what is the most common way to increase retenation of anlyates in gas choromatography analysis​

Amino acid sequence.

Result: Amino acid sequence get changed in DNA mutation.

Answer:

Shape

Explanation:

I got it right on the tests.

Hope it helps.

Answer:

False

Explanation:

"Projectile motion is a form of motion experienced by an object or particle that is thrown near the Earth's surface and moves along a curved path under the action of gravity only. This curved path was shown by Galileo to be a parabola." -Wikipedia

The object does not take a parabolic trajectory through the air.

Answer:

The steps are explained below, the essential step is to find mass here, 120 g of NaOH.

Explanation:

In order to answer this question, we need to define molarity conceptually firstly to see what variables we need. According to the formula, molarity is equal to the ratio between moles and volume, while moles itself is a ratio between mass and molar mass. This means we have a formula for molarity involving mass, molar mass and volume:

[tex]c = \frac{n}{V} = \frac{m}{MV}[/tex]

In order to prepare a 500.0 mL of stock solution of 6.0 M of NaOH, we then need to find the mass of NaOH dissolved in this solution using the equation above:

[tex]m = cMV = 6.0 M\cdot 39.997 g/mol\cdot 0.5000 L = 120 g[/tex]

Now, since we have the mass of NaOH, we can describe the steps needed to prepare this solution:

Our solution is prepared.

Answer:2)volume

Explanation:

Answer:

Volume.

Explanation:

Concentration is defined as the ratio between the amount of substance in terms of mass units or moles and the volume or mass of a solution. There are many ways to look at it.

1. Molarity: it's the measure of concentration expressed as moles of solute divided by the volume of the solution in liters (mol/L units, or M);

2. Molality: the measure of concentration expressed as moles of solute divided by the mass of solvent in kilograms (mol/kg units, or m);

3. Percent mass: the measure of concentration expressed as mass of the component divided by the total mass of the mixture (%w/w, or simply %);

4. Percent volume: similar to percent mass, but in this case we divide the volume of the component by the volume of the mixture (%V/V);

5. Mole fraction: this is the ratio between the moles of component and the total moles of all the components present in the mixture (dimensionless, but might be expressed as percentage if needed).

As you can see, concentration can be expressed very differently. What unites all of these concepts is the fact that we're looking at a fraction of the solute/component with respect to the total mass/volume of the solution or the mixture.

Typically, we're interested in molarity, as it's used most often, that is, the ratio between the moles and volume. Remembering that moles is directly proportional to mass (moles are equal to mass divided by molar mass), we may also measure concentration as mass/volume fraction instead of moles/volume.

Answer:

Explanation:

Answer:There are 5.418×10^24 hydrogen atoms present in the ammonia.

Explanation:

Ammonia (NH3) is a molecule that exists as a gas at Standard temperature (298 K). It contains atoms of Nitrogen and Hydrogen in atomic ratio of 1:3. We can represent it in equation as:

N2 + 3H2 <------> 2NH3

One molecule of NH3 contains one atom of Nitrogen (N) and three atoms of Hydrogen (H). That is 3 atoms of Hydrogen are present in every 1 molecule of NH3. We can as well say that 1 atom of Hydrogen is present in 1/3 molecule of NH3.

Number of NH3 molecules = 1/3 × number of hydrogen atoms

Number of NH3 molecules = 18.06 × 10^23 molecules at 25°C

18.06× 10^23 molecules = 1/3 × number of hydrogen atoms

Cross multiply,

Number of hydrogen atoms= 3× 18.06×10^23 molecules

Number of hydrogen atoms= 5.418×10^24 atoms

Therefore, there are 5.418×10^24 hydrogen atoms present in the ammonia.

Answer:

They have to

Explanation:

It occurs when 2 or more molecules interact and their bonds change

Answer:

2.0 mL of 10.5 M H2O2, where H2O2 has a molar mass of 34 g/mol.

Explanation:

It is most concentrated because it contains 10.5 M of Hydrogen peroxide.

Answer:100 mL of 10 M NaCl, where NaCl has a molar mass of 58 g/mol

Explanation:

Concentration refers to the amount of substance in moles present in a solution. Number of moles is obtained from; number of moles= concentration*volume

For our chosen answer, 100/1000 * 10=1 mole. If we follow this procedure to calculate the amount of other solutions stated in the question, we will realize that 100ml of 10M NaCl has the highest number of moles present. Since concentration has to do with the number of moles present in a solution, this is the most concentrated solution.

