a level biology

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    Created by
    Madi Orkney

    Cards (1739)

    • Organelles found in both plant and animal eukaryotic cells
      • Nucleus
      • Cell surface membrane
      • Mitochondria
      • Ribosomes
      • Golgi apparatus
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    • Organelles found only in plant eukaryotic cells

      • Chloroplasts
      • Cell wall
      • Vacuole
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    • Nucleus
      • Where chromosomes are located
      • Enclosed by a nuclear envelope
      • Controls the cell's activity
      • Contains the nucleolus where ribosomes are produced
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    • Cell surface membrane
      • Made up of lipids and proteins
      • Controls movement of things in and out of the cell
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    • Mitochondria
      • Have a double membrane
      • Highly folded inner membrane
      • Site of enzymes involved in respiration and ATP production
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    • Ribosomes
      • Small structures where proteins are made
      • Can be found on the rough endoplasmic reticulum or in the cytoplasm
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    • Golgi apparatus
      • Fluid-filled membrane
      • Produces and transports new lipids and proteins
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    • Chloroplasts
      • Site of photosynthesis
      • Have a double membrane
      • Contain thylakoid membranes
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    • Cell wall
      • Ensures cell structure is maintained
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    • Vacuole
      • Contains sap
      • Helps maintain cell shape and structure by maintaining pressure
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    • Rough endoplasmic reticulum
      • Site of protein synthesis and processing
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    • Smooth endoplasmic reticulum
      • Site of lipid synthesis and processing
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    • Lysosomes
      • Contain digestive enzymes
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    • Cytoplasm

      • Where most cell reactions take place
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    • Eukaryotic cells have physical adaptations to maximise diffusion, such as microvilli and concave shapes
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    • Cells adapted for storage can have large lipid stores or vacuoles
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    • Secretory cells are adapted to have large Golgi apparatuses and rough endoplasmic reticulum
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    • Cells with high energy requirements are adapted to have many mitochondria
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    • Cells with high active transport requirements are adapted to have many channel and carrier proteins, as well as increased ribosomes
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    • Structures found in prokaryotic cells

      • Cytoplasm
      • Ribosomes
      • Cell surface membrane
      • Cell wall
      • Flagella
      • DNA (not in nucleus)
      • Plasmid DNA
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    • Millimeter
      1/1000 of a meter
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    • Micrometer
      1/1000 of a millimeter
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    • Nanometer
      1/1000 of a micrometer
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    • To convert between millimeters, micrometers and nanometers, multiply by 1000 to go up a scale, and divide by 1000 to go down a scale
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    • Differences between optical and electron microscopes
      • Optical microscopes use light, electron microscopes use electrons
      • Optical microscopes can view living specimens, electron microscopes require fixed specimens
      • Optical microscopes have lower maximum magnification, electron microscopes have higher maximum magnification
      • Optical microscope images are in colour, electron microscope images are black and white
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    • Optical microscope
      • Has eyepiece, base with light source, course and fine focus, objective lenses, stage to hold slide
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    • Electron microscope
      • Uses electromagnets to focus electron beam, has screen to view images, requires dedicated room with air conditioning
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    • Magnification
      Size of image / Actual size of object
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    • When calculating magnification, convert all measurements to the same scale (e.g. micrometers)
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    • Biological drawings
      • Use sharp pencil
      • Include scale
      • Use clear continuous lines
      • No shading
      • Include title
      • Accurate and labelled
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    • Covalent bonding
      Sharing of electrons between two non-metals
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    • Ionic bonding
      Transfer of electrons from metal to non-metal, forming positive and negative ions
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    • Hydrogen bonding
      Weak attraction between opposite dipoles
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    • Water is a polar, bent molecule with hydrogen bonding between the slightly positive hydrogens and slightly negative oxygen
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    • Hydrogen bonding in water is responsible for its cohesion, surface tension, high specific heat capacity, and suitability as a solvent
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    • Hydrogen bonds

      Occur between molecules of water, individually weak but collectively very important
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    • Water
      • Polar
      • Hydrogen bonds involved in a wide range of condensation and hydrolysis reactions
      • Large amount of energy required to break hydrogen bonds, so water is liquid at room temperature
      • Responsible for cohesion and surface tension
      • High specific heat capacity helps regulate temperature
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    • Water as a solvent
      • Can attract and dissolve ionic compounds
      • Can form hydrogen bonds with polar molecules like glucose
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    • Important inorganic ions
      • Sodium ions (Na+)
      • Phosphate ions (PO4 3-)
      • Hydrogen ions (H+)
      • Iron ions (Fe2+, Fe3+)
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    • Monomer
      Single unit that can be joined together to form a polymer
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