B3

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Mo

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Cards (62)

  • Puberty
    The period during which adolescents start to develop secondary sexual characteristics
  • Secondary sexual characteristics

    • Facial hair in men
    • Breasts in women
  • Reproductive hormones
    Hormones that trigger puberty, including testosterone in men and oestrogen in women
  • Testosterone is produced in the testes and stimulates sperm production
  • Oestrogen is produced by the ovaries
  • Menstrual cycle

    1. Menstruation
    2. Uterus lining building up
    3. Ovulation
    4. Maintaining uterus lining
  • The average length of a menstrual cycle is around 28 days but varies between people
  • Menstruation
    The period of bleeding that normally lasts about 4 days and is due to the breakdown of the uterus lining
  • Uterus lining building up

    Lasts around 10 days up to day 14, preparing the uterus lining for a fertilized egg
  • Ovulation
    The release of an egg from one of the ovaries, occurring on a single day
  • Maintaining uterus lining

    Stretches from day 14 to day 28, maintaining the uterus lining if no fertilized egg has implanted
  • If a fertilized egg implants, the menstrual cycle stops as the woman becomes pregnant
  • Oestrogen
    Produced in the ovaries, stimulates the growth of the uterus lining
  • Progesterone
    Produced in the ovaries, maintains the lining of the uterus
  • Luteinizing hormone (LH)

    Produced in the pituitary gland, stimulates the release of the egg during ovulation
  • Follicle stimulating hormone (FSH)

    Produced in the pituitary gland, stimulates the maturation of an egg in the ovaries
  • FSH stimulates the ovaries to produce oestrogen

    As oestrogen levels increase, they start to inhibit FSH (negative feedback)
  • High oestrogen levels
    Stimulate the release of LH, causing ovulation
  • Progesterone
    Inhibits both LH and FSH
  • Thermoregulation
    The control of our internal body temperature
  • Why we need to regulate temperature

    • Allows our cells to function properly
    • 37 degrees Celsius is the perfect temperature for our enzymes to function
  • Thermoregulatory sensor

    Part of the hypothalamus within our brain that acts as a thermostat for our body
  • Receptors that detect changes in body temperature

    • Found mostly in the skin and blood vessels
    • Constantly send information about temperature to the thermoregulatory sensor
  • Warming up mechanisms

    1. Vasoconstriction (constrict blood vessels near surface of skin)
    2. Contract erector muscles (making hairs stand on end)
    3. Shivering (muscles contract automatically)
  • Vasoconstriction
    Less blood flows near the surface, less heat energy is lost to surroundings
  • Erector muscles
    Trapping a small layer of insulating air, harder to lose heat from skin
  • Shivering
    Muscle contraction requires energy from respiration, releases heat as waste
  • Cooling down mechanisms

    1. Vasodilation (blood vessels expand)
    2. Sweating (release water and salts onto skin surface)
  • Vasodilation
    More warm blood passes close to skin surface, allowing more heat transfer to surroundings
  • Sweating
    Evaporation of sweat takes heat energy from body
  • Homeostasis refers to the process of maintaining a stable internal environment
  • Accommodation
    1. Reflex that changes the refractive power of the lens
    2. Allows seeing both near and distant objects
  • Glasses
    • Help when the accommodation process doesn't work properly
  • Cornea
    Refracts or bends light
  • Lens
    Refracts or bends light
  • Ciliary muscles

    Control the shape of the lens
  • Suspensory ligaments

    Control the shape of the lens
  • Focusing light on the fovea
    1. Light from object is refracted by cornea
    2. Light is further refracted by lens to converge on fovea
  • Object is close
    Lens needs to be short and fat to refract light strongly
  • Object is distant
    Lens needs to be stretched out to reduce refractive power