Hadley Cell

AIR

water

WARM

warm

COOL

cool

ROTATING

rotating

2 squared: timer, notes, check. [alternate alignmentsizing: smaller, more traditional 'search icon' logic, but with handle pointing into ground twrd earth center; do away with 'latitude band' re-representations all together. way too distracting.] ALIGNMENT VARIATIONS (earthside) Polar air indicator (soft purple?)*(would create as fragment preface).. would tie into the co-rotating frame.. {{{if not, could align blue cold indicator with it? nix}}} Cold. Cool. Warm. Hot.. Aligned with outer edge cross section. Left side. Right side. {requires little into-page tilting, can represent truest Latitude variation..} Aligned with central earth axis. {might appear interesting, clear latitude depiction, the handles would be pointing straight "up"} Aligned with armiture. {the armiture would then have a purpose for being oriented that way.. could cue into textual labels for values. would require some tilting into the page to make the view windows 'drop' below the armiture into the atmosphere.} Are multiple instances distracting? what does all three/four look like? LAST Color cue the tanks relative to the color codes at left. There may be some "in-between" colors that are suggested by way of the parcel zone selects being in the middle of annuluses, and annuluses having an inner and outer extreme. Let this build the next page's temperature gradient and established color-standards for the in-between.

COOLING
ambient warm

net-
cool
WARMING

( ) lab frame xyz, rotating frame uvw or theta, r, z. [ ] remove overview on camera with first fragment, make it appear with the second fragment / remove it and make it a single time sweep/enlarge on reveal [ ] swap sides of overhead and angle view, cameras, correspondingly. [Tank: cartoon wobble lines for rotation indication] X [Scale: switch sides of 'measure' from outside (inertial frame) to inside (rotating frame)] [Tank:it's still, above angle and tilt angle iso orthonormals, these may combine into an axo] // dropping copies of a object (if not easy, make the drop points already fixed) versus painting the trails color. "We'll show you this again after" {gizmo bar has either (green dye, red dye, permanganate, particle tracks)} "lil' real lab frame from last slide"

tracer	short time	long time
particles	free surface u	free surface v
dyeblob	interior u,v	interior w
crystals	vertical u	bottom u,v,w

Calculating Radial Heat Flux in Hadley Cell experiment Thermal Wind Balance

$\begin{aligned} \frac{\partial u_g}{\partial z} = \frac{\alpha g}{f}\hat{z} \times \nabla{T} \\ \end{aligned}$

$\begin{aligned} \frac{\partial u_g}{\partial z} = -\frac{g}{f \rho_0}\hat{z} \times \nabla{\rho} \\ \end{aligned}$

$\begin{aligned} u_g = \frac{1}{\rho f} \times \nabla{p} \\ \end{aligned}$

$\begin{aligned} R_0 = \frac{u}{fL} \\ \end{aligned}$

Experiment I. SLOW-ROTATION (@ 1 RPM)

Particle Track Computations

Temperature Data

cooled core A B C D E warmer circumference


315K	potential temperature [θ]	/cyan\ isosurface		denser fluid	-5°C
+40 m/s	west-to-east [u] jet flow	(blue) isosurface		u flow cyclonic (CCW)	+2.5 cm/s
5 m/s interval	+ into the page	\|white\| contours		u (cyclonic) positive	.5 cm/s interval
5 m/s interval	- out of the page	\|red\| contours		u (anticyclonic) negative	.5 cm/s interval
Climate IDV - Polar Fronts and Jets Perpetual Ocean (2005-2007)			Fronts Experiment: Cylinder Collapse - Virtual Lab Curious Properties of Rotating Fluids

Experiment I. SLOW-ROTATION (@ 1 RPM)

Particle Track Computations

Temperature Data

cooled core A B C D E warmer circumference

Experiment II. FAST ROTATION (@ 10 RPM)

Particle track data SET 1

Temperature Data

cooled core A B C warmer circumference