That will depend on the settings such as bit depth and file format.
about 1.2 to 1.6 million pixels
pixels do not go into megabytes. Kilabytes do. There are 1024 kilabytes in one megabyte. 1024 megabytes in one gigabyte and 1024 gigabytes in one tetrabyte.
Pixels and megabytes are two completely different things, thus a comparison cannot be drawn.
No, MEGA PIXELS is how how good a camera is or stuff like that, while MB is a size of a computic file, good luck!
20,971,520 bytes = 20,480 kb = 20 mb= 0.01953 gb = 0.00002 tb
That can vary a LOT, depending on the video's size (height and width, in pixels), as well as its quality.
Approx 64 pics
It depends on the resolution of the picture - the number of pixels. At fairly high resolution only about 10 pictures.
I am not quite sure what you mean by "20X60 KB". File sizes are usually specified with a single number of KB or MB. In any case, the file size depends not only on the pixels, but also on the color depth, and compression options.
The size of 2 MB (megabytes) cannot be directly converted to height and width, as MB is a measure of data size, not physical dimensions. However, if you are referring to an image, the dimensions (height and width) depend on the image's resolution and color depth. For example, a 2 MB image could be 1920x1080 pixels or 640x480 pixels, depending on its format and compression.
The file size of an image in KB is dependent on various factors such as image format, compression, and content. As a rough estimate, a high-quality uncompressed image with 800 pixels could be around 1-2 MB in size. However, this can vary significantly based on the factors mentioned.
The amount of memory required depends not only on the number of pixels but on the details in which colours are stored.The amount of memory required depends not only on the number of pixels but on the details in which colours are stored.The amount of memory required depends not only on the number of pixels but on the details in which colours are stored.The amount of memory required depends not only on the number of pixels but on the details in which colours are stored.