What's the new C6 Corvette have over the last C5 model?

-Side impact air bags
-Dvd Navigation
-OnStar
-Xm satellite radio
-Friction caress on the road is larger
-Drivetrain can withstand more horsepower
-Brakes are heavier
-Lighter engine
-Lighter exterior
-5" shorter But longer wheelbase
-Open grill in front

"A Corvette is not about transportation, it's about thoughprovoking and fulfilling dreams"

Hood

The new Corvette was decided to boast a doing level of the current Z06 model. Chevrolet wanted the base model to be as qualified as their current 400 hp top of the line Z06. Along with this added horsepower, they wanted speed. Comfortable top speed in the 180 mph range. The easiest way to accomplish this was through reducing drag. But there were some problems. The new back tires were wider and the front has an open grill. That kills your drag coefficient in the wind tunnel testing. Also, the decision was made to go with integrated headlamps that were so small; they weren't even available for the team to use in the design. They had to be made new. The functional rear spoiler integrates the third brake light and there is a diffuser that directs air past the exhaust tips. The car was shortened by 5" increasing the chances of drag-induced turbulence at the end of the car. But not all was negative. The car was narrower and had lower ground clearance. The engineers not only tested this compose extensively (almost 500 hours in the wind tunnel), they tested some models to come out with the current rendition.

Weight also needed to be shed to gain further performance. Using more aluminum in the body structure was the biggest move Gm made to sell out weight. The car had new aluminum parts to brace the main frame to heighten crash worthiness. Also, the side impact beams were changed to aluminum instead of steel. The latching mechanism in doors was changed to an electronic version, which sheds weight, but also was new innovative technology. I conception they just added the new latches because they were real cool. The body panels were also changed to a distinct type of material. Fenders are made from distinct material than the bumpers and that's distinct from the hood. Gm looked at 5 distinct types of plastic composites. The main panels are made out of a polyester sheet-molding composition that is reinforced with fiberglass. The 15% smaller new hood is 35% lighter, but 40% stiffer. The neat thing about all this technical diagnosis is that they made the car lighter, shorter, but stiffer.

Let me tell you about the glass. The rear glass is pre-curved, as you know. But the area behind the mirror is flatter. This eliminates distortion from hot and cold days. The side mirrors also were redesigned to sell out wind noise. They look pretty much the same, but the team spent long hours in the wind tunnel just tweaking the side mirrors. The other neat highlight with the glass is the roof panel. The removable roof panel is polycarbonate, thermoset for the painted tops or transparent. It's the same tooling to make the panels, just distinct materials.

There's more to production the corvette fast and fun. That part is the engine. I'll account for some neat things the team did on this new Ls2 engine in my next article.

What's the new C6 Corvette have over the last C5 model?

Related : rockwellrk 9000 jawhorse

What's Icing a Cake Got to Do With Pixels and Resolution in Photoshop?

Tutorials on Photoshop are invariably involved with working directly on photographic images. Itsybitsy concentration is paid to explaining what is happening under the bonnet or hood. This record intends to elucidate all about pixels and resolution which make up digital images. The follow-up articles deal with 8 bit and 16 bit.

Computerized images are made up of pixels, which are small squares of digital facts with a colour value. The word pixel is an abbreviation of the expression 'picture element'. Pixels have no inherent size because their size will depend on the resolution of the image. With two files of the same dimensions, a file with a resolution of 150 pixels per inch will have larger pixels than a file of 300 pixels per inch.

Akdy Hood

The images in image-editing programmes are known as bitmap images, sometimes referred to as raster images. Drawing programmes, such as Illustrator and Freehand, create vector graphics which are created mathematically. Vector programmes are best mighty for type and strong graphics where sharp edges are required, because when an image is resized, a new mathematical calculation is made and capability is maintained.

When discussing a bitmap image, it should be referred to as pixels per inch (ppi) or pixels per centimetre (ppcm) - not dots per inch (dpi). The image file is made of pixels and the image on the screen is made of pixels. Respectable text books and magazines sometimes talk of dpi here but it is wrong and this term should be reserved for monitors and particularly for printing. In printing, dots of ink are laid down on paper and the two situations need to be distinguished.

