants raised to their stoichiometric coefficients.

For the chemical equilibrium A + B ⇌ C, with a value of K = 10, the equilibrium constant expression is:

K = [C]/([A][B])

Now, for the reaction 2A + 2B ⇌ 2C, we can write the equilibrium constant expression as:

K' = [C]²/([A]²[B]²)

We can obtain the expression for K' by squaring the expression for K, since the stoichiometric coefficients for all species are doubled in the second reaction.

Substituting the value of K = 10, we get:

K' = 10² = 100

Therefore, the value of the equilibrium constant for the reaction 2A + 2B ⇌ 2C is 100.

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Filtration is the process of separating solid particles from a liquid or gas by passing the mixture through a filter medium, which allows the fluid to pass through while trapping the solid particles.

Gravity filtration and vacuum filtration are two common methods of filtration:

1. Gravity filtration: This method relies on the force of gravity to pull the liquid through the filter medium. The mixture is poured onto a filter paper placed in a funnel, and the liquid passes through the paper and collects in a container below, while the solid particles remain on the filter paper.

2. Vacuum filtration: This method uses a vacuum pump to create a pressure difference that forces the liquid through the filter medium more quickly than gravity alone. The mixture is placed in a funnel with a filter medium, and the funnel is connected to a vacuum pump. As the vacuum pump removes air from the container below the funnel, the pressure difference forces the liquid through the filter medium, leaving the solid particles behind.

Both gravity and vacuum filtration serve the purpose of separating solids from liquids, with vacuum filtration offering faster results due to the pressure difference created by the vacuum pump.

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The public reaction to a president's death often reveals a sense of shock, grief, and unity among citizens, as they mourn the loss of their leader and reflect on their contributions to the nation.

The public reaction to a president's death can reveal a lot about their legacy and impact on the country. Depending on the circumstances of their passing and the public sentiment towards their policies and leadership, the reaction can range from mourning and sadness to celebration or criticism.  This response highlights the significant role a president plays in representing and guiding their country. For example, if a president was widely loved and respected, their death may elicit a strong outpouring of grief and appreciation for their contributions. On the other hand, if a president was controversial or unpopular, their death may be met with more mixed reactions and even some criticism. Ultimately, the public reaction to a president's death can provide insight into the collective feelings and opinions towards their leadership and impact on the country.

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3.527 g of water contains 1.2 g of calcium, which is the recommended daily allowance of calcium for those between 19 and 24 years old.

In order to answer this question, we must first calculate the mass of calcium in 8.5 × 10³ % of a given mass of water. Since calcium is present in the form of Ca⁺² ions, 8.5 × 10⁻³ % of a given mass of water is equal to 8.5 × 10⁻³ grams of Ca⁺² ions.

We can then multiply this mass of Ca⁺²+ by the molar mass of calcium (40.08 g/mol) to calculate the mass of calcium in 8.5 × 10⁻³ % of a given mass of water. This mass is equal to 0.34064 g.

Now, in order to calculate the mass of water that contains 1.2 g of Ca, we must divide 1.2 g of Ca by 0.34064 g of Ca in 8.5 × 10⁻³ % of a given mass of water. This calculation yields a mass of water of 3.527 g.

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-NO2 and halides are electron withdrawing groups. When they are near the carboxyl group of a carboxylic acid, they increase acidity. -NH2 and -OCH3 are electron-donating groups, and they decrease acidity.

Electron withdrawing groups have tendency to take the electrons away from the given compound or atom.They carry out +I or +M effect in organic chemistry.   Examples of electron donating groups are  toulene, halides , carbonyl ,  nitro groups, etc. Electron donating groups have tendency to donate electrons to the atom or compound. They carry out -I and -M effect in organic chemistry. Examples of electron withdrawing groups are carboxyl group, cyanide group, etc.

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The correct answer is b. water will move from solution B to solution A.

Based on the information provided, water will move from solution B to solution A by osmosis. This is because water will naturally move from an area of low solute concentration (1% NaCl in solution B) to an area of high solute concentration (2% NaCl in solution A) in an attempt to balance the concentration on both sides of the membrane. In this scenario with Solution A (2% NaCl concentration) and Solution B (1% NaCl concentration) separated by a permeable membrane, the process of osmosis will cause water to move from Solution B to Solution A.

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Organic compounds like toluene, ethylbenzene, and xylene undergo nitration when treated with HNO₃/H₂SO₄to form nitro compounds. The reaction occurs faster than a similar reaction with benzene due to increased electron density of the ring.

When organic compounds such as toluene, ethylbenzene, or xylene are treated with a mixture of concentrated nitric acid (HNO₃) and sulfuric acid (H₂SO₄), they undergo nitration to form nitro compounds. For example, when toluene is treated with HNO₃/H₂SO₄, it forms ortho-, meta-, and para-nitrotoluene isomers.

The reaction occurs faster than a similar reaction with benzene because the presence of alkyl groups in the aromatic ring increases the electron density of the ring, making it more susceptible to electrophilic attack by the nitronium ion (NO₂⁺), which is the active nitrating species formed in the reaction.

This makes the reaction faster and more selective towards the formation of mono-nitro compounds.

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The equation for finding the energy of an electron is given by the following formula:

E = -13.6 eV * (Z^2 / n^2)

where E is the energy of the electron, Z is the atomic number of the element, and n is the principal quantum number, which increases as you go away from the nucleus.

