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![image of Water Entry of Projectiles: Supplemental Video 11 image of Water Entry of Projectiles: Supplemental Video 11](/docserver/fulltext//multimedia/10.1146/do.multimedia.2013.11.07.212/truscott_supvideo11.jpg)
Water Entry of Projectiles: Supplemental Video 11
A supplemental video from the 2014 review by Tadd T. Truscott Brenden P. Epps and Jesse Belden "Water Entry of Projectiles" from the Annual Review of Fluid Mechanics.
Water entry shown in Figure 7a.
![image of Water Entry of Projectiles: Supplemental Video 12 image of Water Entry of Projectiles: Supplemental Video 12](/docserver/fulltext//multimedia/10.1146/do.multimedia.2013.11.07.213/truscott_supvideo12.jpg)
Water Entry of Projectiles: Supplemental Video 12
A supplemental video from the 2014 review by Tadd T. Truscott Brenden P. Epps and Jesse Belden "Water Entry of Projectiles" from the Annual Review of Fluid Mechanics.
Water entry shown in Figure 7b.
![image of Water Entry of Projectiles: Supplemental Video 13 image of Water Entry of Projectiles: Supplemental Video 13](/docserver/fulltext//multimedia/10.1146/do.multimedia.2013.11.07.214/truscott_supvideo13.jpg)
Water Entry of Projectiles: Supplemental Video 13
A supplemental video from the 2014 review by Tadd T. Truscott Brenden P. Epps and Jesse Belden "Water Entry of Projectiles" from the Annual Review of Fluid Mechanics.
Water entry shown in Figure 7c.
![image of Water Entry of Projectiles: Supplemental Video 14 image of Water Entry of Projectiles: Supplemental Video 14](/docserver/fulltext//multimedia/10.1146/do.multimedia.2013.11.07.215/truscott_supvideo14.jpg)
Water Entry of Projectiles: Supplemental Video 14
A supplemental video from the 2014 review by Tadd T. Truscott Brenden P. Epps and Jesse Belden "Water Entry of Projectiles" from the Annual Review of Fluid Mechanics.
Water entry shown in Figure 8a top row.
![image of Water Entry of Projectiles: Supplemental Video 15 image of Water Entry of Projectiles: Supplemental Video 15](/docserver/fulltext//multimedia/10.1146/do.multimedia.2013.11.07.216/truscott_supvideo15.jpg)
Water Entry of Projectiles: Supplemental Video 15
A supplemental video from the 2014 review by Tadd T. Truscott Brenden P. Epps and Jesse Belden "Water Entry of Projectiles" from the Annual Review of Fluid Mechanics.
Water entry shown in Figure 8a bottom row.
![image of Water Entry of Projectiles: Supplemental Video 16 image of Water Entry of Projectiles: Supplemental Video 16](/docserver/fulltext//multimedia/10.1146/do.multimedia.2013.11.07.217/truscott_supvideo16.jpg)
Water Entry of Projectiles: Supplemental Video 16
A supplemental video from the 2014 review by Tadd T. Truscott Brenden P. Epps and Jesse Belden "Water Entry of Projectiles" from the Annual Review of Fluid Mechanics.
Water entry shown in Figure 8b top row.
![image of Water Entry of Projectiles: Supplemental Video 17 image of Water Entry of Projectiles: Supplemental Video 17](/docserver/fulltext//multimedia/10.1146/do.multimedia.2013.11.07.218/truscott_supvideo17.jpg)
Water Entry of Projectiles: Supplemental Video 17
A supplemental video from the 2014 review by Tadd T. Truscott Brenden P. Epps and Jesse Belden "Water Entry of Projectiles" from the Annual Review of Fluid Mechanics.
Water entry shown in Figure 8b bottom row.
![image of Water Entry of Projectiles: Supplemental Video 18 image of Water Entry of Projectiles: Supplemental Video 18](/docserver/fulltext//multimedia/10.1146/do.multimedia.2013.11.07.219/truscott_supvideo18.jpg)
Water Entry of Projectiles: Supplemental Video 18
A supplemental video from the 2014 review by Tadd T. Truscott Brenden P. Epps and Jesse Belden "Water Entry of Projectiles" from the Annual Review of Fluid Mechanics.
