AI Mentor

Check Your IQ

Free Expert Demo

Try Test

Courses

Dropper NEET Course Dropper JEE Course Class - 12 NEET Course Class - 12 JEE Course Class - 11 NEET Course Class - 11 JEE Course Class - 10 Foundation NEET Course Class - 10 Foundation JEE Course Class - 10 CBSE Course Class - 9 Foundation NEET Course Class - 9 Foundation JEE Course Class -9 CBSE Course Class - 8 CBSE Course Class - 7 CBSE Course Class - 6 CBSE Course

Offline Centres

The radius of the first permitted Bohr orbit for the electron, in a hydrogen atom equals 0.53 Å and its ground state energy equals –13.6 eV. If the electron in the hydrogen atom is replaced by a muon $(μ^{-})$ [charge is the same as that of an electron and mass is 207 m_e], then the first Bohr radius and ground state energy will be
[Assume the nucleus to be stationary]

see full answer

Your Exam Success, Personally Taken Care Of

1:1 expert mentors customize learning to your strength and weaknesses – so you score higher in school , IIT JEE and NEET entrance exams.

An Intiative by Sri Chaitanya

0.53 × 10^–13 m, –3.6 eV

25.6 × 10^–13 m, –2.8 eV

2.56 × 10^–13 m, –2.8 eV

2.56 × 10^–13 m, –13.6 eV

answer is C.

(Unlock A.I Detailed Solution for FREE)

Best Courses for You

JEE

NEET

Foundation JEE

Foundation NEET

CBSE

Detailed Solution

$r \propto \frac{1}{m}; E \propto m$

$r_{1} = \frac{m_{e}}{207 m_{e}} \times 0.53 \overset{o}{A} = 2.56 \times 10^{- 13} m$

$E_{1} = \frac{207 m_{e}}{m_{e}} (- 13.6 eV) = - 2.8 keV$

Watch 3-min video & get full concept clarity

courses

No courses found

Result Producing online coaching for JEE/NEET of south India

Largest All India Test Series for JEE/NEET

Best Online Course for IIT JEE

Best Online Course for NEET

Best Online Course for CBSE

Ready to Test Your Skills?

Check your Performance Today with our Free Mock Test used by Toppers!

Take Free Test

Get Expert Academic Guidance – Connect with a Counselor Today!