The core of an atom where the neutron and proton are locate are solid in comparison to the electron shell, if you search for information about work carried out by Ernest Rutherford and the Rutherford atomic model this should explain it.
I think the current model of the atom is wrong, but lets see what the LHC provides.
Atoms are imagined as tiny balls in the billiard ball model or Dalton's atomic theory. This model suggests that atoms are indivisible, solid particles with no internal structure.
If the reaction starts with 6 atoms of solid and 12 atoms of gas, the total number of atoms should remain the same in the products. This means there should be 6 atoms of solid and 12 atoms of gas in the products as well.
A stationary brick and the atoms in a solid are both fixed in position relative to each other. The brick's molecules are tightly packed, like atoms in a solid, creating a rigid structure. Additionally, both the brick and the solid atoms resist deformation when external forces are applied.
Solid !
The arrangement of the atoms
Atoms are imagined as tiny balls in the billiard ball model or Dalton's atomic theory. This model suggests that atoms are indivisible, solid particles with no internal structure.
Crystalline is a description used for a solid which has its atoms (or ions/molecules) arranged in a repeating pattern. A crystal can be described as a crystalline solid.Crystalline is a description used for a solid which has its atoms (or ions/molecules) arranged in a repeating pattern.A crystal can be described as a crystalline solid.
How are elements described in terms of their atoms
Yes, Carbon atoms are solid :)
The type of solid that has repeating patterns of atoms are crystals.
The specific property that distinguishes crystalline solids from other types of solids (other types would be described as amorphous solids) is that their constituent atoms are arranged in orderly geometrical patterns.
Yes.
The force between atoms of a solid is inter-particle force.
The specific property that distinguishes crystalline solids from other types of solids (other types would be described as amorphous solids) is that their constituent atoms are arranged in orderly geometrical patterns.
The specific property that distinguishes crystalline solids from other types of solids (other types would be described as amorphous solids) is that their constituent atoms are arranged in orderly geometrical patterns.
The specific property that distinguishes crystalline solids from other types of solids (other types would be described as amorphous solids) is that their constituent atoms are arranged in orderly geometrical patterns.
Dalton's model of an atom, proposed in the early 19th century, viewed the atom as a solid, indivisible sphere. He believed that atoms of different elements had different masses and sizes, and that they combined in simple whole number ratios to form compounds. However, this model was later replaced by more advanced atomic models that better explained the behavior of atoms.