Impact shown in Figure 9 top row.
![image of Water Entry of Projectiles: Supplemental Video 19 image of Water Entry of Projectiles: Supplemental Video 19](/docserver/fulltext//multimedia/10.1146/do.multimedia.2013.11.13.220/truscott_supvideo19.jpg)
Water Entry of Projectiles: Supplemental Video 19
A supplemental video from the 2014 review by Tadd T. Truscott Brenden P. Epps and Jesse Belden "Water Entry of Projectiles" from the Annual Review of Fluid Mechanics.
Impact shown in Figure 9 center row.
![image of Water Entry of Projectiles: Supplemental Video 20 image of Water Entry of Projectiles: Supplemental Video 20](/docserver/fulltext//multimedia/10.1146/do.multimedia.2013.11.13.221/truscott_supvideo20.jpg)
Water Entry of Projectiles: Supplemental Video 20
A supplemental video from the 2014 review by Tadd T. Truscott Brenden P. Epps and Jesse Belden "Water Entry of Projectiles" from the Annual Review of Fluid Mechanics.
Impact shown in Figure 9 bottom row.
![image of Water Entry of Projectiles: Supplemental Video 21 image of Water Entry of Projectiles: Supplemental Video 21](/docserver/fulltext//multimedia/10.1146/do.multimedia.2013.11.13.222/truscott_supvideo21.jpg)
Water Entry of Projectiles: Supplemental Video 21
A supplemental video from the 2014 review by Tadd T. Truscott Brenden P. Epps and Jesse Belden "Water Entry of Projectiles" from the Annual Review of Fluid Mechanics.
Water entry shown in Figure 12a.
![image of Water Entry of Projectiles: Supplemental Video 22 image of Water Entry of Projectiles: Supplemental Video 22](/docserver/fulltext//multimedia/10.1146/do.multimedia.2013.11.13.223/truscott_supvideo22.jpg)
Water Entry of Projectiles: Supplemental Video 22
A supplemental video from the 2014 review by Tadd T. Truscott Brenden P. Epps and Jesse Belden "Water Entry of Projectiles" from the Annual Review of Fluid Mechanics.
Water entry shown in Figure 12b.
![image of Water Entry of Projectiles: Supplemental Video 23 image of Water Entry of Projectiles: Supplemental Video 23](/docserver/fulltext//multimedia/10.1146/do.multimedia.2013.11.13.224/truscott_supvideo23.jpg)
Water Entry of Projectiles: Supplemental Video 23
A supplemental video from the 2014 review by Tadd T. Truscott Brenden P. Epps and Jesse Belden "Water Entry of Projectiles" from the Annual Review of Fluid Mechanics.
Color video of a modified 0.22-caliber bullet entry.
![image of Water Entry of Projectiles: Supplemental Video 24 image of Water Entry of Projectiles: Supplemental Video 24](/docserver/fulltext//multimedia/10.1146/do.multimedia.2013.11.13.225/truscott_supvideo24.jpg)
Water Entry of Projectiles: Supplemental Video 24
A supplemental video from the 2014 review by Tadd T. Truscott Brenden P. Epps and Jesse Belden "Water Entry of Projectiles" from the Annual Review of Fluid Mechanics.
Color video of a standard 0.22-caliber bullet entry.
![image of Water Entry of Projectiles: Supplemental Video 25 image of Water Entry of Projectiles: Supplemental Video 25](/docserver/fulltext//multimedia/10.1146/do.multimedia.2013.11.13.226/truscott_supvideo25.jpg)
Water Entry of Projectiles: Supplemental Video 25
A supplemental video from the 2014 review by Tadd T. Truscott Brenden P. Epps and Jesse Belden "Water Entry of Projectiles" from the Annual Review of Fluid Mechanics.
Water entry shown in Figure 13.
![image of Fast Pressure-Sensitive Paint for Flow and Acoustic Diagnostics: Supplemental Video 2 image of Fast Pressure-Sensitive Paint for Flow and Acoustic Diagnostics: Supplemental Video 2](/docserver/fulltext//multimedia/10.1146/do.multimedia.2013.11.13.227/fl46_gregory_supvideo2.jpg)
Fast Pressure-Sensitive Paint for Flow and Acoustic Diagnostics: Supplemental Video 2
A supplemental video from the 2014 review by James W. Gregory Hirotaka Sakaue Tianshu Liu and John P. Sullivan "Fast Pressure-Sensitive Paint for Flow and Acoustic Diagnostics" from the Annual Review of Fluid Mechanics.
