you filled a serological pippete to 2.5 ml mark. it can hold 10 ml. if 0 is at the top near the pump, how much will you disepense

The final concentration of Chlorine gas in the flask is 0.55M.

The initial concentration of PCl5 can be calculated using the number of moles and volume:

[PCl5] = n/V = 3.2 mol / 2.0 L = 1.6 M

At equilibrium, the concentration of products and reactants remains constant. Therefore, the concentration of Cl2 can be determined using the equilibrium constant (Kc) and the initial concentration of PCl5:

Kc = [PCl3][Cl2] / [PCl5]

[Cl2] = Kc × [PCl5] / [PCl3] = 0.47 × 1.6 M / [PCl3]

Since [PCl3] is not given, we cannot determine the exact concentration of Cl2. However, the answer choices can be used to estimate the closest answer. Based on the answer choices, the closest estimate is 0.55 M, which is answer choice A.

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Keeping a metal dry during heating in a test tube provides a safer and more controlled environment for conducting reactions and analyzing the results.

When heating a metal in a test tube, it is common practice to keep the metal dry rather than placing it directly into boiling water for several reasons:

Prevention of oxidation: Keeping the metal dry during heating reduces the exposure to water and atmospheric oxygen, which can cause oxidation and corrosion of the metal.

Control of reaction conditions: Heating a dry metal in a test tube allows for better control over the temperature and reaction conditions. The temperature can be monitored and adjusted more precisely than when the metal is immersed in boiling water.

Safety: Placing a metal directly into boiling water can be dangerous, as the metal can rapidly heat up and cause the water to boil over, splashing hot liquid and steam. Heating a metal in a test tube eliminates this risk.

Avoidance of dilution: When a metal is placed directly into boiling water, it can become diluted by the water, affecting the outcome of the reaction. Heating the metal in a dry test tube eliminates this risk of dilution.

Ease of observation: When a metal is heated in a dry test tube, any changes or reactions that occur can be more easily observed and monitored, as the contents of the test tube are visible.

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The concentration of the potassium dichromate used to make the new solution is 0.0763 M.

The total volume of the new solution is 379 + 448 = 827 mL.

The total amount of potassium ions in the new solution is 0.713 * 827 = 594.491 mol.

The amount of potassium bromide in the new solution is 0.12 * 379 = 45.48 mol. The amount of potassium dichromate in the solution is 594.491 - 45.48 = 549.011 mol.

The concentration of potassium dichromate in the solution is 549.011 / 448 = 0.0763 M.

The concentration of the potassium dichromate used to make the new solution is 0.0763 M.

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The enthalpy change of the reaction of decane would be -6582.3 kJ/mol of decane.

The enthalpy change of a reaction can be calculated using the following equation:

ΔH = ∑nΔH_f(products) - ∑mΔH_f(reactants)

We are given the standard molar enthalpy of formation of n-decane, C10H22, which is -249.4 kJ/mol.

Using the balanced chemical equation, we can identify the stoichiometric coefficients of the reactants and products:

C10H22(I) + 12.5O2(g) --> 10CO2(g) + 11H2O(g)

Reactants:

n(C10H22) = 1

n(O2) = 12.5

Products:

n(CO2) = 10

n(H2O) = 11

Now we can calculate the enthalpy change of the reaction:

ΔH = ∑nΔH_f(products) - ∑mΔH_f(reactants)

ΔH = [10(-393.5 kJ/mol) + 11(-241.8 kJ/mol)] - [1(-249.4 kJ/mol) + 12.5(0 kJ/mol)]

ΔH = -6582.3 kJ/mol

The enthalpy change of the reaction is -6582.3 kJ/mol of decane.

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Same number of protons and different number of neutrons.

Oxygen is a chemical element with 8 protons. It is capable of achieving a noble gas electronic configuration by accepting two electrons. Oxygen is important for many living organisms.

