Biology Paper 1

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Created by
Onur Arslan

Subdecks (4)

Cards (148)

  • How can cell size be calculated
    Can be calculated by knowing the magnification of the microscope: Magnification = Image size / Object size
  • Cell types

    • Eukaryotic cells (have a nucleus)
    • Prokaryotic cells (no nucleus, DNA in a ring called a plasmid)
  • Eukaryotic and prokaryotic cells

    • Contain similar organelles or subcellular structures
  • Cell membrane
    • Keeps everything inside the cell, semi-permeable to allow certain substances to pass through
  • Plant cells and most bacteria
    • Have an extra cell wall made of cellulose, providing a rigid structure
  • Cytoplasm
    The liquid that makes up the cell, where most chemical reactions take place
  • Mitochondria
    • Where respiration takes place, releasing energy for the cell to function
  • Ribosomes
    • Where proteins are assembled or synthesized
  • Plant cells
    • Contain chloroplasts with chlorophyll, where photosynthesis takes place
    • Contain a permanent vacuole to store sap
  • Bacterial multiplication

    1. Binary fission, number doubles every 10 minutes
    2. Can be demonstrated through a practical using agar in a Petri dish and aseptic technique
  • Diploid cells

    Cells with 23 pairs of chromosomes (e.g. human cells)
  • Haploid cells
    Cells with 23 single chromosomes (e.g. gametes)
  • Cell division

    Mitosis: Genetic material is duplicated, number of ribosomes and mitochondria is doubled, nucleus breaks down, chromosomes are pulled to opposite sides, new nuclei form in the two identical cells
  • Cell specialization

    • Cells specialize to fulfill different functions (e.g. nerve, muscle, root hair, xylem, phloem, stem cells)
  • Stem cells
    Unspecialized cells that can differentiate into various cell types, found in embryos and bone marrow
  • Diffusion
    The movement of molecules or particles from an area of high concentration to an area of low concentration, down the concentration gradient, without requiring energy input
  • Osmosis
    The diffusion of water across a semi-permeable membrane, from an area of high water concentration (low solute concentration) to an area of low water concentration (high solute concentration)
  • Factors affecting diffusion and osmosis rates

    Increased concentration difference, temperature, or surface area
  • Practical on osmosis

    Cut equal-sized vegetable cylinders, weigh, place in varying sugar solutions, reweigh after a day, calculate percentage change in mass, plot against sugar concentration to find the concentration with no change (same as inside the cells)
  • Active transport

    The movement of substances through a membrane against a concentration gradient, using energy
  • Tissues
    Groups of similar cells connected and working together
  • Organs
    Groups of tissues working together to perform a specific function
  • Organ systems
    Groups of organs working together (e.g. circulatory, digestive)
  • Digestion
    Stomach acid breaks down food, bile and enzymes in small intestine further break down food for absorption
  • Enzymes
    Biological catalysts that break down larger molecules into smaller ones, specific to certain substrates due to the lock-and-key principle
  • Factors affecting enzyme activity

    Increased temperature and optimal pH, but can denature at extreme temperatures or pH
  • Practical on enzyme activity

    Mix amylase with starch at different temperatures or pH, time how long it takes for all starch to be broken down, plot a curve to find the optimum temperature or pH
  • 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 to occur in cells
  • Respiratory system
    • Air moves down trachea, bronchi, bronchioles to alveoli where gas exchange occurs, oxygen binds to hemoglobin in red blood cells, carbon dioxide is exhaled
  • Circulatory system
    • Double circulatory system, deoxygenated blood enters right side of heart, goes to lungs to be oxygenated, then returns to left side of heart to be pumped to body, arteries carry oxygenated blood, veins carry deoxygenated blood
  • Coronary arteries
    Supply the heart muscle with oxygen and nutrients
  • Cardiovascular disease

    Non-communicable disease caused by factors within the body, e.g. coronary heart disease, faulty heart valves
  • Coronary artery
    Delivers blood to the heart muscle to supply oxygen
  • Coronary heart disease (CHD)

    Occurs when coronary arteries are blocked by fatty deposits, causing a heart attack
  • Stent
    A small tube 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
  • Cardiovascular (CV) disease

    An example of a non-communicable disease, caused by factors within the body
  • Examples of non-communicable diseases

    • Cardiovascular disease
    • Autoimmune conditions
    • Cancer