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What is the relationship between the density of graphene and its unique properties?
The density of graphene, which is very low due to its two-dimensional structure, contributes to its unique properties such as high strength, flexibility, and conductivity.
Why are enantiomers of biological interest?
Mainly because enantiomers have identical physical and chemical properties. However, the difference between two enantiomers can have tremendous impact, especially in biological systems, because many important biological molecules are chiral.
How does a reflection affect the properties of a two-dimensional figure?
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How does a reflection affect the properties of a 2 dimensional figure?
Pls answer
Importance of geometry?
Learning geometry is important because it embraces algebra, trigonometry, Pythagoras' theorem, properties of a triangle, properties of a circle, properties of 2 dimensional and 3 dimensional shapes, coordinated geometry .... and so much much more
The polar nature of water allows it to dissolve?
a wide variety of substances, making it a versatile solvent in biological systems. The hydrogen bonding between water molecules contributes to its strong cohesive properties.
Write any two properties of a cylinder?
Two properties of a cylinder are that they are both curved and have 3 dimensions. Two properties of a cylinder are that it is rounded and it is three dimensional.
How many edges does a three dimensional rectangle has?
I don't think there's a three dimensional rectangle, and if the two dimensional triangle exists in three dimensional space, it would have strange properties because it only has 4 edges. There however, a three dimensional rectangular prism. It has 12 edges.
What properties does a heptagon have?
It is a closed 2-dimensional shape, bounded by seven straight lines.
What brain imaging method takes advantage of the magnetic properties of different atoms to take sharp three dimensional images?
Which brain imaging method uses magnetic properties of different atoms to take sharp, three-dimensional images of the brain.
How does the structure of fructopyranose contribute to its properties and functions in biological systems?
The structure of fructopyranose, a type of sugar molecule, contributes to its properties and functions in biological systems by providing energy for cells and serving as a building block for larger molecules like carbohydrates. The pyranose ring structure of fructopyranose allows it to easily participate in chemical reactions within cells, making it an important source of energy for cellular processes. Additionally, the specific arrangement of atoms in the fructopyranose molecule allows it to interact with other molecules in biological systems, influencing various physiological functions.
What has the author Alexander M Panich written?
Alexander M. Panich has written: 'Physical properties of the low-dimensional A3B6 and A3b3C62 compounds' -- subject(s): Chalcogenides, Lattice dynamics, Low-dimensional semiconductors, Ferroelectricity, Electric properties 'Physical properties of the low-dimensional A[superscript]3B[superscript]6 and A[superscript]3B[superscript]3C[superscript]6[subscript]2 compounds' -- subject(s): Chalcogenides, Lattice dynamics, Low-dimensional semiconductors, Ferroelectricity, Electric properties 'Physical properties of the low-dimensional A3B6 and A3b3C62 compounds' -- subject(s): Chalcogenides, Lattice dynamics, Low-dimensional semiconductors, Ferroelectricity, Electric properties
