How correctly use Simple Variable Mass 3DOF (Body Axes) block?

4 views (last 30 days)
Leonardo Molino
Leonardo Molino on 11 Sep 2024
Commented: Leonardo Molino on 11 Sep 2024
Hello,
As in the title, I need to simulate an aircraft mission with varying mass. In the Aerospace Blockset, I've so found the Simple Variable Mass (3DOF). I have some problems in interpreting these inertia definitions:
  • Empty inertia Body inertia when fuel tank is full
  • 0.5 (default) | scalar
  • Body inertia when the fuel tank is full, specified as a double scalar.
and
  • Full inertia Full inertia
  • 3.0 (default) | scalar
  • Full inertia of the body, specified as a scalar.
My concerns involves the difference between Empty and full inertia. From the documentation, they seem to be the same. Can anyone help me?
Thanks.

Sign in to answer this question.

Accepted Answer

Vandit
Vandit on 11 Sep 2024
Hello Leonardo,
As per the documentation, let me clarify these definitions for you:
The term "Empty Inertia" refers to the body inertia of the aircraft when the fuel tank is full. On the other hand, "Full Inertia" refers to the body inertia when the fuel tank is empty.
The key difference between these two lies in how the mass is distributed within the aircraft. When the fuel tank is full, the center of mass is typically closer to the center of the aircraft, which results in a different moment of inertia compared to when the tank is empty. As fuel is consumed, the distribution of mass changes, affecting the aircraft's dynamics.
I hope this helps.
  1 Comment
Leonardo Molino
Leonardo Molino on 11 Sep 2024
Thank you for your answer. Within my specs, I've just BEW (basic empty weight) inertia. So I think this refers to Full inertia

Sign in to comment.

More Answers (0)

Categories

Find more on Aerospace Applications in Help Center and File Exchange

Tags

Products


Release

R2024a

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!