Answer:

The mass of an average copper atom is [tex]1.0548\times 10^{-22}\ g[/tex]

Explanation:

Given:

The total mass of copper atoms, [tex]m = 63.5\ g[/tex]

Number of atoms, [tex]N=6.02\times 10^{23}[/tex]

Now, we are asked to find the mass of 1 copper atom.

We use unitary method to find the mass of 1 copper atom.

Mass of [tex]N[/tex] atoms = m

∴ Mass of 1 atom = [tex]\frac{m}{N}[/tex]

Plug in 63.5 for 'm', [tex]6.02\times 10^{23}[/tex] for 'N' and simply.

Mass of 1 atom = [tex]\dfrac{63.5}{6.02\times 10^{23}}=1.0548\times 10^{-22}\ g[/tex]

Therefore, the mass of an average copper atom is [tex]1.0548\times 10^{-22}\ g[/tex]

The mass of an average copper atom is approximately 1.055 x 10^-22 g.

To calculate the mass of an average copper atom, we can use the given information that a sample of copper with a mass of 63.5 g contains 6.02 x 10^23 atoms. We can set up a proportion with the mass and the number of atoms:

63.5 g / 6.02 x 10^23 atoms = x g / 1 atom

Solving for x, we find that the mass of an average copper atom is approximately 1.055 x 10^-22 g.

Metallic Properties: Copper is a metal, and as such, it exhibits typical metallic properties. It is a good conductor of electricity and heat, has a metallic luster, is malleable and ductile, and forms positive ions (Cu^+) in chemical reactions.

Oxidation States: Copper can exist in different oxidation states, with the most common ones being +1 (cuprous) and +2 (cupric). The oxidation state depends on the specific chemical environment.

Density and Melting Point: The density of copper is approximately 8.96 grams per cubic centimeter, and it has a melting point of about 1,984 degrees Celsius (3,603 degrees Fahrenheit).

These characteristics contribute to the overall understanding of the behavior and properties of a typical or average copper atom. Keep in mind that specific conditions, such as temperature and pressure, can influence certain properties of atoms and elements.

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Answer:

The airplane gravitational potential energy is 78.4 MJ.

Explanation:

Given:

Mass of airplane, m = 40000 kg

Height above ground , h = 200 m

To Find:

Gravitational Potential Energy = ?

Solution:

Gravitational Potential Energy :

Gravitational potential energy is energy an object possesses because of its position in a gravitational field.

Formula is given by

[tex]\textrm{Gravitational Potential Energy}= m\times g\times h[/tex]

Where,

m = mass

g = acceleration due to gravity = 9.8 m/s²

h = height

Substituting the values we get

[tex]\textrm{Gravitational Potential Energy}= 40000\times 9.8\times 200\\\\\textrm{Gravitational Potential Energy}=78400000=78.4 Mega Joules[/tex]

The airplane gravitational potential energy is 78.4 MJ.

Explanation:

1. Tear gas, might shoot at protesters, may hit unsuspecting innocent bystander.

2 Hostage situation with armed subject  who has child as hostage.

3.  Raiding a house or location with armed suspect in vicinity or area who could possibly

Answer: Choice D, The solid is a poor conductor and the liquid is a good conductor

Explanation:

Final answer:

The indication that a compound is ionic is that its solid form is a poor conductor of electricity, while its liquid (molten) form is a good conductor due to the free movement of ions.

Explanation:

The test conclusion that indicates that the compound is ionic would be that the solid is a poor conductor, and the liquid is a good conductor. This is because in solid ionic compounds, the strong ionic bonds hold the ions in place, preventing them from moving freely and conducting electricity. However, when the ionic compound is melted or dissolved in water, the ions are free to move about, which allows the liquid form to conduct electricity. Therefore, the correct option is that the solid is a poor conductor, and the liquid is a good conductor.

The pressure in a propane tank changes based on temperature due to Gay-Lussac's Law. On a hot day, the pressure in the tank will be higher than on a cold day. It's important to take into account the air temperature when deciding to refill the tank.