Oxygen-16 and oxygen-18 differ in the number of neutrons in their nuclei. Oxygen-16 has 8 neutrons, while oxygen-18 has 10 neutrons. Oxygen-16 and oxygen-18 have the same number of protons and electrons. Both neutrons and protons have mass, so changing the number of neutrons changes the mass of oxygen. These elements with different numbers of neutrons are referred to as isotopes. Both oxygen-16 and oxygen-18 are stable isotopes of oxygen and are not radioactive.

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Therefore, there are 73.3 grams of sodium in the final container.

Sodium chloride (NaCl) is a neutral compound, meaning it is neither acidic nor basic. It is a salt formed by the combination of sodium (Na+) and chloride (Cl-) ions, which have a neutral charge and therefore do not affect the pH of a solution.

Firstly, the number of moles of sodium in the solution will be:

n = C * V = 5.72 M * 564.2 mL = 3.21 moles

Next, we convert the number of moles of sodium to grams:

mass = n * atomic mass = 3.21 moles * 22.99 amu/mole = 73.3 grams

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The number of moles of helium that contains 3.29 × 1021 atoms is 5.49 × 10-3 moles.

What is helium?

Helium is a colorless, odorless, and tasteless chemical element, and is the second-lightest element in the periodic table. It is a noble gas, meaning it has a very low level of reactivity, and it is found in abundance in the universe. In the atmosphere, helium is the second most abundant element, making up about 24% of the total elemental mass.

The number of moles of helium that contains 3.29 × 1021 atoms can be calculated using Avogadro's number. Avogadro's number is the number of atoms in one mole of a substance, which is equal to 6.02 × 1023 atoms.

Therefore, the calculation is as follows:

Number of moles of helium = 3.29 × 1021 atoms ÷ 6.02 × 1023 atoms/mole = 5.49 × 10-3 moles.

Hence, the number of moles of helium that contains 3.29 × 1021 atoms is 5.49 × 10-3 moles.

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Depending on the rate of oxygen diffusion into the cell mass and the rate of oxygen consumption by the cells, the greatest radius of a cell mass that may be tolerated before an anoxic core begins to form.

Radius is a mathematical term that refers to the length from a circle's or sphere's centre to its outside edge. It is a unit of length and is frequently represented by the letter "r". A circle's or a sphere's radius is a crucial characteristic since it affects the object's size and shape. The radius is also used to compute the circumference and area of a circle or sphere, two additional significant features. In addition to mathematics, the term "radius" is used to describe many facets of things and systems in a number of other disciplines, including biology, physics, and engineering.

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The accepted iron:copper ratio ranges from 1:1 to 15:1. For comparison, our Optimizers have an average iron:copper ratio of 12.6.

What is the meaning of participating?

In our daily lives, many chemical reactions take place. Burning, corrosion, food preparation, and digestion are typical examples of these reactions. Precipitation reactions are a significant class of chemical reactions. Two different soluble salts that are in aqueous solutions combine in these reactions to create two products. One of these products, which is referred to as the "precipitate," is insoluble in the solution and precipitates out.

Supplemental zinc can reduce the absorption of copper and raise demand for it. Birth control, eating a lot of foods high in copper like liver, and leaching copper from copper pipes and pans can all have an adverse effect on how well zinc and iron are absorbed.

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According to the question, 0.343 grams of hydrogen chloride are produced.

What is hydrogen chloride?

Hydrogen chloride is a colorless, corrosive gas with a pungent odor. It is a hydrogen halide and a diatomic molecule, consisting of one atom of hydrogen and one atom of chlorine.

NaCl + H2SO4 → Na2SO4 + HCl

Since the amount of sodium chloride is given (20 g), we can calculate the amount of hydrogen chloride produced.

Since 1 mole of sodium chloride reacts with 1 mole of sulfuric acid, the number of moles of sodium chloride and sulfuric acid used in the reaction will be the same.

We can calculate the number of moles of sodium chloride used in the reaction by dividing the mass of sodium chloride (20 g) by its molar mass (58.44 g/mol).

