If h is the Planck's constant, m = mass of the electron, e = charge of the electron and `in_(0)` = permittivity of vacuum, then `(h^(2)in_(0))/(me^(2))` has the unit

The radius of the second Bohr orbit for hydrogen atom is [Planck's constant (h)=6.6262xx10^(-34)* Js , mass of electron= 9.1091xx10^(-31)kg , charge of electron =1.60210xx10^(-19)C , permittivity of vacuum (in_(0))=8.854185xx10^(-12)kg^(-1)*m^(-3)*A^(2) ]-

In the Bohr model of a hydrogen atom, the centripetal force is furnished by the Coulomb attraction between the proton and the electrons. If a_(0) is the radius of the ground state orbit, m is the mass and e is the charge on the electron and e_(0) is the vacuum permittivity, the speed of the electron is

In the Bohr model of a hydrogen atom, the centripetal force is furnished by the coulomb attraction between the proton and the electron. If a_(0) is the radius of the ground state orbit, m is the mass and e is the chargeon the electron and varepsilon_(0) is the vacuum permittivity,the speed of the electron is

Which of the following combinations has the dimension of electrical resistance ( in_(0) is the permittivity of vacuum and mu_(0) is the permeability of vacuum)?

Which of the following combinations has the dimension of electrical resistance ( in_(0) is the permittivity of vacuum and mu_(0) is the permeability of vacuum)?

The dimensions of h//e ( h= Plank's constant and e= electronic charge ) are same as that of

A 27 mW laser beam has a cross-sectional maximum electric field in this electromagnetic wave is given by : [Given permittivity of space in_(0) = 9 xx 10^(12) SI units, Speed of light c= 3 xx 10^(8) m//s ]

In problems involving electromagenetism it is often convenlent and informative to express answers in terms of a constant, alpha , which is a combination of the Coulomb constant, k_(e) = 1//4piepsi_(0) , the charge of the electron, e, and h , h being Planck's constant. For instant, the lowest energy that a hydrogen atom can have is given by E = 1//2 alpha^(2) mc^(2) , wherer m is the mass of the electron and c is the speed of light. Which of the following is the correct expression for alpha ^2? (HINt : non-relativistic kinetic energy is 1//2 mv^(2) , where v is speed.)

In terms of basic units of mass (M), length (L), time (T), and charge (Q), the dimensions of magnetic permeability of vacuum (mu_0) would be

In terms of basic units of mass (M), length (L), time (T), and charge (Q), the dimensions of magnetic permeability of vacuum (mu_0) would be