The pressure inside a propane tank, such as one used for a BBQ grill, changes based on temperature due to Gay-Lussac's Law. In simplified terms, this principle states that the pressure of a gas is directly proportional to its temperature when the volume is held constant.

So, if a propane tank is left outside on a hot summer day, the gas inside the tank would get heated and its pressure would increase. Conversely, if the tank is left outside on a cold winter day, the temperature inside the tank would be lower and hence, its pressure would decrease.

This is why gauges that measure the pressure inside the propane tank register a higher pressure on a hot day than on a cold day. Therefore, when using gas grills, air temperature should be considered when deciding whether to refill the tank or not before the next cookout.

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Answer:

In gaseous form their movement is much faster as compared to liquid and solid state.

Explanation:

The water molecules move very fast when they have high kinetic energy and their K.E is increases by heating.

Water as solid:

In solid form consider the ice, water molecules can not move because they are packet tightly.

Any substance in solid form can not move because of compactness of structure.

Water as liquid:

In liquid form water molecules can flow and move because molecules are not tightly held like in solid form. But their movement not much faster like in case of gaseous state.

Water as gas:

When water is heated at high temperature molecules are converted into gaseous form. Their movement is much faster as compared to liquid and solid  state.

In solid ice, molecules form a structured arrangement and are less dense due to hydrogen bonds spacing them apart. In liquid water, molecules have higher kinetic energy, move freely, and form and break hydrogen bonds constantly. As a gas, water molecules have enough energy to completely break hydrogen bonds and fill any available space.

Comparing Water Molecule Movement in Different States

Water molecules exhibit different behaviors based on the state of matter they are in—solid, liquid, or gas. In a solid state such as ice, water molecules form a crystalline structure maintained by hydrogen bonds. These molecules do not circulate; they vibrate around fixed positions, giving ice its rigid structure. Despite this fixed arrangement, ice is less dense than liquid water because the molecules are pushed farther apart.

In the liquid state, water molecules have higher kinetic energy than in the solid state, allowing them to move freely and slide past each other. This movement facilitates the constant formation and breaking of hydrogen bonds, contributing to the fluidity of water. As opposed to solids, liquid water conforms to the shape of its container but maintains a surface.

When water is in the gaseous state, as water vapor or steam, the kinetic energy is high enough to break hydrogen bonds entirely. Water molecules in this state move about with the highest kinetic energy and are not confined to a volume or shape, allowing them to expand and fill the available space.

These behaviors of water molecules closely relate to temperature changes, with heating increasing kinetic energy and cold reducing it, affecting the state of water and its properties.

Answer:

4.TRUE

5.b).Kool aid in water

Explanation:

Ionic Bonds : These types of bonds are formed by complete transfer of electron from atom to other.Atom which give electron get positive Charge and which gains electrons get negative charge.

Strong electrostatic  force between oppositively charged ions make these bonds very strong

Covalent Bond : These bonds are formed by sharing of electrons.The electron density of on atom is attracted towards the nucleus of other atom.

Covalent bonds are weaker than ionic bonds

Hydrogen Bonds : These bonds are formed by weak dipole-dipole interactions which occur when Hydrogen atom in a molecule is bonded to the highly electronegative atom.

These are very weak bonds, weaker than covalent,ionic bonds.

5.

Solute : In mixture(e.g Salt + water) , the substance that is present in less quantity is called solute(Salt).

Kool Aid : Powder Substance that is added in water / liquids to make flavoured soft drinks.

We , add small amount of Powder in large quantity of water . So Kool Aid is the solute

Answer:

Gravitational force of attraction.

Explanation:

When two bodies of masses 'm' and 'M' are separated by a distance 'r', then both the bodies experience a force of attraction towards each other. This force of attraction is called gravitational force. It is a weak force but it always act between two bodies that have mass.

The magnitude of the gravitational force is directly proportional to product of the masses and inversely proportional to the square of the distance between the masses.

This means that as the distance between the bodies is increases, the gravitational force between the bodies decreases and vice versa.

The gravitational force of attraction is given as:

[tex]F_g=\frac{GmM}{r^2}\\\\G\to \textrm{Universal Gravitational constant}[/tex]

Answer:

Its not gravitational force its Non contact force

Explanation:

Because noncontact force acts at a distance just like contact force acts in contact.

3) Feature A is an abyssal plain and Feature B is an ocean trench.