Number of moles of sodium chloride used = 20 g / 58.44 g/mol = 0.343 moles

Since the number of moles of sodium chloride used is 0.343, the number of moles of hydrogen chloride produced will also be 0.343.

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Answer:

the answer is unsteady

Answer:

luminous flame appears unsteady

The final number of moles of a balloon containing 0.40 moles with a volume of 5.0 is 0.08 moles.

The equation that can be used to find the final moles of gas in the balloon would be calculated as Avogadro's law.

Avogadro's law states that at constant pressure, the number of moles present in a gas is directly proportional to the volume of the gas. In other words, there is a direct relationship between the volume and the number of moles present in a gas.

The law is mathematically expressed as: v1/n1 = v2/n2

Where v1 is the initial volume of gas, v2 is the final volume, n1 is the initial number of moles, and n2 is the final number of moles of gas.

In this case, n1 = 0.40 mol, v1 = 5.0 L, and  v2= 1.0 L. What we are looking for is v1.

n2= n1v2/v1

= 0.4x1/5

= 0.08 mol

Thus, the equation to be used to find the final number of moles of the gas would be the equation derived properly from Avogadro's law.

The final number of moles of a balloon containing 0.40 moles with a volume of 5.0 is 0.08 moles.

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Water breaking to hydrogen and oxygen is decomposition reaction. Iron and oxygen combining to give iron oxide is a combination reaction or synthesis reaction. Reaction of sodium and chlorine to produce sodium chloride is synthesis reaction.

There are different types of reactions namely, decomposition, displacement, synthesis, combustion etc.  The breaking one compound into its constituents compounds or elements is called decomposition reaction.

Water splitting into hydrogen and oxygen is decomposition reaction. When two elements or molecules combine to form a  single product, it is called combination or synthesis reaction.

Fe and oxygen reacts to form iron oxide is a synthesis reaction. Similarly formation of NaCl and sulphur dioxide from sulphur and oxygen is also a synthesis reaction.

Combination of potassium and chlorine to form potassium chloride is also a synthesis reaction. The breaking of calcium carbonate into calcium oxide and carbon dioxide is a decomposition reaction.

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Your question probably include the following options:

water → hydrogen + oxygen

*iron + oxygen → iron oxide

*sodium + chlorine → sodium chloride

*sulfur + oxygen → sulfur dioxide

*potassium + chlorine → potassium chloride

*calcium carbonate →calcium oxide + carbon dioxide

The number of moles in butane C4H10 in 151gm of butane is 2.605 moles.we can do this with the help of molecular weights of C,H.

To calculate the number of moles in 151 grams of butane (C4H10), we need to determine the molecular weight of butane. The molecular weight of butane can be calculated using the atomic masses of its elements:

1 mole of C = 12 g 1 mole of H = 1 g

So, the molecular weight of butane can be calculated as: 4 moles of C * 12 g/mole + 10 moles of H * 1 g/mole = 4 * 12 + 10 * 1 = 48 + 10 = 58 g/mole

Now that we know the molecular weight of butane, we can use it to calculate the number of moles in 151 grams of butane:

151 g of butane / 58 g/mole = 2.605 moles

Therefore, there are 2.605 moles of butane in 151 grams of butane.

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In 180mL of D5W, there is a total mass of 9g dextrose part of the treatment of diabetic ketoacidosis is intravenous d5w, a solution of dextrose in water.

To calculate the mass of dextrose in mL of D5W, first determine the concentration of dextrose in the solution.

D5W is a 5% dextrose solution, meaning that each 100mL of D5W contains 5g of dextrose.

Thus, for a given volume of D5W, the mass of b can be determined by multiplying the volubme in mL by 0.05.

For example, in 180mL of D5W, there is a total mass of 9g dextrose (180mL x 0.05 = 9g).

that 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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The resulting pressure will be the average of the pressures in container A and container B.

