That depends on the position and focal length of the optical elements forming the image.
simplee yep
both according to the position of the image in front of the lensif placed in infiniity or beyond the centre of curvature the image will be small if placed between centre of curvatureand pole the image will be bigger in size
The image is unchanged in shape, size, position, and details, but its brightness (intensity) is reduced by half.
A concave mirror forms a virtual, magnified, right side up image.
Image position simply what is the position of your brand in the mind of the customers?. And it is created through product differentiation then the purpose of positioning is achieved.
To find the formula in which to check the concentricity and position of something then one must calculate the position. In order to calculate the position, think of it as a function of velocity.
Positive self image is basically what it says it is: Having a positive veiw of your image. Its a good thing to have!
compression ratio=uncompressed image size/compressed size
14, 6
pursuit of power, position and image
That depends on the position and focal length of the optical elements forming the image.
It can be measured as the ratio between two points in the image compared to the same two points in the pre-image.
Change in position and the time taken for the change in position.
they used the position of the sun and at night the position of the stars
f (image) = 2 * f (local oscillator) + fc ................. if f ( l.o ) > fc f (image) = 2* f (local oscillator) - fc
Image processing involves various operations on images. An image is a collection of pixels. Each pixel has its position and resolution.