Explanation:

Looking at the attached image, we can see that feature A is an abyssal plain and feature B is an oceanic trench. This picture is topographic profile which shows the different parts of an ocean as we move from the shelf to the trenches.

learn more:

sea floor spreading

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Answer:

Option 3

Explanation:

I got it right on the test.

Hope this helped.

Answer:

to provide energy to the body and helps u grow stonger

Explanation:

Answer:

option A: Allow some of the helium to leak out in the air

option B: place the tank outside on a cold winter day

Explanation:

To choose the correct answer we will check each option one by one

option A:

Allow some of the helium to leak out in the air

The pressure will be decrease inside the tank when volume of gas in the container decrease. as we leak the helium gas from tank the number of molecules in the tank decreases that exert pressure on the wall of the container.

option B:

place the tank outside on a cold winter day

when we keep the tank in cold winter the kinetic energy of the molecules of the gas reduces also upon cooling the inter-molecular forces start operating and it decrease the collision of molecules with wall of the container and pressure inside tank decreases.

option C:

Place the tank in the trunk of a car on a hot summer day

when we keep the tank in the trunk of a car on a hot summer day the kinetic energy of the molecules of the gas  increases and also upon increased temperature inter-molecular forces decrease and molecule move apart so the collision of molecules with wall of the container increases and pressure inside tank also increases.

option D:

Add more helium atoms to the tank

if we increases the volume of the gas in the container by adding more atoms in the tank it increases the pressure inside the tank and exert more pressure on the wall of the container so pressure inside the tank increase

So,

only option A and B is correct.

Without the context of the Chemthink problem you're facing, it's tough to provide an exact answer. Regardless, your answer should be grounded in fundamental chemistry principles, and remember that accuracy is vital in any calculations you might have to make.

It's challenging to provide an exact answer without the context of the Chemthink problem that you are working on. Chemthink is an online platform that helps students learn various aspects of Chemistry. However, regardless of the question, your answer in Chemthink should be based on fundamental principles of Chemistry such as the Periodic Table, chemical bonds, reactions, etc. Ensure to recall these principles when answering questions. You might have to carry out some calculations, so accuracy is crucial. This answer would ideally be based on providing step-by-step solutions to the given problem or explaining a particular concept in a manageable way.

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Newton's investigation of light followed a method similar to the scientific method. He hypothesized that light was composed of particles, conducted experiments, particularly with prisms to decompose and recombine light, to test this hypothesis and concluded that light was indeed made of particles.

Newton's investigation of light followed a structured methodology that is similar to what's known as the scientific method today. This method involves establishing a problem, forming a hypothesis, conducting experiments to test the hypothesis, analyzing the results and forming a conclusion. In the case of Newton's study on light, he began by identifying a problem: the understanding of the nature of light. He formed a hypothesis that light was composed of particles.

To test this hypothesis, he conducted a variety of experiments, the most famous of which involved passing sunlight through a prism to decompose it into a spectrum of different colors. He observed that the different colors could be recombined to form white light again using another prism which refutes the accepted belief at that time that color is added to light by the prism. Based on his experiments, Newton concluded that light is indeed made up of particles, later to be known as corpuscles.

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Final answer:

Newton's investigation of light using the scientific method demonstrated reproducibility and articulate logical conclusions, leading to advancements like the discovery of infrared and ultraviolet light, and the creation of the Newtonian telescope.

Explanation:

Isaac Newton's investigation of light exemplifies the scientific method through two key attributes: reproducibility and the clear articulation of observations and logical conclusions. The reproducibility of his work allowed others to confirm and extend his findings, such as William Herschel's discovery of infrared light and Johann Ritter's detection of ultraviolet light, using Newton's experimental methods. Newton's approach also included making explicit predictions, verifying them empirically, and offering theoretical explanations based on his observations on how different colors of light interacted with matter.

His insights on light lead to the adaptation of mirrors instead of lenses in telescopes to avoid color distortions, which was applied in his own reflecting telescope design. Newton's work on light and his laws of motion and gravitation also involved expressing experimental results using mathematics, highlighting the interplay between empirical data and theoretical work in the progression of scientific understanding.