The pressure of the resulting mixture of gases will be equal to the average of the initial pressures in container A and container B. The volume of the mixture is equal to the sum of the volumes of the two containers, so the pressure will be proportional to the number of gas particles present. To find the average pressure, we can add the initial pressures in container A and container B and divide by 2. In this case, the average pressure is (2.50 atm + 4.80 atm) / 2 = 3.65 atm.

container b holds 174 ml of a different ideal gas at 4.80 atm. container a and container b are glass spheres connnected by a tube with a stopcock. container a is larger than container b. if the gases are allowed to mix together,

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Fraction of positively charged histidine side chains at pH 7.4: 0.01. The pKa of histidine's side chain is 6.0,

The pKa of histidine's side chain is 6.0,  which means that at a pH of 6.0, half of the side chains will be positively charged and half will be negatively charged. At a pH of 7.4, which is closer to neutral, fewer side chains will be positively charged. To calculate the fraction of positively charged side chains, we can use the Henderson-Hasselbalch equation, which relates the pH to the pKa and the ratio of protonated to deprotonated species. The result is a very small fraction, indicating that only a small percentage of histidine side chains will be positively charged in physiological conditions.

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The atomic weight of a hypothetical element is 137.3 g/mol, and it has a bcc crystal structure with an atomic radius of 0.132 nm. The density of this element is 9.05 g/[tex]cm^3.[/tex]

The body-centered cubic (bcc) crystal structure has 2 atoms per unit cell, and the atomic radius (r) of the element is 0.132 nm. The volume of the unit cell (V) can be calculated as:

V = a^3 * [tex]2^(1/2)\\[/tex]

a = 4(0.132 nm) / [tex](3)^(1/2)[/tex] = 0.3579 nm

V = (0.3579 nm)^[tex]3 * 2^(1/2)[/tex]= 0.04516 nm^3

Avogadro's number (NA) is 6.022 x [tex]10^23 mol^-1.[/tex] The mass of one atom (m) can be calculated as:

m = M / NA

m = 137.3 g/mol / (6.022 x [tex]10^23 mol^-1[/tex]) = 2.281 x [tex]10^-22[/tex]g

The density (ρ) of the element can be calculated as:

ρ = (2 * m) / V

ρ = 2(2.281 x [tex]10^-22[/tex] g) / 0.04516[tex]nm^3[/tex]

Converting nm to cm:

1 nm = 1 x[tex]10^-7[/tex] cm

0.04516[tex]nm^3[/tex] = (0.04516 x [tex]10^-7[/tex] cm)^3 = 0.8217 x[tex]10^-21 cm^3[/tex]

ρ = 9.05 g/[tex]cm^3[/tex]

Therefore, the density of this hypothetical element with a bcc crystal structure, an atomic radius of 0.132 nm, and an atomic weight of 137.3 g/mol is 9.05 g/[tex]cm^3.[/tex]

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The action of the molecular force acting between the particles of a body or substances to bind them together is the definition of cohesion.

The term "hydrogen bond" refers to the attraction force that connects the hydrogen atoms of two molecules of the same or different substance by electronegative atoms. Three dotted lines are used to depict this relationship.

The positive end of one molecule and the negative end of the other will attract one another and weak electrostatic force will form if many of these molecules are brought closer to one another. As a result, these molecules will band together to form a molecular duster.

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Cohesion refers to the attractive force between similar molecules, such as the hydrogen bonds between water molecules.

In the case of water, the hydrogen bonds between water molecules create a strong force that keeps the water molecules close together. This is what allows water to form a cohesive surface, like a drop of water, and to exhibit surface tension, which is the tendency of the surface of a liquid to act as if it were a stretched elastic membrane.

The cohesion of water molecules also contributes to the high boiling point of water compared to other similar-sized molecules, such as hydrogen sulfide. This is because breaking the hydrogen bonds between water molecules requires a significant amount of energy, which must be supplied as heat in order for the water to boil.

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The rate constant is 0.09691 m-1 s-1.

