Science of NFL Football - Vectors

submitted by: nsf
"Science of NFL Football" is a 10-part video series funded by the National Science Foundation and produced in partnership with the National Football League. In this segment, NBC's Lester Holt looks at the role vectors play every time an NFL quarterback throws a pass. With the help of former NFL quarterback Joey Harrington, NSF-funded scientists Professor John Ziegert of Clemson University and Professor Rhonda Hughes of Bryn Mawr College explain how to use vectors to calculate the speed and...

Science of NFL Football - Projectile Motion & Parabolas

submitted by: nsf
"Science of NFL Football" is a 10-part video series funded by the National Science Foundation and produced in partnership with the National Football League. In this segment, NBC's Lester Holt looks at the science of projectile motion and parabolas with the help of former NFL punter Craig Hentrich. NSF-funded scientists Professor Jim Gates from the University of Maryland, Professor John Ziegert of Clemson University, and Professor Rhonda Hughes from Bryn Mawr College, explain the...

Science of NFL Football - Newton's Third Law of Motion

submitted by: nsf

"Science of NFL Football" is a 10-part video series funded by the National Science Foundation and produced in partnership with the National Football League. In this segment, NBC's Lester Holt breaks down Isaac Newton's Third Law of Motion and how energy transfers between football players who collide during a game. Professors Tony Schmitz of the University of Florida and Jim Gates of the University of Maryland explain why momentum can keep a player moving or stop them in their tracks.

Science of NFL Football - Kinematics

submitted by: nsf

In this segment, NBC's Lester Holt and former NFL running back Deuce McAllister explore kinematics on the playing field. NSF-funded scientists Tony Schmitz from the University of Florida and John Ziegert of Clemson University explain how the kinematic concepts of position, velocity and acceleration can be used to define how a running back moves.

Relative Primitives

submitted by: SirZerp
This video was made to test out a relativistic version of Direct Coulomb Summation and is intended to be displaying fields of different moving charge configurations. Coulomb’s Law is well defined and also that inverse square fields propagate at the speed of light is well known. Hence why not put both into the same equation. In general, the video uses Coulomb's law to compute an observational cube of data. The dataset is then sent to a ray tracer which produces the images in the...

SDSU Geological Sciences Webinar - Jared Kluesner

submitted by: tcarrasc
Geologic and Hydrologic Role of Sill Intrusion and Delineation of the Oceanic Crustal Boundary in the Central Gulf of California; Jared Kluesner, Marine Physical Laboratory, Scripps Institution of Oceanography: Geologic and Hydrologic Role of Sill Intrusion and Delineation of the Oceanic Crustal Boundary in the Central Gulf of California High-resolution multichannel profiles recently shot in the central Gulf of California display concordant and discordant (concave-upwards) sills intruded...

Space Week: Roving Mars, Part 2

submitted by: scivee-team

The journey of a Rover from its launch to its touchdown on Mars.How do you get a Rover to Mars? Here's the trip from launch to touchdown.

Strange Science: Superhuman Strength

submitted by: scivee-team

A Discovery Channel series segment of the science behind the superhuman strength displayed by body-builders and weight-lifters.How do some humans achieve superhuman strength? From a series by the Discovery Channel.