Material arranged properly refers to the organization and placement of items or components in a way that maximizes efficiency, functionality, and aesthetics. This can apply to various contexts, such as organizing physical spaces, designing systems, or structuring information. Proper arrangement can lead to improved accessibility, better workflow, and enhanced understanding or visual appeal. Ultimately, it emphasizes the importance of thoughtful organization in achieving desired outcomes.
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their electrons
their electrons
All the elements discovered till now are properly arranged on the periodic table.
They are arranged randomly so ultimate magnetic effect is zero. But in some material they do not cancel and have some +ve or -ve value.
They are arranged randomly so ultimate magnetic effect is zero. But in some material they do not cancel and have some +ve or -ve value.
They are arranged randomly so ultimate magnetic effect is zero. But in some material they do not cancel and have some +ve or -ve value. by Limayrie E.
Well the answer is simply intercourse
Something is either magnetized or not magnetized. There is no such thing as "unmagnetized magnetic" material.
A material that can be harmful if not properly disposed of is hazardous.
The domains in a magnetic material is aligned unlike the non-magnetic material which is scattered
Golgi apparatus is an organelle with a double membrane. and is found only in eukaryotic cells (cells having a properly arranged nuclear material). For example :human and animal cells.