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Download 1.2 microscopes and cell parts
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Transcript
1.2 Microscopes allow us to see inside the cell. Light microscope • In a light microscope, lenses are used to bend light and make objects appear bigger than they are. Scanning Electron Microscope • (SEM) The scanning electron microscope uses electrons to form a three-D image of the surface of a cell. Transmission Electron Microscope • (TEM) The transmission electron microscope uses electrons which pass through the cell to produce a two dimensional image of the inside of the cell. • Scanning electron microscopes and transmission electron microscopes can not be used on live specimens. Micrometer • One millionth of a meter. Cytoplasm • A thick gelatin-like material contained within the cell membrane. • Most of the work of the cell is carried out in the cytoplasm. Cell Membrane • The outer boundary of the cytoplasm. • A layer that controls what enters or leaves the cell. • A protective covering enclosing the entire cell. Eukaryotic Cell • A cell in which the genetic material is enclosed within the nucleus, surrounded by its own membrane. Nucleus • The structure in a eukaryotic cell that contains the genetic material a cell needs to reproduce and function. • The control center of the cell that directs all the cell’s activities. Organelle • A structure in a cell that is enclosed by a membrane that performs a certain function. Prokaryotic Cell • A cell that lacks a nucleus and other organelles, with DNA that is not organized into chromosomes. Cell Wall • A protective outer covering that lies just outside the cell membrane of plant cells. Chloroplasts • An organelle in a plant cell that contains chlorophyll, a chemical that uses the energy from sunlight to make sugar. Mitochondria • The powerhouse of the cell. • Organelle that releases energy to break down sugars. Endoplasmic Reticulum • Folded membranes in the cytoplasm that transport substances made by the cell. Ribosomes • Structures in the cytoplasm that make proteins from amino acids. Golgi Apparatus (bodies) • Organelles that deliver substances released by the endoplasmic reticulum. Vacuoles • These structures include storage rooms. • Some vacuoles store water for future use while some store wastes until they are removed from the body. Lysosome • Digest large particles within the cell. Nuclear Membrane • The semi-permeable membrane that separates the nucleus from the cytoplasm. Nucleolus • A small structure within the nucleus which is involved in producing proteins. Chromosomes • Structures made of nucleic acids (DNA and RNA) and proteins made up of genes * The most obvious difference between a plant and animal cell is the size of the vacuoles. Plant cells have a large central vacuole, which still acts as a storage area. • Plant cells also have a thick firm boundary called the cell wall. • The cell wall supports and protects the cell. • The ability to make its own food is one of the most • Important plant life processes as well as a major difference between plant and animal cells. • In the cytoplasm of a plant cell are many small green structures called chloroplasts. • Chloroplasts contain molecules of chlorophyll which allows a plant cell to make its own food.