As the principal quantum number (n) increases, the electron is located further away from the nucleus. This means that the electron is in a higher energy level, and the energy of the electron is less negative, which indicates that it requires less energy to remove the electron from the atom. In other words, as n increases, the energy of the electron becomes less negative and closer to zero.

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Answer:

It would take 21.8 mL of 1.75 M beryllium nitrate solution to produce 5.4 g of aluminum nitrate

Explanation:

Using the balanced chemical equation and the molar mass of aluminum nitrate provided, we can calculate the amount of aluminum nitrate produced from the given mass:

1 mole of aluminum nitrate (Al(NO3)3) has a mass of 213.01 g.

So, 5.4 g of Al(NO3)3 is equivalent to (5.4 g) / (213.01 g/mol) = 0.0254 mol.

From the balanced chemical equation, we can see that 3 moles of beryllium nitrate (Be(NO3)2) produce 2 moles of aluminum nitrate. So, the amount of beryllium nitrate needed to produce 0.0254 mol of aluminum nitrate is:

(0.0254 mol Al(NO3)3) x (3 mol Be(NO3)2 / 2 mol Al(NO3)3) = 0.0381 mol Be(NO3)2

Now we can use the concentration and the amount of beryllium nitrate to calculate the volume of the solution required:

0.0381 mol of Be(NO3)2 is present in (0.0381 mol) / (1.75 mol/L) = 0.0218 L = 21.8 mL of 1.75 M beryllium nitrate solution.

Therefore, it would take 21.8 mL of 1.75 M beryllium nitrate solution to produce 5.4 g of aluminum nitrate, assuming the reaction proceeds to completion.

Answer:

A dog's body grows a tail and fur as part of its natural development process that is encoded in its DNA. DNA, or deoxyribonucleic acid, is the genetic material that contains instructions for the growth, development, and function of all living organisms. The specific instructions for growing a tail and fur are contained in the dog's genes, which are segments of DNA that carry the information for specific traits or characteristics.

Similarly, a bird's body produces a beak and feathers as part of its genetic program encoded in its DNA. Feathers are complex structures that require the expression of many genes in a coordinated manner, and the development of a bird's beak is also regulated by genetic mechanisms.

The scientific term for these features or characteristics is "traits" or "phenotypic traits," which refer to the physical, behavioral, and physiological characteristics of an organism that are determined by its genes.

The instructions for these characteristics are contained in a molecule called DNA, which is composed of four chemical building blocks called nucleotides (adenine, guanine, cytosine, and thymine) that form a double-stranded helix. The specific sequence of nucleotides in an organism's DNA determines its genetic code, which in turn determines the traits that the organism will express.

The organism gets its genetic instructions from its parents through the process of inheritance. When an organism reproduces, it passes on its genes to its offspring, which inherit a combination of genes from both parents. This combination of genes determines the traits that the offspring will express, and the process of inheritance ensures that traits are passed down from generation to generation.

Explanation:

The concept molarity is used here to determine the milliliters of NaOH required. The term molarity is an important method which is used to calculate the concentration of a solution. Here the volume is 0.95 mL.

Molarity is defined as the number of moles of the solute dissolved per liter of the solution. It is usually expressed in mol / L and it is represented as 'M'.

The equation used to calculate molarity is:

M = Number of moles of the solute / Volume of solution in liters

Number of moles = Given mass / Molar mass = 44.00 / 22.99 = 1.91

Volume = n / M = 1.91 / 2.00 = 0.95 mL

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The ergogenic aid that is known to cause extreme aggression and hostility, heart disease, and liver damage is anabolic steroids.

These steroids are synthetic hormones that mimic the effects of testosterone in the body, which can lead to increased muscle mass and strength. However, they also have serious side effects, including the ones mentioned above, and are illegal to use without a prescription. It is important to note that the use of any ergogenic aid should be discussed with a healthcare professional, as they can have potentially harmful effects on the body.

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Name - Function

The brain regulates a variety of bodily processes, such as movement, sensation, thinking, emotion, and behavior.

Activity and Part of the brain it involves are:

a. Testing a hamburger - Sensory cortex in the parietal lobe

b. Artistic ability - Right hemisphere of the cerebrum

c. Kicking a soccer ball - Motor cortex in the frontal lobe

d. Rate of breathing - Medulla oblongata in the brainstem

e. Tying your shoes - Cerebellum

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Before determining the limiting reactant, you must convert all values from grams to moles. This is because the balanced chemical equation gives the mole ratios of the reactants and products, not the gram ratios. Converting to moles allows for a more accurate comparison of the amounts of each reactant.

To determine the limiting reactant in a chemical reaction, you need to compare the amounts of reactants used and see which one runs out first. These amounts are usually given in grams, but in order to compare them, they must first be converted to moles. This is because the stoichiometry of the reaction, which describes the ratio of reactants and products, is based on molar ratios, not mass ratios.

To convert grams to moles, you need to use the molar mass of the substance, which is the mass of one mole of the substance. This can be found by adding up the atomic masses of all the atoms in the molecule. Once you have the molar mass, you can divide the given mass by the molar mass to get the number of moles.

After converting all the given masses to moles, you can then use the stoichiometry of the reaction to determine which reactant is limiting. The limiting reactant is the one that is completely used up first, and once it is used up, the reaction stops. The other reactant is in excess and will have some amount left over after the reaction is complete.

It is important to convert all values to moles before determining the limiting reactant in order to compare the amounts of reactants on an equal basis and to use the stoichiometry of the reaction correctly. The example on page 131 of the CHM review may provide additional context and practice on this concept.

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