robert hooke
robert hooke
robert hooke
When viewed through a microscope, things appear to move in the opposite direction than they are really moving. If you move an object to the right, it appears to move left. The lenses of the microscope reverse the image.
The term "animalcules" was first used by Antonie van Leeuwenhoek, a Dutch scientist, who observed them in the 17th century when examining a drop of pond water under a microscope. He used this term to describe tiny, animal-like organisms that he saw moving in the water.
In physics, the Coriolis effect is a deflection of moving objects when they are viewed in a rotating reference frame.
To better follow moving objects under a microscope, try adjusting the focus and magnification settings, using a higher frame rate camera to capture faster movements, and ensuring proper lighting and contrast for clear visibility. Additionally, practice adjusting the stage and keeping your hands steady to track the moving object effectively.
The stage clip is used to hold the slide in place on the stage of the microscope during observation. It helps to prevent the slide from moving or shifting while the specimen is being viewed under the lens.
The Coriolis effect is the appearance of objects to change direction when they are viewed in a rotating field. As the Earth is constantly rotating, this causes moving objects to move clockwise in the Northern Hemisphere and counterclockwise in the Southern.
Dictionary.com says: optokinetic op·to·ki·net·ic (ŏp'tō-kə-nět'ĭk, -kī-)adj.Relating to the occurrence of twitchings or movements of the eye when moving objects are viewed.
A Transmission Electron Microscope
yes moving objects have impulse
All moving objects have Momentum.