Yes, they can "grow".
Liquid crystals are unusual because they exhibit properties of both liquids and crystals. They have a distinct molecular ordering like crystals, but are able to flow and change orientation like liquids. This enables them to switch between different phases and exhibit unique optical properties.
Snowflakes and snow crystals are both formed from frozen water vapor, but they have different structures. Snowflakes are clusters of snow crystals that stick together as they fall from the sky. Snow crystals are individual ice crystals that form in the atmosphere. Snowflakes can have a variety of shapes and sizes, while snow crystals typically have a hexagonal shape.
The matter that can change shape and volume is gas.
A cloud is an example of something that doesn't stay the same shape but has low density. Cloud formations constantly change and morph due to atmospheric conditions, but they are composed of tiny water droplets or ice crystals that give them a low density compared to solid objects.
A gas can change shape but it doesn't change volume, a liquid also changes shape but doesn't change volume.
Yes, they can "grow".
I a water sugar solution creystals doesn't exist, molecules are present.
crystals are blank that have had a chance to grow and take shape.
Crystals do not give energy!
Borax forms crystals with a Monoclinic Prismatic structure.
Graphite crystals have a hexagonal shape due to the arrangement of carbon atoms in layers called graphene sheets. These sheets are stacked on top of each other, forming the distinct hexagonal shape of graphite crystals.
A crystal of course!
Calcite commonly forms rhombohedral crystals. These crystals have a shape resembling a slanted cube with parallelogram faces.
Liquid crystals are unusual because they exhibit properties of both liquids and crystals. They have a distinct molecular ordering like crystals, but are able to flow and change orientation like liquids. This enables them to switch between different phases and exhibit unique optical properties.
do you???
Yes, when sugar crystals are ground into smaller pieces, it is considered a physical change since the chemical composition of the sugar remains the same. The change in the size and shape of the sugar crystals is a result of physical forces acting on the substance, rather than a chemical reaction occurring.
On heating, hydrated salts lose their water of crystallization and as a result, the crystals lose their shape and colour and change to a powdery substance.