2.4 mm All kidding aside: the 3.5mm lens has a wider angle than the 6mm one. This means that in a picture, you will see a larger area with the 3.5mm lens, but with the 6mm lens you'd see more (sharper) detail.
FUN ANSWER: About 2.4 mm.
How precise do you want to get? Precision method... Calculate the diagonal of the camera's film image. Compare the lens focal length to that to get your answer. Example for 35mm camera with 50mm lens: film image is 24x36; diagonal is square root of (24*24 + 36*36) = 43.267 (remember Pythagorean theorem)? Ratio is 50/43.267 = 1.156. Thus, 50mm lens magnifies image 1.156 times. This is negligible, hence most people consider the 50mm lens to be "normal" for 35mm cameras. Simple method, same camera & lens: 100 mm lens produces 2x magnification (100/50) I hope you're not asking because you wish to relate this to telescopes or binoculars. That is a subject I'm not familiar with, and I suspect the field of view for those devices has to be considered. Hope my answer gives you what you needed.
it depends how sharp the picture is but with a good body and lens and film and a steady shot it should be no problem to print it on A0 posterformat, but if you want to be shure take the negative to a good photoshop and let tem analyse if a poster A0 size will be sharp
35MM cameras were the most popular type of camera before digital cameras came into popularity. The definition of a 35MM camera is one which uses film which measures 35MM.
South Carolina
I can tell you it was really expensive. When the SX-70 camera came out (the first Polaroid that didn't require you peel the film apart after it developed), the film was almost $7 for ten shots. 35mm film, by comparison, was about $4 for a 36-exposure roll.
The difference between 36 and 24 is 12.
36 - 12 = 24
54
36
Any 35 mm film camera or digital camera, usually a Digital Single Lens Reflex (D_SLR) that uses a 24 mm by 36 mm area on film or which has an image sensor (CCD, CMOS, or other) to form the image.
Any 35 mm film camera or digital camera, usually a Digital Single Lens Reflex (D_SLR) that uses a 24 mm by 36 mm area on film or which has an image sensor (CCD, CMOS, or other) to form the image.
The difference between 365 and 36 is 329. Add 70 is 399.
fifty-eight 36 + 58 = 94
36, as 325 - 289 = 36.
In digital cameras, full frame usually refers to a Digital Single-lens Reflex camera with a sensor roughly the same size as a 35mm film frame (36 x 24mm).
How precise do you want to get? Precision method... Calculate the diagonal of the camera's film image. Compare the lens focal length to that to get your answer. Example for 35mm camera with 50mm lens: film image is 24x36; diagonal is square root of (24*24 + 36*36) = 43.267 (remember Pythagorean theorem)? Ratio is 50/43.267 = 1.156. Thus, 50mm lens magnifies image 1.156 times. This is negligible, hence most people consider the 50mm lens to be "normal" for 35mm cameras. Simple method, same camera & lens: 100 mm lens produces 2x magnification (100/50) I hope you're not asking because you wish to relate this to telescopes or binoculars. That is a subject I'm not familiar with, and I suspect the field of view for those devices has to be considered. Hope my answer gives you what you needed.
36 - 24 = 12 and a 1/4 of this is 3