Today I tried to determine the actual mm's of Canon 100-400 II and hence the level of focus breathing.
I determined the horizontal field of view at 1, 2, 3, 4, 5, 10 and 20 meters (distance subject to sensor). It was a quick and dirty method so the error of measure is rather cm's than mm's
.
This is what I got:
Distance (meters) - Horizontal field of view (meters)
1 - 0.118
2 - 0.207
3 - 0.301
4 - 0.394
5 - 0.487
10 - 0.945
20 - 1.87
From this I calculated the angle of view and further the actual mm's. This is what I got:
Distance (meters) - actual mm's
1 - 305
2 - 348
3 - 358
4 - 365
5 - 370
10 - 380
20 - 384
When I extrapolate the data to 100 m distance, I get 388 mm, so we're probably getting close to 400 mm at infinity.
First time I've done this type of calculation (I am a chemist, I am used to do math on concentrations, molecules and atoms, not optics), so please feel free to check the math and correct me if I am wrong.
Cheers,
Mario
I determined the horizontal field of view at 1, 2, 3, 4, 5, 10 and 20 meters (distance subject to sensor). It was a quick and dirty method so the error of measure is rather cm's than mm's
.This is what I got:
Distance (meters) - Horizontal field of view (meters)
1 - 0.118
2 - 0.207
3 - 0.301
4 - 0.394
5 - 0.487
10 - 0.945
20 - 1.87
From this I calculated the angle of view and further the actual mm's. This is what I got:
Distance (meters) - actual mm's
1 - 305
2 - 348
3 - 358
4 - 365
5 - 370
10 - 380
20 - 384
When I extrapolate the data to 100 m distance, I get 388 mm, so we're probably getting close to 400 mm at infinity.
First time I've done this type of calculation (I am a chemist, I am used to do math on concentrations, molecules and atoms, not optics
), so please feel free to check the math and correct me if I am wrong.Cheers,
Mario
