In hydrogen atom the kinetic energy of e...

In hydrogen atom the kinetic energy of electrons in 3.4 eV. The distance of that electron from the nucleus

2.116 Å

0.529 Å

1.587 Å

21.16 Å

Text Solution

Verified by Experts

The correct Answer is:

Topper's Solved these Questions

ATOMIC STRUCTURE
AAKASH SERIES|Exercise Level - I (MAIN) (Exercise - III (De-Broglie.s Theory , Heisenberg Principle , Schrodinger equations & orbitals ))|27 Videos
ATOMIC STRUCTURE
AAKASH SERIES|Exercise Level - I (MAIN) (Exercise -IV (Quantum numbers))|25 Videos
ATOMIC STRUCTURE
AAKASH SERIES|Exercise Level - I (MAIN) (Exercise -I (Fundamental particle , Atomic number and mass number , Atomic models, Nature of light , Spectra))|20 Videos
AROMATIC HYDROCARBONS
AAKASH SERIES|Exercise OBJECTIVE EXERCIES - 3 (RECENT AIPMT/NEET QUESTIONS)|10 Videos
CHEMICAL BONDING
AAKASH SERIES|Exercise OBJECTIVE EXERCISE -3 (RECENT AIPMT/NEET QUESTIONS )|39 Videos

Similar Questions

Explore conceptually related problems

In hydrogen atom the kinetic energy of electron is 3.4 eV. The distance of that electron from the nucleus

In hydrogen atom the kinetic energy of electron is 3.4 eV. The distance of the electron from the nucleus

The energy of the electron when it is at an infinite distance from the nucleus is

In a hydrogen atom, if energy of an electron in ground state is 13.6eV, then the energy in the nearest excited state is

In a hydrogen atom, if energy of an electron in ground state is 13.6 eV, then the energy in the 2nd excited state is

Choose the correct statement (s) (i) The energy of an electron in an atom is always negative, because it is negatively charged. (ii) The charge of an electron in an atom is positive (iii) When an electron is at an infinite distance from the nucleus so that there is no electrical interaction , then orbitarily the energy of electron is taken to be zero (iv) As the electron moves closer to the nucleus, energy is released and so its energy becomes less than zero i.e., negative.

AAKASH SERIES-ATOMIC STRUCTURE-Level - I (MAIN) (Exercise - II (Bohr.s theory))

The minimum and maximum values of wavelength in the Lyman series of a ...
Text Solution
|
The ratio of wavelength values of series limit liens (n(2) = oo) of Ba...
Text Solution
|
The total energy of electron in an atom is a combination of potential ...
Text Solution
|
The radius of which of the following orbit is same
Text Solution
|
When an electron with charge .e. and mass .m. moves with velocity .v. ...
Text Solution
|
The change in velocity when electron jumps from the first orbit to the...
Text Solution
|
Which one of the following statements is not correct ?
Text Solution
|
As an electron is brought from an infinite distance close to nucleus o...
Text Solution
|
The ratio of the radii of the first three orbits in an atom of hydroge...
Text Solution
|
The radius of hydrogen atom in the ground state is 0.53 Å, the radius ...
Text Solution
|
In hydrogen atom the kinetic energy of electrons in 3.4 eV. The distan...
Text Solution
|
The radius of first Bohr.s orbit for hydrogen is 0.53 Å. The radius o...
Text Solution
|
The energy of second Bohr orbit of hydrogen atom is -328 kJ. mol^(-1),...
Text Solution
|
Which of the following transistions in hydrogen atom will require the ...
Text Solution
|
The energy of an electron in the first Bohr's orbit of a hydrogen atom...
Text Solution
|
The speed of an electron in the inner most orbit of the hydrogen (Bohr...
Text Solution
|
The energy of an electron present in Bohr's second orbit of hydrogen a...
Text Solution
|
The wave length having wave number 4000 cm^(-1) is
Text Solution
|
The energy of an electromagnetic radiation is 19.875 xx 10^(-13)erg. W...
Text Solution
|