What is the typical approach to creating animations in vector graphics compared to raster images?
A). Vector graphics use paths and transformations for animations, raster images use frame-based animations
B). Raster images use paths and transformations for animations, vector graphics use frame-based animations
C). Both use frame-based animations for creating motion
D). Vector graphics use frame-based animations, raster images use paths and transformations
What is the primary characteristic of vector graphics?
A). Scalability
B). Photorealism
C). Color depth
D). Resolution dependency
Which file format is commonly associated with vector graphics?
A). SVG
B). JPEG
C). PNG
D). GIF
How does a vector graphic handle scaling compared to a raster image?
A). Vector graphics maintain quality when scaled up, raster images may become pixelated
B). Both maintain quality when scaled up equally
C). Raster images maintain quality, vector graphics may become pixelated when scaled up
D). Both may lose quality when scaled up equally
How does editing a vector graphic differ from editing a raster image?
A). Vector graphics can be edited without loss of quality
B). Raster images may lose quality with extensive edits
C). Both can be edited equally
D). Vector graphics require specialized software for editing
Which type of graphic is more suitable for designs requiring sharpness and clarity, such as logos and typography?
A). Vector
B). Raster
C). PNG
D). GIF
What is the primary disadvantage of raster images compared to vector graphics?
A). Loss of quality when scaled up
B). Larger file sizes
C). Limited color depth
D). Incompatibility with web browsers
What is the advantage of vector graphics in terms of file size?
A). Smaller
B). Larger
C). Variable
D). Equal
What happens to the quality of a raster image when it's scaled up?
A). It may become pixelated
B). It becomes sharper
C). It remains the same
D). It loses color depth
What is the primary difference between vector graphics and raster images in terms of representation?
A). Vector graphics use mathematical formulas to define shapes and colors, raster images use pixels arranged in a grid
B). Vector graphics use pixels arranged in a grid, raster images use mathematical formulas
C). Both use mathematical formulas for representation
D). Vector graphics represent colors in binary code, raster images use RGB values