Anodized aluminum pressure-sensitive paint (AA-PSP) measurements of a microscale fluidic oscillator flow oscillating at 9.4 kHz. Note that the jet width is 325 μm and the length scale of the flow field is approximately 2 mm × 2 mm highlighting the spatial resolution characteristics of pressure-sensitive paint.
![image of Fast Pressure-Sensitive Paint for Flow and Acoustic Diagnostics: Supplemental Video 3 image of Fast Pressure-Sensitive Paint for Flow and Acoustic Diagnostics: Supplemental Video 3](/docserver/fulltext//multimedia/10.1146/do.multimedia.2013.11.13.228/fl46_gregory_supvideo3.jpg)
Fast Pressure-Sensitive Paint for Flow and Acoustic Diagnostics: Supplemental Video 3
A supplemental video from the 2014 review by James W. Gregory Hirotaka Sakaue Tianshu Liu and John P. Sullivan "Fast Pressure-Sensitive Paint for Flow and Acoustic Diagnostics" from the Annual Review of Fluid Mechanics.
Temperature-insensitive anodized aluminum pressure-sensitive paint (AA-PSP) pressure data on a 30° compression corner model at Mach 7.1. Despite strong time-varying temperature gradients in this short-duration flow the AA-PSP was able to faithfully reproduce the pressure distribution.
![image of Fast Pressure-Sensitive Paint for Flow and Acoustic Diagnostics: Supplemental Video 4 image of Fast Pressure-Sensitive Paint for Flow and Acoustic Diagnostics: Supplemental Video 4](/docserver/fulltext//multimedia/10.1146/do.multimedia.2013.11.13.229/fl46_gregory_supvideo4.jpg)
Fast Pressure-Sensitive Paint for Flow and Acoustic Diagnostics: Supplemental Video 4
A supplemental video from the 2014 review by James W. Gregory Hirotaka Sakaue Tianshu Liu and John P. Sullivan "Fast Pressure-Sensitive Paint for Flow and Acoustic Diagnostics" from the Annual Review of Fluid Mechanics.
Map of the power spectral density at 108 Hz from anodized aluminum pressure-sensitive paint (AA-PSP) data on a transonic civil aircraft wing at M = 0.875.
![image of Fast Pressure-Sensitive Paint for Flow and Acoustic Diagnostics: Supplemental Video 5 image of Fast Pressure-Sensitive Paint for Flow and Acoustic Diagnostics: Supplemental Video 5](/docserver/fulltext//multimedia/10.1146/do.multimedia.2013.11.13.230/fl46_gregory_supvideo5.jpg)
Fast Pressure-Sensitive Paint for Flow and Acoustic Diagnostics: Supplemental Video 5
A supplemental video from the 2014 review by James W. Gregory Hirotaka Sakaue Tianshu Liu and John P. Sullivan "Fast Pressure-Sensitive Paint for Flow and Acoustic Diagnostics" from the Annual Review of Fluid Mechanics.
Map of pressure coefficients on a rocket fairing model in unsteady transonic flow.
![image of A Lecture in Plant Biology: The Endodermis image of A Lecture in Plant Biology: The Endodermis](/docserver/fulltext//multimedia/10.1146/do.multimedia.2014.01.03.243/geldner.jpg)
A Lecture in Plant Biology: The Endodermis
Niko Geldner Assistant Professor of Plant Cell Biology at the University of Lausanne talks about his article "The Endodermis" which he wrote for the 2013 Annual Review of Plant Biology. The need for multicellular organisms to protect their inner extracellular space led the organisms to develop a diffusion barrier that can remain as selective as the hydrophobic plasma membrane of cells. In animal biology this barrier is known as the polarized epithelium which absorbs nutrients but keeps pathogens and excess away. In this lecture Dr. Geldner discusses the endodermis the plant variant of the polarized epithelium. Located on the plants' roots it has been a feature of ferns and angiosperms for approximately 400 million years.