Analysis of Aircraft Container Collision w/ AH & PL

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In summary, the question is asking for the range of values for dimensions G and Z that would result in a collision between an aircraft container and an aircraft hold. G refers to the horizontal distance between the end of the platform lift and the end of the aircraft hold, while Z is the vertical distance between the top surfaces of the two structures. The total height of the aircraft hold is given as 169.5 cm.
  • #1
ANON222
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Homework Statement


There is an aircraft container, platform lift (PL) and aircraft hold (AH). I need to know the range of dimension, G and Z that will cause the aircraft container to collide with the aircraft hold.

Homework Equations

The Attempt at a Solution


https://autonline.aut.ac.nz/bbcswebdav/pid-3257647-dt-content-rid-6092051_4/institution/Papers/766022/Publish/Mech%26Dy%202015%20Assignment.pdf
 
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  • #2
ANON222 said:

Homework Statement


There is an aircraft container, platform lift (PL) and aircraft hold (AH). I need to know the range of dimension, G and Z that will cause the aircraft container to collide with the aircraft hold.

Homework Equations

The Attempt at a Solution


https://autonline.aut.ac.nz/bbcswebdav/pid-3257647-dt-content-rid-6092051_4/institution/Papers/766022/Publish/Mech%26Dy%202015%20Assignment.pdf
The link to your solution attempt requires a username and password to access. :frown:
 
Last edited by a moderator:
  • #3
upload_2015-6-3_20-14-24.png
the pink rectangle is the platform lift and the red rectangle is the Aircraft Hold. G is the horizontal distance between the end of the platform lift facing the aircraft hold and the end of the aircraft hold facing the platform lift. Z is the vertical distance between the top surface of the platform lift and the top surface of the Aircraft Hold. The total height of the Aircraft hold is 169.5 cm
Apologies for the earlier link.
 

FAQ: Analysis of Aircraft Container Collision w/ AH & PL

What is the purpose of analyzing aircraft container collision with AH & PL?

The purpose of this analysis is to understand the potential hazards and risks associated with aircraft container collisions, specifically with the aircraft's horizontal stabilizer (AH) and pylon (PL). This information can be used to improve safety measures and prevent such accidents from occurring.

What factors are considered in this analysis?

The analysis takes into account various factors such as the size and weight of the aircraft and containers, their positioning on the aircraft, the speed and trajectory of the aircraft, and the materials and structure of the AH and PL.

What are the potential consequences of a container collision with AH & PL?

The consequences can range from damage to the aircraft and its components, potential injuries to passengers and crew, and even catastrophic accidents that could result in loss of life. The analysis helps to identify these potential consequences and evaluate their severity.

How is the data collected for this analysis?

The data is collected through various means such as computer simulations, real-life incidents, and physical testing. This data is then analyzed and used to create models and scenarios to understand the potential outcomes of a container collision with AH & PL.

What are some potential solutions or preventative measures that can be implemented based on this analysis?

Based on the analysis, recommendations can be made to improve safety measures such as better container positioning, reinforcing the AH and PL structures, and implementing warning systems for pilots. The analysis can also inform future aircraft design and construction to reduce the likelihood of such accidents occurring.

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