1
You visited us
1
times! Enjoying our articles?
Unlock Full Access!
Byju's Answer
Standard XII
Physics
Braking Radiation
An Alpha part...
Question
An Alpha particle is accelerated from rest through a potential of V volts its final kinetic energy
Open in App
Solution
Suggest Corrections
0
Similar questions
Q.
An alpha particle is accelerated through a potential difference of
10
6
volt. Its kinetic energy will be :
Q.
An
α
-particle has initial kinetic energy of 25 eV and it is accelerated through the potential difference of 150 volt. If a proton has initial kinetic energy of 25 eV and it is accelerated through the potential difference of 25 volt then find the approximate ratio of the final wavelengths associated with the proton and the
α
particle.
Q.
An
α
-particle is accelerated through a potential difference of V volts from rest. The De-Broglie's wavelength associated with it is:
Q.
A proton accelerated from rest through a potential difference of 'V' volts has a wavelength
λ
associated with it. An alpha particle in order to have the same wavelength must be accelerated from rest through a potential difference of:
Join BYJU'S Learning Program
Grade/Exam
1st Grade
2nd Grade
3rd Grade
4th Grade
5th Grade
6th grade
7th grade
8th Grade
9th Grade
10th Grade
11th Grade
12th Grade
Submit
Related Videos
Braking Radiation
PHYSICS
Watch in App
Explore more
Braking Radiation
Standard XII Physics
Join BYJU'S Learning Program
Grade/Exam
1st Grade
2nd Grade
3rd Grade
4th Grade
5th Grade
6th grade
7th grade
8th Grade
9th Grade
10th Grade
11th Grade
12th Grade
Submit
Solve
Textbooks
Question Papers
Install app