Energy = Force x Distance travelled in direction of force. A lower force can output the same energy by working on the object over a longer distance.
As you increase the magnification, you decrease the working distance.
longer
the distance between the specimen and the objective lens
The steeper the slope, the longer the stopping distance is.
LPO typically has a longer working distance compared to HPO, as LPO is designed for lower magnification levels and wider field of view, requiring the lens to be farther away from the specimen to capture the image. HPO, being designed for higher magnification levels, typically has a shorter working distance to achieve higher resolution and magnification.
Your braking distance will be longer, and it'll be harder to control the car on a slippery surface.
Working distance is the distance between the front edge of the object lens and the specimen surface. Working distance decreases as the magnification and numerical aperture both increases.
Working distance or WD is the distance between each objective and the specimen, when precise focus of the specimen is obtained.
The working distance is the distance between the cover slip and the bottom of the housing fo the objective lens.
Energy = Force x Distance travelled in direction of force. A lower force can output the same energy by working on the object over a longer distance.
the working distance decreases as the magnification increases
As you increase the magnification, you decrease the working distance.
longer
6 feet is a longer distance.
the distance between the specimen and the objective lens
It is referred to as the working distance.