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sarah siv

Subdecks (3)

Cards (522)

  • Microscopes
    Normal light microscope can see cells and nucleus, electron microscope can see subcellular structures in more detail
  • Calculating cell size
    1. Measure image size
    2. Divide by magnification
  • Eukaryotic cells
    Have a nucleus containing DNA
  • Prokaryotic cells
    Do not have a nucleus, DNA is in a ring called a plasmid
  • Cell structures
    • Cell membrane
    • Cell wall (plant cells and bacteria)
    • Cytoplasm
    • Mitochondria
    • Ribosomes
    • Chloroplasts (plant cells)
  • Bacterial binary fission
    1. Number doubles every 10 minutes
    2. Practical: Grow culture on agar plate using aseptic technique
    3. Calculate culture size from area or initial drop
  • Diploid cells
    Have 23 pairs of chromosomes
  • Haploid cells
    Have 23 single chromosomes
  • Mitosis
    1. Genetic material duplicated
    2. Nucleus breaks down
    3. Chromosomes pulled to opposite sides
    4. New nuclei form
  • Specialised cell types
    • Nerve
    • Muscle
    • Root hair
    • Xylem
    • Phloem
  • Stem cells
    Unspecialised cells that can differentiate into various cell types
  • Diffusion
    Movement of molecules/particles from high to low concentration, down concentration gradient, passive process
  • Osmosis
    Diffusion of water across a semi-permeable membrane
  • Practical: Osmosis
    1. Cut potato cylinders
    2. Weigh and place in sugar solutions
    3. Reweigh after a day
    4. Calculate percentage change in mass
    5. Plot against sugar concentration to find no change point
  • Active transport
    Using energy to move substances against a concentration gradient
  • Digestive system processes
    • Acid in stomach
    • Bile and enzymes in small intestine
    • Emulsification of fats
  • Enzymes
    Biological catalysts that are specific to certain substrates, work on a lock and key principle
  • Practical: Enzyme activity
    1. Mix amylase and starch
    2. Test for starch every 10 seconds with iodine
    3. Plot time taken for starch breakdown against temperature or pH
    4. Find optimum conditions
  • the function of the small intestine is to absorb nutrients from food
  • Food tests
    • Iodine for starch
    • Benedict's solution for sugars
    • Biuret's reagent for proteins
    • Ethanol for lipids
  • Breathing vs respiration
    Breathing provides oxygen for respiration in cells
  • Gas exchange in lungs
    1. Air moves down trachea, bronchi, bronchioles to alveoli
    2. Oxygen diffuses into blood, carbon dioxide diffuses out
  • Circulatory system
    Double circulatory system, deoxygenated blood enters right side of heart, oxygenated blood leaves left side
  • Heart structure
    Right atrium and ventricle, left atrium and ventricle, valves to prevent backflow
  • Blood vessels
    Arteries carry oxygenated blood away from heart, veins carry deoxygenated blood towards heart, capillaries allow diffusion
  • Coronary arteries supply the heart muscle with oxygen
  • Cardiovascular disease

    Non-communicable disease caused by internal factors, e.g. coronary heart disease, blocked arteries
  • Coronary artery
    Delivers blood to the heart muscle to supply oxygen
  • Heart attack
    Occurs when coronary arteries are blocked by buildup of fatty deposits, causing coronary heart disease (CHD)
  • Stents
    Little tubes inserted into blood vessels to keep them open and allow blood flow
  • Statins
    Drugs that reduce cholesterol and fatty deposits
  • Faulty heart valves
    Result in backflow, can be replaced with artificial ones
  • Blood
    Carries plasma, red blood cells, white blood cells (combat infections), and platelets (clot wounds)
  • Cardiovascular disease (CVD)

    An example of a non-communicable disease, caused by factors within the body
  • Examples of non-communicable diseases
    • Cardiovascular disease
    • Autoimmune conditions
    • Cancer
  • Communicable disease
    Caused by a pathogen (virus, bacteria, fungus, or parasite) that enters the body
  • Carcinogen
    Anything that increases the risk of cancer
  • Benign cancer
    Doesn't spread through the body, relatively easy to treat
  • Malignant cancer

    Cancerous cells spread through the body, much worse
  • Leaves
    Where photosynthesis takes place, producing food for the plant