The Hydrophobic Region is also know as the "Water Fearing"
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phospholipids
it is polar since it has carboxylic acid (propanoic acid) function
The phospholipid heads are hydrophillic and prefer the water while the tails are hydrophobic and are shielded from the water.
The function of polar microtubules is to elongate while the centromere microtubules shorten, so the chromatids can reach the opposite poles (centrioles) of the cell.
Glycolipids contain hydrophilic heads. These hydrophilic heads interact with each other and form a hydrophilic coating on each side of the bilayer point towards the polar solvent.
Hydrophobic is the tail of the the molecule that is atrracted to fatty acids and is a water fearing subtance. Also the tail is None-Polar. Hydrophilic is fatty acid fearing and is attracted to water it is the head of the hydrophobic tail. The head is polar.
A non polar head and a polar tail
phospholipids
it is polar since it has carboxylic acid (propanoic acid) function
to keep the polar bear skin warm
they have a polar head and non-polar tails
The phospholipid heads are hydrophillic and prefer the water while the tails are hydrophobic and are shielded from the water.
The function of polar microtubules is to elongate while the centromere microtubules shorten, so the chromatids can reach the opposite poles (centrioles) of the cell.
Rectangular It converts co-ordinates from a polar form to rectangular (Cartesian) form. It is the opposite of the Pol (or Polar) function.
The function of polar microtubules is to elongate while the centromere microtubules shorten, so the chromatids can reach the opposite poles (centrioles) of the cell.
No, that could be a phospholipid that you're thinking of. Water is a polar molecule.
Glycolipids contain hydrophilic heads. These hydrophilic heads interact with each other and form a hydrophilic coating on each side of the bilayer point towards the polar solvent.