How would I calculate the g's felt?

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To calculate the g's felt during acceleration, centripetal acceleration should be divided by gravitational acceleration (g), with the baseline being 1 g when at rest. Adding 1 is unnecessary unless calculating resultant g's from both horizontal and vertical accelerations, which involves using the Pythagorean theorem. A forum user seeks help with a homework problem involving designing a rotating space station to simulate gravity, needing to find the required rotational speed and the g's felt by a jogging astronaut. The solution involves determining centripetal acceleration based on the jogger's speed and the station's rotation. Understanding the relationship between linear and angular speed is crucial for accurate calculations.
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How would I calculate the g's felt? I thought it was centripetal acceleration divided by gravitational acceleration, then you add 1, is this right at all??
 
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Why do you want to add 1?
 
I don't know I saw it on another website I didn't understand it, that's kinda why I am asking on the forum to see if it was right??
 
Depends on what you are after. If you want lateral, or horizontal g's from sideways acceleration, then it is just centripetal acceleration divided by g. The number of g's you feel with no acceleration is 1, straight down, but I'm guessing that's not what you are after. On the slight chance that you want to know the resultant number of g's due to a horizontal acceleration and vertical weight, it is given by Pythagorus: Square root of (1 plus the square of (the centripetal acceleration divided by g)).
 
I had a question on my HW, but my professor has yet to go over g's and the textbook I have has absolutely nothing about them neither. The question asks:

You want to design a large, permanent space
station so that no arti¯cial gravity is neces-
sary. You decide to shape it like a large coffee
can of radius 303 m and rotate it about its
central axis.
The acceleration of gravity is 9:8 m=s2 :
What rotational speed would be required to
simulate gravity? Answer in units of rad=s.
***
I know I how to do the previous part but I have not clue as the how to do the second part.
***
If an astronaut jogged in the direction of the
rotation at 3:9 m=s, how many g's would he
feel?
 
Originally posted by SsUeSbIaEs
I know I how to do the previous part but I have not clue as the how to do the second part.
In the first part you were given the acceleration and had to find the speed. This second problem is the reverse: Given the speed of the jogger, find the acceleration. krab told how to do it: find the centripetal acceleration and divide by g.

Realize that you are given the speed of the jogger relative to the space station. Don't forget to add in the speed of the space station itself, which you determined in part one. (Also: angular speed X radius = linear speed.)
 
Thanks, that helps A LOT!
 

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