Calculating Neutron Velocity in a Neutron Velocity Selector - Help Needed!

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In a neutron velocity selector, the angular speed is 1000 revolutions per minute, equating to approximately 105 radians per second. The angular separation between the slots in the discs is 3 seconds of arc, which is a small fraction of a revolution. The calculation shows that it takes 1/(7200000) seconds for the disc to rotate through this angle while the neutron travels 1 meter. Consequently, the velocity of the neutrons passing through the system is calculated to be 7200000 m/s. This highlights the relationship between angular speed, distance, and neutron velocity in the selector setup.
mcolem
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Angular Speed Question, Please Help!

I have this question I am stuck on and I don't understand and need help:

In a neutron velocity selector, two thin discs of a neutron absorbing material are rigidly mounted on a shaft 1 meter apart and rotated with constant angular speed of 1000 revolutions per minut. There is a slot in each disc and the angular separation between slots is 3 seconds of arc. What would be the velocity of the neutrons which pass through this system?
 
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3 seconds of arc is what fraction of a revolution? (1 revolution = 360 degrees.)
 
I know that 1000 rev/min is about 105 radians/second. The frequency is 16.7 Hz and the time would be 0.0599 seconds. But, I don't know how to find the angle.
 
Start by answering my question. Look it up if you have to.
 
Doc Al said:
3 seconds of arc is what fraction of a revolution? (1 revolution = 360 degrees.)
It would be 50 revolutions every 3 seconds.
 
"seconds of arc" is a measure of angle, not time:

1 revolution = 360 degrees
1 degree = 60 minutes (of angle)
1 minute = 60 seconds (of angle)
 
So, if one revolution is 360 degrees and 1 degree is 60 minutes, then 3 seconds would be 3 seconds/3600 seconds = 8.333e-4 degrees?
 
mcolem said:
I have this question I am stuck on and I don't understand and need help:

In a neutron velocity selector, two thin discs of a neutron absorbing material are rigidly mounted on a shaft 1 meter apart and rotated with constant angular speed of 1000 revolutions per minut. There is a slot in each disc and the angular separation between slots is 3 seconds of arc. What would be the velocity of the neutrons which pass through this system?
I don't quite know what formula to use. Is it V= omega x radius or arc length= velocity x time? Do I add the velocity of both discs or is it just on velocity?
 
By the time the neutron travels from one disc to the other, the disc should have rotated by 3 seconds.(Here 1 second = 1/3600 degrees.)
The disc makes 1000 revs. per min. which implies it rotates at the rate of 6000 deg. per sec. i.e. 6000*3600 seconds(angle) per sec.
Therefore it takes 1/(7200000) secs. to rotate 3 by seconds.In this time it travels 1m.Therefore its velocity is 7200000 m/s.
 

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