Question

the energy that is needed to remove an electron from 1st bohr orbit of hydrogen atom is​

Answer 1

Answer:

for a hydrogen atom, composed of an orbiting electron bound to a nucleus of one proton an ionization energy of 2.18 x 10- 18 joule (13.6 electron volts ) is reduired to force the electron from its lowest energy level entirely out of atom. please thanks for me and vote please me

Answer 2

The energy that is needed to remove an electron from the 1st Bohr orbit of a hydrogen atom is​ $E = 13.6* Z^2/n^2 E = 13.6$.

What is Bohr orbit?

The Bohr model proposed that electrons in atoms orbit the nucleus in Bohr orbits or energy shells, which are fixed paths around the nucleus. The ground state of an electron is the energy level at which it usually resides.

• For a hydrogen atom, 13.6 electron volts are required to force the electron entirely out of the atom.
• Because the first ionization potential of hydrogen is $13.5984 V$, the required energy to remove this electron is approximate $13.6 eV$.

As a result, the energy required to remove an electron from a hydrogen atom's first Bohr orbit is​ $13.6eV$.

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