Half-life is defined as the time it takes for a quantity to decrease to half its original value. A second order reaction can be defined as a chemical reaction for which the sum of the exponents of the corresponding rate laws of the chemical reaction is equal to two. A rate constant or specific rate constant is the constant of proportionality in the equation that describes the relationship between the rate of a chemical reaction and the concentration of reacting substances.

secondary half-life

t=1/Kao

Substituting the given values ​​of initial concentration and half-life into equation (1), we get

k = 0.09691 m-1 s-1

The rate constant is 0.09691 m-1 s-1 

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When a strong acid and a strong base are titration together, the acid and base will mix to form a neutral solution. The hydronium (H+) and hydroxide (OH-) ions will unite to create water.

Titration, also known as titrimetry, is a technique for analyzing a mixture's composition chemically to ascertain the concentration of a certain analyte. Volumetric analysis is another name for titration, a key analytical chemistry technique.

A standard solution with a set volume and concentration is created as part of the titration process and is known as a titrant or titrator. When an endpoint or equivalence point is attained, the titrant is made to continue reacting with the analyte, and at that point, the concentration of the analyte can be determined from the amount of titrant consumed. Titration is another method for using the stoichiometry principle to figure out the concentration of an unknown solution.

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The study of reaction rates, how those rates change under various conditions, and the process by which a reaction proceeds is known as chemical kinetics. The following general characteristics can have an impact on a reaction's rate: the amount of reactants present. The rate increases with concentration.

The pace at which the products are created from the reactants in a chemical reaction is referred to as the rate of reaction. It provides some understanding of how quickly a reaction can occur. For instance, the combustion of cellulose in fire has a very high response rate and is completed in a fraction of a second.

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Lactose is a disaccharide. It is composed of the two monosaccharides, glucose and galactose.

The chemical bond between these two sugars is called a glycosidic bond, and it can be broken down by the enzyme lactase in the small intestine, releasing the two individual sugars that can be absorbed into the bloodstream.

Lactose is found primarily in mammalian milk, which makes it a significant source of energy for newborn mammals. Some individuals, however, may have lactose intolerance, a condition where their bodies are unable to produce enough lactase to break down lactose, leading to digestive symptoms after consuming lactose-containing products.

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According to  Arrhenius equation, the activation energy for a temperature increase from 25°C to 358°C will be 52.4 kJ/mol.

The general rule states that the rate of reaction doubles for a 10° C increase in temperature and this applies only at a certain temperature for a given activation energy .

To establish a connection between the temperature and activation energy for the rule to be valid, we have to ignore any concentration-related temperature variations.

According to the general rule of thumb in organic chemistry, a reaction's pace doubles for every 10° increase in temperature from room temperature. For a given reaction, the ratio of its rate constant at a higher temperature to its rate constant at a lower temperature is known as its temperature coefficient, it is denoted by (Q).

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Answer:

12.83 g.

Explanation:

At standard temperature and pressure (STP), which is defined as 0°C and 1 atm pressure, 1 mole of any gas has a volume of 22.4 liters.

Since the volume of methane gas is given as 18.00 L, we can calculate the number of moles by dividing the volume by the volume of one mole at STP:

18.00 L / 22.4 L/mol = 0.8 mol

The molar mass of CH4 is 16.04 g/mol, so we can calculate the mass of 0.8 mol of CH4 as follows:

0.8 mol * 16.04 g/mol = 12.83 g

So, the mass of 18.00 L of methane gas at STP is approximately 12.83 g.

The molarity of a solution that contains 30g of Noah in 500ml of solution is 1.5

Molarity is a measure of the concentration of a solute in a solution, expressed as the number of moles per liter of solution (mol/L). It is an important part of chemistry, as it is used to describe the concentration of a solution and its components. When a solute is dissolved in a solvent, the resulting solution has a certain concentration of that solute. Molarity is a measure of this concentration, and it is calculated by dividing the number of moles of solute in the solution by the total volume of the solution. For example, if one mole of a solute is dissolved in one liter of solvent, the resulting solution has a molarity of 1M (1 mole/liter). Molarity is an important concept in chemistry because it can be used to calculate the amount of a solute that is present in a solution, and also to compare the relative concentrations of different solutions. It is also used to describe the reaction rates of solutions, and to determine the amount of reactants and products present in a reaction.

