A muan is an unstable elementary partical whose mass `(mu^(-))` can be captured by a hydrogen nucleus (or proton) to from a muonic atom.
a Find the redius of the first Bohr orbit of this atom.
b Find the ionization energy of the atom.

A muon is unstable elementary particle wohse mass is 207m_(e) and whose charge is either +e or -e . A negative moun (mu^(-)) can be captured by a proton to form a muonic atom. (a) Find the distance between the moun and proton for this atom. (b) Find the ionization energy of the atom.

Calculate the radius of the third Bohr orbit of hydrogen atom and the energy of electron in that orbit.

For hydrogen atom, radius of first Bohr orbit would be

If the radius of first Bohr orbits of Hydrogen atom is 0.5overset@A , Find the radius of the fourth Bohr Orbit of the atom.

The current in the first orbit of Bohr's hydrogen atom is

A mu-meson ("charge -e , mass = 207 m, where m is mass of electron") can be captured by a proton to form a hydrogen - like ''mesic'' atom. Calculate the radius of the first Bohr orbit , the binding energy and the wavelength of the line in the Lyman series for such an atom. The mass of the proton is 1836 times the mass of the electron. The radius of the first Bohr orbit and the binding energy of hydrogen are 0.529 Å and 13.6 e V , repectively. Take R = 1.67 xx 109678 cm^(-1)

A mu-meson ("charge -e , mass = 207 m , where m is mass of electron") can be captured by a proton to form a hydrogen - like ''mesic'' atom. Calculate the radius of the first Bohr orbit , the binding energy and the wavelength of the line in the Lyman series for such an atom. The mass of the proton is 1836 times the mass of the electron. The radius of the first Bohr orbit and the binding energy of hydrogen are 0.529 Å and 13.6 e V , repectively. Take R = 1.67 xx 109678 cm^(-1)

The radius of which of the following orbit is same as that of the first Bohr's orbit of hydrogen atom.

The radius of which of the following orbit is same as that of the first Bohr's orbit of hydrogen atom.