Contrary to the myth on the internet, a cropped-sensor camera does not increase the focal length of any lens. Any\u00a0lens has a fixed focal length that does not depend on the camera the lens is mounted on. A 400mm lens is always a 400mm lens, whether it is mounted on an EOS-7D Mark II or an EOS-1DX Mark II or on a smaller sensor camera via an adaptor. Focal length is a property of the optics in the lens. The crop factor only refers to the sensor size. A 1.6X crop factor (also referred to as\u00a0APS-C) means the image sensor is about 1.6X smaller than the standard 35mm film on each side, or approximately\u00a022.5mm x 15mm. A Full-frame (FF) \u00a0(1.0X crop) sensor means the sensor is approximately 36mm x 24mm. The common sensor sizes are shown in the figure below (source:Wiki). The Canon EOS-7D Mark II uses an APS-C sensor that is roughly 2.6 times smaller than a full-frame sensor in the EOS 1D\/5D series (1.6 x 1.6 =2.56) as shown below.<\/p>\n
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![](\"https:\/\/upload.wikimedia.org\/wikipedia\/commons\/9\/95\/SensorSizes.svg\")
common image sensor formats (source: Wikipedia)<\/p><\/div>\n
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Because the cropped image sensor is smaller, it sees a smaller portion of the image projected by the lens. Let’s assume you are shooting an owl from 18 \u00a0yards away with a 500mm lens. The lens projects exactly the same image on the sensor plane of an APS-C camera\u00a0and a FF camera. But because the APS-C camera\u00a0has a smaller sensor, the image it captures is “cropped” relative to the image captured by the FF camera. The APS-C sensor has a narrower field of view (FOV).<\/p>\n
![\"\"](\"http:\/\/arihazeghiphotography.com\/blog\/wp-content\/uploads\/2017\/02\/compare-projection.jpg\")
<\/a>Projected image with a 500mm lens in a full-frame (left) and an APS-C camera (right) camera. There is no difference in the projected images. The crop sensor sees a smaller portion of the projected image because it is smaller. That’s what the sensor is called “cropped”.<\/p><\/div>\n
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The image recorded by each sensor is shown below.<\/p>\n
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<\/a>The image captured by a FF sensor compared to an APS-C sensor.<\/p><\/div>\n
In order to get the\u00a0same FOV with the FF camera, you can simply crop the FF image in Photoshop. But which image will have more pixels? You might think the\u00a0image from the APS-C\u00a0sensor. But that is incorrect! The correct answer depends on the pixel size<\/em>. If the APS-C\u00a0and the FF sensors have the same pixel size the cropped image from the FF sensor and the native image\u00a0\u00a0from the APS-C sensor will have exactly the same number of pixels.\u00a0But if the APS-C sensor has smaller pixels, it will have more pixels than the cropped image of the FF camera. If the FF sensor has smaller pixels than the APS-C sensor, it will have more pixels on the bird after cropping. This is illustrated\u00a0graphically below, pixels have been drawn very large for better visibility. Note that post cropping the FF image, both images will have exactly the same depth-of-field (DOF).<\/p>\n A:FF and APS-C sensor with same size pixels. (e.g. EOS 7D Mark II and the EOS-5DS R which have roughly the same size pixels). Both images will have same number of pixels on the owl.<\/p>\n <\/p>\n B: FF sensor with larger pixels than the APS-C sensor. \u00a0(e.g. EOS-1D X Mark II and the EOS-7D Mark II). Image from the FF sensor will fewer pixels on the owl.<\/p>\n <\/p>\n C: FF sensor with smaller pixels . (e.g. EOS-5D S R and the EOS-50D). Image from the FF sensor will have more pixels on the owl.<\/p>\n <\/p>\n<\/a><\/p>\n<\/a><\/p>\n