Dn2 Submit DEqual to1274times of the velocity of light Submit D12 Submit Calculate the number of waves by a Bohr electron in one complete revolution in its third orbit. View Solution Find out the number of waves made by a Bohr's electron in one complete revolution in its3rdorbit. ...
To solve the problem, we need to calculate the velocity of the electron in the first Bohr orbit of the hydrogen atom and then calculate the velocity of the electron in the third orbit of the He⁺ ion.Step 1: Calculate the velocity of
Consider Bohr theory for hydrogen atom. The magnitude of angular momentum, orbit radius and velocity of the electron in nth energy state in a hydrogen atom are l, r and v respectively. Find out the value of x if product of v, r and l is directly proportional to ...
As fig. 3 also shows, there are two 14 15 non-adiabatic routes by which H2O+( A~ ) molecules can dissociate to ground state H + OH+ 16 17 products, both of which are favoured by linear (or near-linear) geometries. One involves spin- 18 19 orbit coupling to the ~a 4B1(4A") ...
The energy of an electron in the nth Bohr orbit of hydrogen atom is A−13.6n4eV B−13.6n3eV C−13.6n2 eV D−13.6n eVSubmit The energy of an electron in second Bohr orbit of hydrogen atom is : A−5.44×10−19eV B−5.44×10−19cal C−5.44×1−19KJ D−5.44×10...
Calculate the enegry of an electron in the first Bohr orbit if a hydrogen atom. Strategy: Use Eq. to obtain directly the energy of the lowest stationary state (or ground state). View Solution Calculate the velocity of an electron in the first Borh's orbit of hydrogen atom (givenr=a0) ...
The velocity of an electron in the first Bohr orbit of hydrogen atom is2.19×106ms−1. Its velocity in the second orbit would be View Solution Free Ncert Solutions English Medium NCERT Solutions NCERT Solutions for Class 12 English Medium ...
The energy of an electron in second Bohr orbit of hydrogen atom is : A−5.44×10−19eV B−5.44×10−19cal C−5.44×1−19KJ D−5.44×10−19JSubmit The energy of an electron in the nth Bohr orbit of hydrogen atom is A−13.6n4eV B−13.6n3eV C−13.6n2 eV D−...
To solve the question, we need to analyze the relationship between the velocity and time period of an electron in the nth stable orbit.1. Understand the Concepts: - The velocity (v) of an electron in the nth orbit is given b