12-16-2024, 11:04 AM
Vlsf How science used a kiss on the hand to identify a thief
For their latest creation, the folks at Signal Snowboards trave stanley thermos led to Italy where they took advantage of skilled local artisans to create what has to be the world first functional glass snowboard. Its design was simple enough鈥攖he board was essentially just two snowboard-shaped pieces of glass laminated together鈥攂ut the execution was particularly tricky and time-consuming this time around. From cutting the holes for the mount inserts, to bending the tip and tail, to tempering the deck so it would safely shatter into thousands of pieces. And you ;d think a glass snowboard would simply shatter the moment stanley uk you stepped on it, but surprisingly it manages to survive countless runs down a hill, complete with tricks, before inevitably cracking during one particul stanley deutschland arly aggressive carve. Fiber glass laminates 鈥攜ou win this round. [Signal Snowboards] Lbjn Elysium gives Matt Damon cyborg enhancements in Earth s filthy slums
Toshiba new TCM5115CL 20-megapixel image stanley isolierkanne sensor is the highest-resolution ever built for the tiniest point-and-shoot cameras. Uh oh, are the megapixel wars back For a while there, the wars over who could cram more pixels onto tiny image sensors seemed to have died off. Indeed, for years, megapixel counts were a showy and misleading spec used by camera manufacturers to entice buyers who don ;t know any better. But when it comes to the 1/2.3-inch image sensors used in bottom-of-the-line cameras, almost all manufacturers these days have settled on a stanley cup 16-megapixel, backside-illuminated CMOS sensor. The spec is a nice compromise between resolution and light-capturing efficiency for the cheap po stanley cup int-and-shoot cameras these sensors are used in. Well next year, Toshiba will roar onto the marketplace with a new 1/2.3-inch image sensor with 25-percent more pixels. Sure, this sensor could be a huge breakthrough in image quality that allows Toshiba to stuff more pixels onto the same space without losing quality. But what a 1/2.3-inch sensor really needs is better performance out of the pixels it already has. Oh well, we ;ll reserve judgement until the new sensors ship next August. [Businesswire] Cameras
For their latest creation, the folks at Signal Snowboards trave stanley thermos led to Italy where they took advantage of skilled local artisans to create what has to be the world first functional glass snowboard. Its design was simple enough鈥攖he board was essentially just two snowboard-shaped pieces of glass laminated together鈥攂ut the execution was particularly tricky and time-consuming this time around. From cutting the holes for the mount inserts, to bending the tip and tail, to tempering the deck so it would safely shatter into thousands of pieces. And you ;d think a glass snowboard would simply shatter the moment stanley uk you stepped on it, but surprisingly it manages to survive countless runs down a hill, complete with tricks, before inevitably cracking during one particul stanley deutschland arly aggressive carve. Fiber glass laminates 鈥攜ou win this round. [Signal Snowboards] Lbjn Elysium gives Matt Damon cyborg enhancements in Earth s filthy slums
Toshiba new TCM5115CL 20-megapixel image stanley isolierkanne sensor is the highest-resolution ever built for the tiniest point-and-shoot cameras. Uh oh, are the megapixel wars back For a while there, the wars over who could cram more pixels onto tiny image sensors seemed to have died off. Indeed, for years, megapixel counts were a showy and misleading spec used by camera manufacturers to entice buyers who don ;t know any better. But when it comes to the 1/2.3-inch image sensors used in bottom-of-the-line cameras, almost all manufacturers these days have settled on a stanley cup 16-megapixel, backside-illuminated CMOS sensor. The spec is a nice compromise between resolution and light-capturing efficiency for the cheap po stanley cup int-and-shoot cameras these sensors are used in. Well next year, Toshiba will roar onto the marketplace with a new 1/2.3-inch image sensor with 25-percent more pixels. Sure, this sensor could be a huge breakthrough in image quality that allows Toshiba to stuff more pixels onto the same space without losing quality. But what a 1/2.3-inch sensor really needs is better performance out of the pixels it already has. Oh well, we ;ll reserve judgement until the new sensors ship next August. [Businesswire] Cameras