Answer: General equation for Double Replacement Reactions is:

AY+BX→BY+AX

Explanation:

2NaCl+CuSO4→Na2SO4+CuCl2

2NaOH+CuSO4→Na2SO4+Cu(OH)2

2Na3PO4+2CuSO4→Cu3(PO4)2+3Na2SO4

NaCl+AgNO3→AgCl+NaNO3

2NaOH+2AgNO3→2NaNO3+Ag2O+H2O

Na3PO4+3AgNO3→3NaNO3+Ag3PO4

Final answer:

In double-displacement reactions involving the given reactants, various colored precipitates form, indicating a chemical reaction. The general equation for a double-displacement reaction is provided.

Explanation:

Double-displacement reactions:

NaCl + CuSO4: White precipitate of CuCl2 forms.

NaOH + CuSO4: Blue precipitate of Cu(OH)2 forms.

Na3PO4 + CuSO4: Light blue precipitate of Cu3(PO4)2 forms.

NaCl + AgNO3: White precipitate of AgCl forms.

NaOH + AgNO3: Brown precipitate of AgOH forms.

Na3PO4 + AgNO3: Yellow precipitate of Ag3PO4 forms.

General equation for double-displacement reaction: AB + CD → AD + CB

Answer:

The three components are:

Explanation:

Soil is made up of three main components:

Result: The three main components of soil are minerals, organic matter, living organisms.

Soil is made up of three main components: inorganic minerals, organic matter, and a mixture of water and air, which are essential for plant life and soil processes.

The three main components of soil are inorganic minerals, organic matter, and a combination of water and air. These components are crucial in sustaining plant life and facilitating various biological processes. Inorganic minerals make up about 40 to 45 percent of soil volume and provide essential nutrients. Organic matter, which includes decomposing plant and animal residues, microorganisms, and living soil organisms, comprises about 5 percent of the soil volume. Lastly, water and air occupy the remaining 50 percent of soil volume, ensuring that plants receive the water needed for growth and air for root respiration.

Magnesium has a higher ionization energy than barium due to its smaller atomic radius and stronger nuclear charge. The smaller the atomic radius and the greater the nuclear charge, the more tightly the electrons are held. Therefore, it requires more energy to remove an electron from a magnesium atom than from a barium atom.

Magnesium has a higher ionization energy than barium because magnesium has a smaller atomic radius and a stronger nuclear charge compared to barium. The smaller the atomic radius and the greater the nuclear charge, the more tightly the electrons are held, resulting in a higher ionization energy. For example, magnesium has a smaller atomic radius (145 pm) and a higher nuclear charge (positive charge from 12 protons) compared to barium with a larger atomic radius (222 pm) and a lower nuclear charge (positive charge from 56 protons). Therefore, it requires more energy to remove an electron from a magnesium atom than from a barium atom, resulting in a higher ionization energy for magnesium.

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Answer:

[tex]\large \boxed{56.1 \, \% }[/tex]

Explanation:

We have the masses of two reactants, so this is a limiting reactant problem.  

We will need a balanced equation with masses and molar masses of the compounds involved. Gather all the information in one place

Mᵣ:      64.06     32.00     80.06

          2SO₂  +    O₂   ⟶  2SO₃

m/g:   544.5     160.0

1. Theoretical yield

(a) Calculate the moles of each reactant  

[tex]\text{Moles of SO}_{2} = \text{544.5 g} \times \dfrac{\text{1 mol}}{\text{64.06 g }} = \text{8.500 mol}\\\\\text{Moles of O} _{2}= \text{160.0 g} \times \dfrac{\text{1 mol}}{\text{32.00 g}} = \text{5.000 mol}[/tex]

(b) Identify the limiting reactant  

Calculate the moles of SO₃ we can obtain from each reactant.  

From SO₂:

The molar ratio of SO₂ to SO₃ is 2:2

[tex]\text{Moles of SO}_{3} = \text{8.500 mol SO}_{2} \times \dfrac{\text{2 mol SO} _{3}}{\text{2 mol SO}_{2}}  = \text{8.500 mol SO}_{3}[/tex]

From O₂ :

The molar ratio of SO₂:O₂ is 2 mol O₂:1 mol O₂.

[tex]\text{Moles of SO$_{3}$} = \text{5.000 mol O}_{2} \times \dfrac{\text{2 mol SO$_{3}$}}{\text{1 mol O$_{2}$}} = \text{10.00 mol SO$_{3}$}[/tex]

The limiting reactant is SO₂ because it gives the smaller amount of SO₃.

