Calculate the frequency of revolution of an electron in the first orbit of an aluminum atom. Given that mass of electron `=9x10^(-31) kg, e= 1.6 xx10^(-19) C`, radius of the orbit `=0.2xx10^(-11) m`.

Calculate the frequency of revolution of electron in the second Bohr's orbit of radius 2.12Å. Given, h=6.6xx10^(-34)Js, m=9xx10^(-31)kg .

Calculate the velocity of an electron in Bhor's first orbit of hydrogen atom. (Given r=0.53 xx 10^(-10)m )

Calculate the period of revolution of an electron revolving in the first orbit of hydrogen atom. Given radius of first orbit = 0.53 Å and c = 3 xx 10^(8) " ms"^(-1)

Calculate the frequency of revolution of electron in the first Bohr orbit of hydrogen atom, if radius of first Bohr orbit is 0.5Å and velocity of electron in the first orbit is 2.24xx10^6m//s .

Calculate the frequency of revolution of the electron in this second Bohr orbit of the hydrogen atom. The radius of the orbit is 2.14 Å and the speed of the electron in the orbit is 1.09 xx 10^(6) m//s .

Calculate the ratio of electrostatic to gravitational force between two electrons placed at certain distance in air. Given that m_(e)= 9.1xx10^(-31) kg,e= 1.6xx10^(-19)C and G=6.6xx10^(-11)Nm^(-2) .

An electron in an atom revolves around the nucleus in an orbit of radius 0.53 Å. If the frequency of revoluation of an electron is 9xx10^(9) MHz. calculate the orbital angular momentum. [Given : Charge on an electron =1.6xx10^(-19)C , Gyromagnetic ratio 8.8xx10^(10)C//kg, pi =3.142 ]

Calculate the speed of the electron in the first Bohr orbit given that h=6.6xx10^(-34) Js, m=9.11xx10^(-31) kg and e=1.603xx10^(-19) C .

Calculate the frequency of revolution of an electron in a hydrogen atom assuming that the radius of the first Bohr orbit is 5 xx 10^(-11) m. Mass of electron = 9.0 xx 10^(-31) kg , charge of electron = 1.6 xx 10^(-19) C, (1)/(4pi epsilon_(0))=9xx10^(9) SI units.