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==Lenovo== ===KhronosGroup's COLLADA_to_gltf/COLLADA2GLTF-v2=== <ul> <li> ModelsB41C385<br /> Fundamentally this model is identical to the one developed earlier (and [[#b41c385|presented above]]) that shows how the ''DIRECT'' flow version of model "b41c385" appears when viewed from either the inertial or rotating reference frame: The ellipsoidal surface is purple [either translucent or opaque, as indicated]; the equatorial plane is identified by a series of small yellow markers; and 9 red markers depict the (slow, retrograde) Lagrangian motion of fluid elements that lie in the equatorial plane. <ul> <li> <font color="maroon">MultiFluidElements/MultiLagrange26.dae</font> [translucent purple] (05/28/2020) and <font color="orange">/output/MultiLagrange26.glb</font> (06/04/2020) — both files also copied (01/31/2021) to LSU physics website with filename … COLLADA/b41c385DirRotating. <table border="1" cellpadding="8" align="center" width="50%"><tr><td align="left"> <div align="center"><math>~b/a = 0.41~~~~~c/a = 0.385</math><br />'''<font color="red">DIRECT</font>''' flow - as viewed from '''<font color="red">ROTATING</font>''' frame</div> </td></tr></table> </li> </ul> <ul> <li> <font color="maroon">InertialFrame/Inertial34.dae</font> [opaque purple] (05/29/2020) and <font color="orange">/output/Inertial34.glb</font> (06/04/2020) — both files also copied (01/31/2021) to LSU physics website with filename … COLLADA/b41c385DirInertial. <table border="1" cellpadding="8" align="center" width="50%"><tr><td align="left"> <div align="center"><math>~b/a = 0.41~~~~~c/a = 0.385</math><br />'''<font color="red">DIRECT</font>''' flow - as viewed from '''<font color="red">INERTIAL</font>''' frame</div> </td></tr></table> </li> </ul> </li> </ul> <ul> <li> ModelsB90C333<br /> Fundamentally this model is identical to the one developed earlier (and [[#b90c333|presented above]]) that shows how the ''DIRECT'' flow version of model "b90c333" appears when viewed from either the inertial or a rotating reference frame: The ellipsoidal surface is purple [either translucent or opaque, as indicated]; the equatorial plane is identified by a series of small yellow markers; and 9 red markers depict the (slow, prograde) Lagrangian motion of fluid elements that lie in the equatorial plane. <ul> <li> <font color="maroon">FastRot79.dae</font> [translucent purple] (06/03/2020) and <font color="orange">/output/FastRot79.glb</font> (06/04/2020) — both files also copied (01/31/2021) to LSU physics website with filename … COLLADA/b90c333DirRotating. <table border="1" cellpadding="8" align="center" width="50%"><tr><td align="left"> <div align="center"><math>~b/a = 0.90~~~~~c/a = 0.333</math><br />'''<font color="red">DIRECT</font>''' flow - as viewed from '''<font color="red">ROTATING</font>''' frame</div> </td></tr></table> </li> </ul> <ul> <li> <font color="maroon">FastInertial80.dae</font> [opaque purple] (06/03/2020) — Also available is <font color="orange">../output/FastInertial80.glb</font> (06/04/2020) — both files also copied (01/31/2021) to LSU physics website with filename … COLLADA/b90c333DirInertial. <table border="1" cellpadding="8" align="center" width="50%"><tr><td align="left"> <div align="center"><math>~b/a = 0.90~~~~~c/a = 0.333</math><br />'''<font color="red">DIRECT</font>''' flow - as viewed from '''<font color="red">INERTIAL</font>''' frame</div> </td></tr></table> </li> </ul> </li> </ul> <ul> <li> ModelsB74C692<br /> Fundamentally this model is identical to the one developed earlier (and [[#b74c692|presented above]]) that shows how the ''DIRECT'' flow version of model "b74c692" appears when viewed from the rotating reference frame: The ellipsoidal surface is translucent (purple); the equatorial plane is identified by a series of small yellow markers; and 9 red markers depict the (slow, retrograde) Lagrangian motion of fluid elements that lie in the equatorial plane. <ul> <li> <font color="maroon">TestMulti74.dae</font> (06/03/2020) — Also available is <font color="orange">../output/TestMulti74.glb</font> (06/02/2020) <table border="1" cellpadding="8" align="center" width="50%"><tr><td align="left"> <div align="center"><math>~b/a = 0.74~~~~~c/a = 0.692</math><br />'''<font color="red">DIRECT</font>''' flow - as viewed from '''<font color="red">ROTATING</font>''' frame</div> </td></tr></table> </li> </ul> <ul> <li> <font color="maroon">InertialB74C692aa.dae</font> [opaque purple] (06/02/2020) <table border="1" cellpadding="8" align="center" width="50%"><tr><td align="left"> <div align="center"><math>~b/a = 0.74~~~~~c/a = 0.692</math><br />'''<font color="red">DIRECT</font>''' flow - as viewed from '''<font color="red">INERTIAL</font>''' frame</div> </td></tr></table> </li> </ul> </li> </ul> <ul> <li> (no subdirectory)<br /> Fundamentally this model is identical to the one developed earlier (and [[#b28c256|presented above]]) that shows how the ''DIRECT'' flow version of model "b28c256" appears when viewed from the inertial reference frame: The ellipsoidal surface is purple [either translucent or opaque, as indicated]; the equatorial plane is identified by a series of small yellow markers; and 9 red markers depict the (very slow, retrograde) Lagrangian motion of fluid elements that lie in the equatorial plane. <ul> <li> <font color="maroon">Pencil94.dae</font> [translucent purple surface] (06/04/2020) and <font color="orange">/output/Pencil94.glb</font> (06/04/2020) — both files also copied (01/30/2021) to LSU physics website with filename … COLLADA/b28c256DirRotating. <table border="1" cellpadding="8" align="center" width="50%"><tr><td align="left"> <div align="center"><math>~b/a = 0.28~~~~~c/a = 0.256</math><br />'''<font color="red">DIRECT</font>''' flow - as viewed from '''<font color="red">ROTATING</font>''' frame</div> </td></tr></table> </li> </ul> <ul> <li> <font color="maroon">PencilInertial96.dae</font> [opaque purple surface] (06/04/2020) and <font color="orange">/output/PencilInertial95.glb</font> (06/04/2020) — both files also copied (01/30/2021) to LSU physics website with filename … COLLADA/b28c256DirInertial. <table border="1" cellpadding="8" align="center" width="50%"><tr><td align="left"> <div align="center"><math>~b/a = 0.28~~~~~c/a = 0.256</math><br />'''<font color="red">DIRECT</font>''' flow - as viewed from '''<font color="red">INERTIAL</font>''' frame</div> </td></tr></table> </li> </ul> </li> </ul>
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