Yes, plant and animal cells are typically viewed under a microscope because they are too small to be seen with the naked eye. Microscopes allow scientists to observe and study the structures and organelles within these cells in detail.
A nerve cell is likely to not continue to divide.
Cells are typically placed on a glass slide before being viewed under a microscope. The glass slide provides a stable and transparent surface for the cells to be observed. A cover slip is often placed on top of the cells to protect them and to help focus the microscope's lenses on the sample.
In cells where they are present chloroplasts look like small green dots inside the cell when viewed with a microscope.
Nerve cells typically do not continue to divide once they are fully formed. Unlike skin cells and epithelial cells that undergo continuous division for repair and maintenance, nerve cells have limited regenerative capacity. Once nerve cells are damaged or lost, they are not easily replaced, which contributes to the challenges of nerve regeneration in the body.
A microscope.
Yes, plant and animal cells are typically viewed under a microscope because they are too small to be seen with the naked eye. Microscopes allow scientists to observe and study the structures and organelles within these cells in detail.
Matthias Schleiden viewed plant cells under a microscope and observed that all plants are composed of cells, which led to the formulation of the cell theory.
Blood cell morphology refers to the size and shape of blood cells when viewed under a microscope.
A nerve cell is likely to not continue to divide.
Cells are typically placed on a glass slide before being viewed under a microscope. The glass slide provides a stable and transparent surface for the cells to be observed. A cover slip is often placed on top of the cells to protect them and to help focus the microscope's lenses on the sample.
No.
In cells where they are present chloroplasts look like small green dots inside the cell when viewed with a microscope.
An Electron Microscope is used to study the contents of a nucleus.
because the state inhibits it.
Nerve cells typically do not continue to divide once they are fully formed. Unlike skin cells and epithelial cells that undergo continuous division for repair and maintenance, nerve cells have limited regenerative capacity. Once nerve cells are damaged or lost, they are not easily replaced, which contributes to the challenges of nerve regeneration in the body.
Robert Hooke first viewed cells with a microscope. He began calling them cells because they resembled the cells in which monks lived and worked.