[Intro]
Some say it put’s a spin….
[Break]
I’m listening
[Verse 1]
It’s funny how some people put a spin on things
Look! There goes a pig with wings
Flying in lying
But, that ain’t what I’m talkin’ ’bout
Reroute
Vortices (is is is is)
Especially, a vortex that wrecks
[Break]
Wipe out!
[Break]
[Chorus]
Get ready to roll
Vortex control
Don’t be such a drag
No, don’t let your flow sag
[Break]
Get it under control
[Bridge]
and, get ready to roll
[Instrumental]
[Break]
Shout out:
[Break]
Wipe out!
[Break]
[Verse 2]
Introspection: Vortex Interaction
Twist it out
Twist and shout
Indeed, we bleed
… depending on the flow…
[Bridge]
Let me know
[Instrumental]
[Chorus]
Get ready to roll
Vortex control
Don’t be such a drag
No, don’t let your flow sag
[Break]
Get it under control
[Bridge]
And, get ready to roll….
[Verse 3]
Da, da, da, dynamics
Our behavior, the notion of motion
Whether we’ll merge together
Causing fa, fa, fa, phenomena lift
If you catch my drift
[Chorus]
Get ready to roll
Vortex control
Don’t be such a drag
No, don’t let your flow sag
[Break]
Get it under control
[Bridge]
And, get ready to roll….
[Outro]
This is Vortex Control
Come in, Manned
What’s the position of The Mission?
[Break]
Beep
[Break]
Beep
[End]
[Silence]
A SCIENCE LESSON
Vortex physics deals with the study of vortices, which are swirling flows of fluid or gas characterized by a rotating motion around a central axis. The main components of vortex physics include:
- Vortex Formation: Vortices can form in various ways, such as through the interaction of fluid flow with obstacles or changes in fluid density. Common examples include the vortex created behind an object moving through a fluid, like the wake behind a boat, or the vortex generated by the rotation of a propeller.
- Vortex Dynamics: Vortex dynamics refers to the behavior and motion of vortices over time. This includes phenomena such as vortex shedding, where vortices are periodically shed from a solid object in a fluid flow, and the interactions between vortices, which can lead to complex flow patterns.
- Vortex Structures: Vortices can take on different structures depending on the flow conditions and the properties of the fluid. Common vortex structures include vortex rings, vortex sheets, and vortex lines. These structures can exhibit various characteristics, such as stability, coherence, and turbulence.
- Vortex Interactions: Vortices can interact with each other and with their surrounding environment in complex ways. For example, vortices can merge together to form larger vortices or break apart into smaller vortices. They can also interact with solid surfaces, causing phenomena like lift and drag in aerodynamics.
- Vortex Control: Understanding and controlling vortices is important in many practical applications, such as fluid dynamics, aerodynamics, and weather prediction. Researchers study methods for manipulating vortices to achieve desired outcomes, such as reducing drag on vehicles or enhancing mixing in industrial processes.
Overall, vortex physics encompasses a wide range of phenomena related to the formation, dynamics, structures, interactions, and control of vortices in fluid and gas flows. It plays a crucial role in understanding natural phenomena, engineering applications, and environmental processes.