(c) Calculate the theoretical yield of SO₃.

[tex]\text{Theor. yield of SO}_{3} = \text{8.500 mol} \times \dfrac{\text{80.06 g}}{\text{ 1 mol}} = \text{680.5 g}[/tex]

2. Calculate the percent yield of SO₃

[tex]\text{\% yield} = \dfrac{\text{ 382.0 g actual}}{\text{680.5 g theor,}} \times 100 \, \% =  \textbf{56.1 \%}\\\\\text{The percent yield is $\large \boxed{\mathbf{56.1 \, \% }}$}[/tex]

Final answer:

The warming of a room by an oven is because of convection, which is the movement of warm air that distributes heat throughout the space. Conduction occurs during direct contact with the heat source, while radiation happens when heat travels through a vacuum or air without the necessity for a medium. So the correct option is C.

Explanation:

The process through which an entire room could be warmed by turning on the oven and opening the oven door is convection. This is because convection is the heat transfer by the macroscopic movement of a fluid, which in this case, is the air in the room. As the oven heats the air close to it, this warm air rises and cooler air moves in to take its place, setting up a circulation pattern that distributes the heat throughout the room.

Latent heat is transferred into the air by none of the above options, as latent heat is associated with phase changes, such as water evaporating or condensing, not directly with convection, conduction, or radiation.

Heat transfer by circulation of a fluid is called convection. In the case of heat transfer from a fire or the Sun, where there is no material medium, radiation is the form of heat transfer. Lastly, when there is direct contact between the source and an animal, the method of heat exchange that occurs is conduction.

Answer:

(3) Equals the mass of CaO plus the mass of CO₂  

Explanation:

The important principle to remember is the Law of Conservation of Mass — the total mass of the reactants must equal the total mass of the products.

      Reactants ⟶ products

           CaCO₃ ⟶ CaO + CO₂

Mass of CaCO₃ = Mass of CaO + mass of CO₂

Answer:

[tex]\large \boxed{\text{6 L}}[/tex]

Explanation:

We can use Gay-Lussac's Law of Combining Volumes to solve this problem.

Gases at the same temperature and pressure react in the same ratios as their coefficients in the balanced equation.

1. Write the chemical equation.

Ratio:  1 L     3 L

           N₂ + 3H₂ ⟶ 2NH₃  

V/L:      2

2. Calculate the volume of H₂.

According to Gay-Lussac, 3 L of H₂ react with 1 L of N₂.

Then, the conversion factor is (3 L H₂/1 L N₂).

[tex]\text{Volume of H}_{2} = \text{2 L N}_{2} \times \dfrac{ \text{3 L H}_{2} }{\text{1 L N}_{2}}= \textbf{6 L H}_{2}\\\text{You need $\large \boxed{\textbf{6 L}}$ of hydrogen,}[/tex]

To react completely with 2.0 L of nitrogen, you would need 6.0 L of hydrogen according to the stoichiometric ratio of the balanced chemical reaction N2 + 3 H2 → 2 NH3.

For a complete reaction of nitrogen (N2) to form ammonia (NH3), you need three times the volume of hydrogen (H2) as the provided volume of nitrogen. Given that the balanced equation is N2 + 3 H2 → 2 NH3, and we know that one mole of a gas occupies 22.4 L at standard conditions, you can calculate the required volume of hydrogen. If you have 2.0 L of nitrogen, using the mole ratio of nitrogen to hydrogen from the balanced equation which is 1:3, you would need 3 times the volume of hydrogen gas. Hence you would need 2.0 L * 3 = 6.0 L of hydrogen for a complete reaction with 2.0 L of nitrogen.

Nutrients can enter cells through different mechanisms depending on their solubility. Lipid-soluble nutrients can diffuse through the plasma membrane, while water-soluble nutrients require transport molecules embedded in the membrane.

Lipid-soluble nutrients can diffuse through the plasma membrane, while water-soluble nutrients require transport molecules embedded in the membrane to enter cells. Once inside the cell, lipid-soluble nutrients are packaged for transport via the base of the cell, while water-soluble nutrients enter the capillary blood in the villi and travel to the liver.

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