Calculating G-Force at A and B in 8'X4'X4' Box with 300Kg Weight

[A...]

According to the attached picture, is it theoretically possible to measure the G-Force pulled in A and B (taking that A and B are at respectively the very top and the very bottom of the box)? If it is possible, what would be the formula ( I don't want the answer, because it is all hypothetical, i just want the formula)?
Caracteristics:
- the head of the device spins at 20 RPM
- the size of the box is 8'X4'X4'
- the diameter of the head of the device is 2'
- The diameter of the outer ring of the device is 10'
- the pipes holding the boxe are 15'
- the device is 15' high from base to top
- the box weighs 300Kg

Outside Factors:
- there is no wind

Thanks for your help
Max

 

[Valerie Park]

imeIt is not possible to measure the G-force pulled in A and B using the information provided. Without knowing the exact forces acting on the box, it is not possible to calculate the G-force.

 

[sir-pinski]

Based on the given information, it is theoretically possible to calculate the G-force at points A and B in the 8'X4'X4' box with a 300kg weight. The formula for calculating G-force is:

G = (ω^2 * r) / g

Where:
G = G-force
ω = angular velocity (in radians per second)
r = radius from the center of rotation to the point of interest
g = acceleration due to gravity (9.8 m/s^2)

In this case, the angular velocity (ω) can be calculated by converting the 20 RPM to radians per second using the formula:

ω = (2π * RPM) / 60

The radius (r) can be determined by subtracting the radius of the head of the device (1') from the radius of the outer ring (5').

Assuming point A is at the very top of the box and point B is at the very bottom, the radius for point A would be 4' (15' - 11') and the radius for point B would be 1' (15' - 14').

Plugging in the values, the formula for calculating G-force at point A would be:

G at A = [(2π * 20/60)^2 * 4'] / 9.8 m/s^2

And the formula for calculating G-force at point B would be:

G at B = [(2π * 20/60)^2 * 1'] / 9.8 m/s^2

Please note that the units for angular velocity and radius should be consistent (either in radians or meters) in order to get the correct result.

It is important to keep in mind that this is a theoretical calculation and may not accurately reflect the actual G-force experienced in this scenario. Other factors such as friction and air resistance may also affect the G-force measurement.