The molarity of a solution is given as-

m = n/v × 1000

Where n is the number of moles of v is the volume of the solution.

The molecular mass of NaOH is 23+16+1=40grams.

Thus the number of moles will be-

30/40 = 3/4

now

m = (3/4)/500 × 1000

m = 1.5

Thus, the molarity of a solution that contains 30g of Noah in 500ml of solution is 1.5.

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Complete question:

What is the molarity of a solution that contains 30g of Noah in 500ml of solution?

The molecular formula is then C8H14, meaning there are 8 carbon atoms and 14 hydrogen atoms in one molecule of cyclooctane.

What is cyclooctane?

Cyclooctane is a cycloalkane hydrocarbon consisting of eight carbon atoms arranged in a ring. It is an organic compound and is classified as an aromatic hydrocarbon due to its aromatic character. It is a colourless, flammable liquid with a low boiling point and a strong smell. Cyclooctane is used in the production of certain plastics, in the synthesis of drugs and chemicals, and as a solvent.

The molecular formula of cyclooctane can be calculated by using the following formula:

Number of moles (n) = Mass (m) / Molar mass (M)

n = 112.2 g / 112.2 g/mol

= 1 mol

To determine the number of carbon atoms in the molecule, multiply the number of moles (1) by the percent of carbon by mass (85.6%).

n_C = 1 mol x 85.6% = 0.856 mol

To determine the number of hydrogen atoms in the molecule, multiply the number of moles (1) by the percent of hydrogen by mass (14.4%).

n_H = 1 mol x 14.4% = 0.144 mol

The molecular formula is then C8H14, meaning there are 8 carbon atoms and 14 hydrogen atoms in one molecule of cyclooctane.

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The equation for the combustion of butane is C4H10 + O2 --> CO2 + H2O.

Combustion is a chemical reaction between a fuel and an oxidizing agent, usually oxygen, to produce energy, usually in the form of heat and light. Combustion can be used to generate electricity, power engines, and heat homes and buildings. Combustion is also used in a wide variety of industrial processes, such as smelting, manufacturing, and food production. In combustion, the fuel is oxidized, releasing energy in the form of heat and light. This energy is usually released in the form of heat, but some fuels, such as hydrogen, can also be used to produce light. Combustion is an exothermic reaction, meaning that it releases energy in the form of heat.

When 9.7 grams of butane reacts with 34.7 grams of oxygen, 29.3 grams of carbon dioxide will be produced. In order to find the amount of water produced, we need to use the law of conservation of mass. This states that the total mass of the reactants will equal the total mass of the products.

Therefore, 9.7 grams + 34.7 grams = 29.3 grams + x, where x is the mass of water produced. Solving for x, we get x = 25.7 grams of water. Therefore, 25.7 grams of water is produced when 9.7g of butane reacts with 34.7g of oxygen.

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A 10% glucose solution is contained in a balloon that is impermeable to glucose but not water. a beaker contains a 5% glucose solution. while glucose molecules cannot pass through the balloon into the beaker.

Since the balloon is permeable to water but not to glucose, water molecules can pass through the membrane of the balloon from the beaker into the balloon, while glucose molecules cannot pass through the balloon into the beaker.

Initially, the concentration of glucose in the balloon is 10%, which is higher than the concentration of glucose in the beaker, which is 5%. As a result, This process is called osmosis. AS water molecules move from the beaker into the balloon, the volume of the balloon will increase. This increase in volume will continue until the concentration of glucose on both sides of the membrane is equal, or until the pressure inside the balloon is high enough to prevent further water molecules from entering the balloon.

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