1) they are fat-soluble
2) they are created from fatty acids
Special properties of water include its high surface tension, cohesion, and ability to expand when frozen. Special properties of diamonds include their hardness, brilliance, and thermal conductivity. Special properties of gold include its malleability, ductility, and resistance to corrosion. Special properties of magnets include their ability to attract and repel other magnets. Special properties of carbon include its ability to form diverse compounds due to its versatile bonding capabilities.
Lipids will dissolve in nonpolar solvents such as ether, chloroform, or alcohol since they are hydrophobic and do not interact well with water. By dissolving in these nonpolar solvents, lipids can form stable solutions due to their similar chemical properties.
A special polymer is a type of polymer that possesses unique properties or functionalities compared to conventional polymers. These can include biodegradability, shape memory, self-healing, or conductive properties, among others. They are designed for specific applications where these specific properties are required.
Lipids are nonpolar molecules that are hydrophobic in nature. They are insoluble in water but soluble in nonpolar solvents. Lipids serve as a source of energy, act as structural components of cell membranes, and play a role in cell signaling.
Thin-layer chromatography (TLC) and gas chromatography (GC) are commonly used to separate lipids based on their chemical properties such as polarity and volatility. TLC separates lipids based on their partitioning between a stationary phase and a mobile phase, while GC separates lipids based on their boiling points and vapor pressures in a gas phase.
The organic properties of Protoplasm are protein,carbohydrates,lipids,nucleic acid,enzymes,hormones,vitamins.
The definition of special properties are the unique features of a substance. They are commonly derived from other intrinsic and extrinsic properties.
because they are water insoluble
Special properties are unique characteristics or attributes that set something apart from others. They can include rarity, exceptional quality, specific functions, and distinctive features that make the item or object stand out. Special properties often contribute to the value or significance of the item in question.
Their crystalline structure and physical properties are special.
This is possible only if the ratio of lipid is massive to the ratio of water. However, this is usually not the case. In most cases, when lipids and water are mixed, the hydrophobic properties of the lipids cause the lipids to coalesce at the top of the water without mixing, because that lipids are less dense than water.
The monomers of lipids are fatty acids and glycerol. They contribute to the structure and function of lipids by forming long chains that make up the backbone of lipid molecules. These chains can be saturated or unsaturated, affecting the physical properties of the lipid. Additionally, lipids play a crucial role in energy storage, insulation, and cell membrane structure.
Special properties of water include its high surface tension, cohesion, and ability to expand when frozen. Special properties of diamonds include their hardness, brilliance, and thermal conductivity. Special properties of gold include its malleability, ductility, and resistance to corrosion. Special properties of magnets include their ability to attract and repel other magnets. Special properties of carbon include its ability to form diverse compounds due to its versatile bonding capabilities.
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They are the properties that are unique to certain minerals such as flourescence or radioactivity
They are the properties that are unique to certain minerals such as flourescence or radioactivity
Lipids have a special attraction for other lipids due to their hydrophobic nature, which causes them to cluster together to minimize contact with water. They also have an affinity for certain proteins, especially those involved in lipid transport or membrane structure, forming lipid-protein complexes. Additionally, lipids can interact with specific lipid-binding molecules, such as enzymes or receptors, to carry out various cellular functions.