cells : principles and applications of science
cell membrane - controls what moves in and out of the cell
mitochondria - where aerobic respiration takes place
cytoplasm - where most of the chemical reactions take place
nucleus - contains genetic information
nuclear membrane - movement of particles in and out of the cell
starch grains - stores starch
first names in 1609
first cells observed in 1665 which were cork plant cells (dead)
first living cells observed around 1674 - 1683 (living cells)
nucleus first observed in 1831
universal cell theory 1839
evidence for new cells generated from existing cells in 1892
it has two lens,objective and eyepiece
the objective lens is placed closed to the specimen
the eyepiece is the lens through which specimen is viewed
both lens magnify the same
calculations
eye piece = x10 or x20
objective lens = x4,x10,x40,x100
[formula = eye piece x objective] ⭐
a transition light microscope forms an image from the light passing through the specimen
specimen must be thin
magnification
%%[magnification = measured size of the image / actual size of the object]%%⭐
growth
reproduction
releases energy
nutrition
excretion
sensitivity
movement
made up of cells
cells and tissues
types of tissues
structures found within cells
function of structures found within cells
difference between type of cell
cell membrane - controls what moves in and out of the cell
mitochondria - where aerobic respiration takes place
cytoplasm - where most of the chemical reactions take place
nucleus - contains genetic information
nuclear membrane - movement of particles in and out of the cell
starch grains - stores starch
first names in 1609
first cells observed in 1665 which were cork plant cells (dead)
first living cells observed around 1674 - 1683 (living cells)
nucleus first observed in 1831
universal cell theory 1839
evidence for new cells generated from existing cells in 1892
it has two lens,objective and eyepiece
the objective lens is placed closed to the specimen
the eyepiece is the lens through which specimen is viewed
both lens magnify the same
calculations
eye piece = x10 or x20
objective lens = x4,x10,x40,x100
[formula = eye piece x objective] ⭐
a transition light microscope forms an image from the light passing through the specimen
specimen must be thin
magnification
%%[magnification = measured size of the image / actual size of the object]%%⭐
growth
reproduction
releases energy
nutrition
excretion
sensitivity
movement
made up of cells
cells and tissues
types of tissues
structures found within cells
function of structures found within cells
difference between type of cell