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Oil molecules are nonpolar, so they will not mix with polar water molecules. This characteristic helps when removing oil from water using nets and floating barriers is that oil molecules won't mix with water molecules and the oil molecules float. Because oil floats on water, the oil can be skimmed off the top of the water.
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How nowthe nonpolar character of oil molecules helps when removing oil from water using nets and floats barriers?
Oil molecules are nonpolar, meaning they do not mix well with water which is polar. This property allows oil to form a layer on the surface of water, making it easier to skim off using nets and float barriers. The nonpolar nature of oil also helps prevent it from easily dispersing in the water, aiding in its containment and removal.
How does a detergent keep polar and nonpolar molecules mixed?
soaps are the sodium salts of fatty acids. The molecular formula of soap is CH3COONa. In this the CH3COO part is partially positive and Na is partially negative so they attract each other ,hence they are bound together
What does the science term called like dissolves like mean?
"Like Dissolves Like" is a concept in chemistry discribing hydrophobic (nonpolar) and hydrophilic (polar) interactions. Polar molecules, in order to reduce unfavorable interactions that require free energy to compensate for, tend to associate with other polar molecules. Non-polar molecules, likewise, associate with other nonpolar molecules. The terms hydrophobic and hydrophilic are used to describe a molecules tendency to associate with water. Polar molecules, using the "like dissolves like" concept associate with water, while nonpolar molecules tend to reduce interactions with water.
What examples of dipole induced dipole forces?
An example of dipole-induced dipole forces is the interaction between a polar molecule, such as water, and a nonpolar molecule, such as nitrogen. The polar molecule induces a temporary dipole in the nonpolar molecule, creating an attractive force between the two molecules. This type of interaction helps explain why some substances can dissolve in water even if they are nonpolar.
A phospholipid molecule has a polar and a nonpolar end because of this water molecules form what kind of bond?
hydrogen bonds with the polar end of the phospholipid molecule
How nowthe nonpolar character of oil molecules helps when removing oil from water using nets and floats barriers?
Oil molecules are nonpolar, meaning they do not mix well with water which is polar. This property allows oil to form a layer on the surface of water, making it easier to skim off using nets and float barriers. The nonpolar nature of oil also helps prevent it from easily dispersing in the water, aiding in its containment and removal.
How does a detergent keep polar and nonpolar molecules mixed?
soaps are the sodium salts of fatty acids. The molecular formula of soap is CH3COONa. In this the CH3COO part is partially positive and Na is partially negative so they attract each other ,hence they are bound together
What does the science term called like dissolves like mean?
"Like Dissolves Like" is a concept in chemistry discribing hydrophobic (nonpolar) and hydrophilic (polar) interactions. Polar molecules, in order to reduce unfavorable interactions that require free energy to compensate for, tend to associate with other polar molecules. Non-polar molecules, likewise, associate with other nonpolar molecules. The terms hydrophobic and hydrophilic are used to describe a molecules tendency to associate with water. Polar molecules, using the "like dissolves like" concept associate with water, while nonpolar molecules tend to reduce interactions with water.
Why do non polar molecules dissolve in fat?
non polar molecules dissolve in fat due to the fact that fat is also a nonpolar molecule, and have u ever heard of the saying "like dissolves in like" well non polar molecules dissolve in other non polar molecules. Hope that helps
The interior of the lipid bilayer of a cell membrane forms a nonpolar zone that?
The nonpolar zone in the lipid bilayer of a cell membrane helps to repel polar molecules, allowing for selective permeability of the membrane. This structure is essential for maintaining cell integrity and regulating the passage of substances in and out of the cell.
What examples of dipole induced dipole forces?
An example of dipole-induced dipole forces is the interaction between a polar molecule, such as water, and a nonpolar molecule, such as nitrogen. The polar molecule induces a temporary dipole in the nonpolar molecule, creating an attractive force between the two molecules. This type of interaction helps explain why some substances can dissolve in water even if they are nonpolar.
How does the structure of phospholipids linear molecules with a polar end and a nonpolar end relate to their function in the cell membrane?
The linear structure of phospholipids allows them to form a bilayer in the cell membrane due to their amphipathic nature, with the polar head facing outward towards water and the nonpolar tails facing inward. This arrangement helps create a barrier that controls the movement of substances in and out of the cell, contributing to the selective permeability of the cell membrane.
A phospholipid molecule has a polar and a nonpolar end because of this water molecules form what kind of bond?
hydrogen bonds with the polar end of the phospholipid molecule
Is a sunscreen molecule polar or nonpolar?
Sunscreen molecules are typically nonpolar, as they are designed to be resistant to water and adhere to the skin while providing protection from UV rays. This nonpolar nature allows them to form a barrier on the skin's surface that helps reflect or absorb harmful UV rays before they can penetrate the skin.
The fact that it reacts with oil and grease makes for a good cleaner?
base
What is the oil-attracting molecule end of surfactant?
The oil-attracting molecule end of a surfactant is called the hydrophobic end or tail. It is typically a nonpolar or lipid-soluble portion of the molecule that is attracted to oil or other nonpolar substances. This hydrophobic end helps the surfactant molecules interact with and surround oil droplets to facilitate their dispersion in water.
Where would the leucine side chain most likely be found in a protein dissolved in water?
The leucine side chain is nonpolar and hydrophobic, so it would most likely be found in the interior of the protein away from the water molecules. This helps to stabilize the protein's structure by minimizing its exposure to the aqueous environment.
