with your image resolution? Nothing happens it remains the same till you change it in Image Size dialog. Image > Image Size.. Magnification is for your convenience to see enlarged image nothing really happens to actual resolution of original image.
Cell organelles such as ribosomes, small vesicles, and some components of the cytoskeleton are not visible with a 400x microscope. These structures are smaller than the resolution limit of light microscopes at that magnification.
trx 400x
Magnification and resolution are both measures of the ability to distinguish fine details in an image. Higher magnification allows for larger images, while higher resolution allows for clearer, more detailed images. Both factors are important in microscopy and imaging techniques for observing small structures.
The magnification number is how close the image is magnified. EX: if the image is being magnified by 400x then it will be a more magnified (closer look) at the image then if it was being magnified by 100x
No, DNA molecules cannot be seen under a light microscope, even at magnifications as high as 400x. DNA is much smaller than the resolution limit of light microscopes, which is around 200 nanometers. Specialized techniques such as electron microscopy or fluorescence microscopy are needed to visualize DNA.
A 2013 honda trx 400x has a 60 horsepower Raptor 700s.
75 miles an hour is the top speed of a 2013 honda trx 400x
The 0-60 time for a 2013 honda TRX 400X is 6.1 sec.
400x gives the smallest field of view. The magnification of the instrument, and the field of view are inversely rational.
To find the new field of view at 400X magnification, you would divide the original field of view by the magnification increase factor (which is 10 in this case since you are going from 40X to 400X). So, 6000 um / 10 = 600 um. Therefore, the field of view at 400X magnification would be 600 micrometers.
The magnification in a binocular microscope is the product of the magnification of the eyepieces and the objective lenses. For example, if the eyepieces magnify the image by 10x and the objective lenses magnify by 40x, the total magnification would be 10 x 40 = 400x.
No, peroxisomes are generally not visible under standard light microscopy at 400X magnification. They are too small and require higher magnifications and specific staining techniques to be visualized.