356408 In Bohr's model of \({H}\)-atom, the kinetic energy of the electron in any orbit depends on the principal quantum number \({n}\) as

356409 In the Bohr's 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, \(e\) is the charge on electron and \(\varepsilon_{0}\) is the permittivity of free space, the speed of the electron is

356410 Assertion :
In hydrogen atom as \(n\) increases, energy level comes closer and closer.
Reason :
Energy of an electron in hydrogen atom is \({E_n} = \frac{{ - 13.6}}{{{n^2}}}eV\)

356411 An electron rotates in a circle around a nucleus having positive charge \(Z e\). Correct relation between total energy \((E)\) of the electron to its potential energy \((U)\) is

356408 In Bohr's model of \({H}\)-atom, the kinetic energy of the electron in any orbit depends on the principal quantum number \({n}\) as

356409 In the Bohr's 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, \(e\) is the charge on electron and \(\varepsilon_{0}\) is the permittivity of free space, the speed of the electron is

356410 Assertion :
In hydrogen atom as \(n\) increases, energy level comes closer and closer.
Reason :
Energy of an electron in hydrogen atom is \({E_n} = \frac{{ - 13.6}}{{{n^2}}}eV\)

356411 An electron rotates in a circle around a nucleus having positive charge \(Z e\). Correct relation between total energy \((E)\) of the electron to its potential energy \((U)\) is

356408 In Bohr's model of \({H}\)-atom, the kinetic energy of the electron in any orbit depends on the principal quantum number \({n}\) as

356409 In the Bohr's 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, \(e\) is the charge on electron and \(\varepsilon_{0}\) is the permittivity of free space, the speed of the electron is

356410 Assertion :
In hydrogen atom as \(n\) increases, energy level comes closer and closer.
Reason :
Energy of an electron in hydrogen atom is \({E_n} = \frac{{ - 13.6}}{{{n^2}}}eV\)

356411 An electron rotates in a circle around a nucleus having positive charge \(Z e\). Correct relation between total energy \((E)\) of the electron to its potential energy \((U)\) is

356408 In Bohr's model of \({H}\)-atom, the kinetic energy of the electron in any orbit depends on the principal quantum number \({n}\) as

356409 In the Bohr's 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, \(e\) is the charge on electron and \(\varepsilon_{0}\) is the permittivity of free space, the speed of the electron is

356410 Assertion :
In hydrogen atom as \(n\) increases, energy level comes closer and closer.
Reason :
Energy of an electron in hydrogen atom is \({E_n} = \frac{{ - 13.6}}{{{n^2}}}eV\)

356411 An electron rotates in a circle around a nucleus having positive charge \(Z e\). Correct relation between total energy \((E)\) of the electron to its potential energy \((U)\) is