You can tell the difference between 1s subshell and 3s subshell using quantum numbers and electron configuration.
For a 2s subshell to be present, the 1s subshell must first be full, which means no more electrons can be moved into the 1s subshell.
it is just a quantum property, its further away from the nucleus
Electrons start pairing in the 1s orbital. A 1s orbital can take two electrons, represented by 1s2.
the 2s orbital is at a higher energy level
Hydrogen gains stability by forming diatomic particles (H2). When two hydrogen atoms come together to form a covalent bond (sharing electrons), they both complete the 1s subshell, which makes both atoms happy.
For a 2s subshell to be present, the 1s subshell must first be full, which means no more electrons can be moved into the 1s subshell.
it is just a quantum property, its further away from the nucleus
The absolute difference is 1.
Electrons start pairing in the 1s orbital. A 1s orbital can take two electrons, represented by 1s2.
/1s going upward the others going strait ways.=D
in even parity number of 1s is even called even parityand or number of 1s is odd called odd parity anil kuntal anil kuntal you suck
the 2s orbital is at a higher energy level
Computers have no feelings. They just have programs of 1s and zeros.
Hydrogen gains stability by forming diatomic particles (H2). When two hydrogen atoms come together to form a covalent bond (sharing electrons), they both complete the 1s subshell, which makes both atoms happy.
1s + 1s + 1 = 2s + 1
An element cannot have 4 electrons in the 2 s level. The s subshell can hold only TWO electrons. Carbon has 4 electrons in the 2p level, however, if that's what you meant.
There is no such difference. All digital computers have elements that basically work with two different states; these are commonly called 1s and 0s, sometimes "true"and "false". But there is no difference in this sense between IBM and Apple.