biology paper 1

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ThankfulKangaroo23377

Cards (226)

  • Microscopy
    The study of small objects using a microscope
  • Light microscope
    • First developed in the mid 17th century
    • Uses light to form an image
    • Can be used to view live specimens
    • Relatively cheap and easy to use
    • Can magnify up to 2,000 times
  • Resolution
    The ability to see two things as separate objects
  • Light microscope
    • Has a low resolution with a resolving power of around 200 nanometers
  • Electron microscope
    • Developed by scientists in the 1930s
    • Uses electrons to form an image
    • Specimens must be dead first
    • Very expensive and has many conditions
    • Can magnify up to 2 million times
    • Has a high resolution of 0.2 nanometers
  • The electron microscope is much better than the light microscope in terms of magnification and resolution
  • The high magnification and resolution of the electron microscope allows scientists to see and understand lots more about the subcellular structures of cells
  • Animal cell
    Contains a nucleus, cell membrane, cytoplasm, mitochondria, and ribosomes
  • Nucleus
    Controls the cell's activities and contains genetic material (DNA)
  • Cell membrane
    Responsible for controlling the passage of substances in and out of the cell
  • Cytoplasm
    Liquid gel that fills the entire cell and is where chemical reactions occur
  • Mitochondria
    Where aerobic respiration occurs to release energy for the cell
  • Ribosomes
    Site of protein synthesis
  • Plant cell
    Contains a nucleus, cell membrane, cytoplasm, mitochondria, ribosomes, chloroplasts, and a permanent vacuole
  • Chloroplasts
    Contain chlorophyll and are responsible for photosynthesis
  • Permanent vacuole
    Filled with cell sap to help keep the cell rigid
  • Cell wall
    Made of cellulose, strengthens and supports the plant cell
  • Animal and plant cells are both eukaryotic cells
  • Eukaryotic cells
    Have a cell membrane, cytoplasm, and genetic material enclosed in a nucleus
  • Prokaryotic cells
    Lack a true nucleus, have a single loop of DNA in the cytoplasm, and may have plasmids and a cell wall
  • Specialized cells
    Cells that have developed specific subcellular structures to carry out a particular function
  • Sperm cell
    • Has a tail to help it swim, a midpiece with many mitochondria to provide energy, an acrosome with digestive enzymes, and a large nucleus to contain DNA
  • Muscle cell
    • Has many mitochondria to release energy for contraction, special proteins that cause contraction, and can store glycogen
  • Nerve cell
    • Has a long axon to carry electrical impulses, dendrites to connect to other nerve cells, and nerve endings that release chemical messengers
  • Root hair cell
    • Has a large surface area for absorption, a large permanent vacuole to speed up osmosis, and many mitochondria for active transport
  • Xylem cell
    • Forms long hollow tubes with spirals of lignin to allow easy movement of water and minerals up the plant
  • Phloem cell

    • Has sieve plates to allow easy movement of dissolved food up and down the plant, and companion cells with many mitochondria to provide energy
  • Diffusion
    The spreading out of particles in a solution or gas from an area of higher concentration to an area of lower concentration
  • Diffusion is a passive process that does not require additional energy
  • Factors affecting rate of diffusion
    • Temperature (higher temperature increases rate)
    • Concentration gradient (steeper gradient increases rate)
    • Surface area (larger surface area increases rate)
  • Osmosis
    The diffusion of water molecules from a dilute solution to a more concentrated solution through a partially permeable membrane
  • Osmosis is a passive process that occurs down a concentration gradient
  • Osmosis is important in animal cells to maintain the right internal environment
  • Left side of the membrane
    Has more water molecules
  • Right side of the membrane
    Has less water molecules and more sucrose or solute molecules, therefore it is the concentrated side
  • Osmosis
    1. Occurs down a concentration gradient or from a dilute solution to a more concentrated solution
    2. Net movement of water is from the left side to the right side
    3. Water concentration will eventually be equal on both sides
    4. Water molecules will continue to move back and forth across the partially permeable membrane but there's no further net movement of water, the water is balanced on both sides
  • Importance of osmosis in animal cells
    • Ensures solutes like glucose and salts are at the right concentration inside the cell
    • The internal environment needs to be kept just right for the cell to work
    • The difference in concentration between the cell's internal environment and the external solution determines how much osmosis occurs
  • What happens when a red blood cell is put into a hypotonic solution
    Water moves into the cell, stretching it, and the cell may even burst if a lot of water moves in, killing the cell
  • What happens when a red blood cell is put into an isotonic solution
    Nothing happens, as the two solutions are the same, there is no net movement of water, no osmosis occurs
  • What happens when a red blood cell is put into a hypertonic solution
    Water moves out of the red blood cell and into the beaker, as the red blood cell solution is more diluted, the cell will shrink and not function properly