So it's ppi for digital images and screen images, and dpi for prints.

The amount of pixels per inch needs to be related with the dimensions of the image in order to give the image resolution. The more data that is recorded by a digital camera or scanner, the higher will be the resolution of the image file. 300ppi in itself is not necessarily a higher resolution than 150ppi; it means nothing until the image dimensions are included.

An image of 150 ppi for an image size of 8" x 10" would be written: 8"x10" @ 150ppi, which is 1200 pixels x 1500 pixels or 20.3x25.4cm @ 60ppcm.

An image of 300 ppi for an image size of 8" x 10" would be written: 8"x10" @ 300ppi, which is 2400 pixels x 3000 pixels or 20.3x25.4cm @ 120ppcm.

In this example, 8x10 @ 300ppi is going to be a higher resolution than 8x10 @ 150ppi. However, 8x10 @ 150ppi will not be a lower resolution than 4x5 @ 300ppi. The two are exactly the same; they both have a file size of 5.16 megabytes (5.16 Mb). The 8x10 @ 150 file could be resized to make it 4x5 @ 300ppi and the two will look and reproduce exactly the same.

The connection of pixels to area might come to be clearer if we correlate it to tiling a floor. With tiles half a metre square, a floor area of 2 metres by 2 metres would require 16 tiles. An area of 4 metres by 4 metres would require 64 tiles - four times as many. Pixels and files sizes work the same way.

Files sizes are measured in kilobytes (Kb), megabytes (Mb) or very occasionally gigabytes (Gb).

8 bits make 1 byte;
1024 bytes make one kilobyte;
1000 kilobytes make one megabyte; (one million bytes make 1Mb)
1000 megabytes make one gigabyte; (one thousand million bytes make 1Gb).

As well as the resolution, how an image looks will also depend on the viewing distance. A small image might require a high resolution because it is viewed closely and hence examined more closely. A road billboard is likely to be of lower resolution because it is seen from a greater length and printed on quite a common screen. When an image is examined from a length closer than normal, the pixels come to be noticeable and the image is said to pixelate. Recommended file sizes for distinct outputs are discussed later.

A monitor screen also has a resolution, such as 800 x 600 or 1024 x 768, measured in pixels. If an image has a pixel dimension of 800 x 600 then it will fit on to a 800 x 600 screen whereas it will appear small on a screen set at 1024 x 768.

In Photoshop, double-clicking on the Zoom tool enlarges the image to 100% which means the pixels of the image will be matched with the pixels of the screen setting. A Pc monitor displays at 96ppi and a Mac monitor displays at 72ppi, although some of the newer Mac screens are at 100ppi.

A file of 300ppi @ 4" x 5" will have a pixel dimension of 1200 x 1500. When displayed at 100% on a 1024 x 768 monitor, the screen will not be able to show the whole image at once and Pc and Mac monitors will view the image slightly differently. This is why when designing a web site, all dimensions of images and text must be in pixels and not centimetres or inches, otherwise the layout will go haywire when viewed on the other platform.

Standard resolution of images for press printing is 300ppi, which virtually equates to 120pixels per cm. In actual fact 120ppcm is equal to 305ppi, but either is near enough. This allows printing at 150 lines per inch, which is determined thorough for most press printing.

So what's this got to do with icing a cake?
To elucidate how file size, resolution and image size work together, think about icing a cake.

A quantum of icing is the file size.

The size of the cake is the image size.

The thickness of the icing on the cake is the resolution.

1. Spread our quantum of icing over a small cake (50mm x 50mm) and we get a thickness of 40mm (a high resolution).

2. Spread that same quantum of icing over a larger cake (100mm x 100mm) and we get a thickness of 10mm (a much lower resolution).

3. The file size (our quantum of icing) is the same in both cases.

What's Icing a Cake Got to Do With Pixels and Resolution in Photoshop?

Recommend : Motorcycle Store video games Store