It has 1 electron in its first energy shell has 1 proton and no nuetron
You owe me £10000000000
No. The example of it being like our Solar system is strictly for show. The motion and position of the outer shell electrons is unknowable. We have just recently been able to discern the core of an atom.
The Bohr atomic model is similar to solar system.
The basic structure of the periodic table, arranged by increasing atomic number and properties, is unlikely to change significantly in the future. However, as new elements are discovered and our understanding of atomic structure advances, the periodic table may be expanded or refined to accommodate these changes.
No, Bohr's atomic model does not look like an onion. It represents the atom as a small, positively charged nucleus surrounded by orbiting electrons in fixed energy levels. The model is more complex and based on quantum mechanics principles.
You get a toy ladder and twist it repeatedly. You get the two spring like structure, going parallel to each other. DNA helix looks like the same.
the atomic symbol of oxygen looks like this 0
this question need more detail. first of all, a crystal's external appearance is merely a representation of its ordered internal atomic structure. to look at crystal structure in general, I recommend researching the 14 Bravais Lattices. Depending on what crystal you are talking about, its internal atomic structure will be different.
No.
You put them in water and look at them.
a rod like structure
nothing
One answer is a single molecule of water, which would look like three-sided clump with a hydrogen atom and twp oxygen atoms at 120 degrees apart. An ice crystal frozen in an ice cube would look a lot like the first case. Also the particle could be part of a snowflake.
its like endi stycuai its like endi stycuai
when you put water inside milk, the milk will look like what it did without water.
No. The example of it being like our Solar system is strictly for show. The motion and position of the outer shell electrons is unknowable. We have just recently been able to discern the core of an atom.
Silicon atoms have a crystalline structure, forming a diamond cubic lattice in its pure form. Each silicon atom is bonded to four other silicon atoms in a tetrahedral arrangement. These strong covalent bonds give silicon its characteristic properties as a semiconductor.
it looks like a jelly-like structure in a form of a circle