5.1.2 Thermoregulation

    Cards (60)

    • Thermoregulation ensures enzymes function optimally.

      True
    • Match the key concept with its definition:
      Enzymes ↔️ Biological catalysts
      Thermoregulation ↔️ Maintaining stable body temperature
      Homeostasis ↔️ Balancing internal conditions
    • Thermoregulation is a key homeostatic mechanism.
      True
    • How does metabolism contribute to heat generation?
      Releases energy as heat
    • Muscle activity generates heat through muscle contraction.

      True
    • What is thermoregulation?
      Maintaining a stable body temperature
    • Homeostasis involves balancing internal body conditions
    • Why is a stable body temperature essential for enzyme function?
      Optimal enzyme activity
    • Enzymes function optimally within a narrow temperature range
    • Radiation involves heat transfer through electromagnetic waves
    • What are the three key concepts involved in thermoregulation?
      Thermoregulation, homeostasis, enzymes
    • Homeostasis is essential for overall health and efficiency
    • Thermoregulation is a key homeostatic mechanism.

      True
    • How does muscle activity generate heat?
      Converts chemical energy
    • What is released during metabolic processes that contributes to maintaining body temperature?
      Heat
    • During exercise, chemical energy is converted into mechanical energy, with some energy lost as heat.
    • Order the mechanisms of heat loss from highest to lowest contribution:
      1️⃣ Radiation
      2️⃣ Convection
      3️⃣ Evaporation
      4️⃣ Conduction
    • The hypothalamus receives input from temperature sensors in the skin and its own location.
    • The hypothalamus initiates effector responses such as shivering and sweating to regulate body temperature.
    • What type of feedback mechanism does the hypothalamus use to maintain homeostasis?
      Negative feedback
    • The hypothalamus triggers effector responses to maintain body temperature based on signals from temperature sensors.

      True
    • Thermoregulation is crucial for homeostasis because it ensures enzymes function optimally at their ideal temperatures.
    • Why is maintaining a stable body temperature essential for enzyme function?
      Optimal temperature range
    • Why is the ability to regulate body temperature vital for organisms?
      Peak enzyme efficiency
    • What homeostatic role does thermoregulation play in the body?
      Balancing internal conditions
    • How does metabolism contribute to heat generation in the body?
      Releases energy as heat
    • Match the heat loss mechanism with its definition:
      Radiation ↔️ Heat transfer through electromagnetic waves
      Conduction ↔️ Heat transfer through direct contact
      Convection ↔️ Heat transfer by fluid movement
      Evaporation ↔️ Cooling effect when liquid becomes gas
    • Thermoregulation allows enzymes to function optimally.

      True
    • Why is homeostasis important for maintaining body temperature?
      Balances internal conditions
    • Metabolism releases energy in the form of heat
    • Heat generation in the body occurs primarily through metabolism and muscle activity.
    • Muscle activity generates heat when chemical energy is converted into mechanical energy.
      True
    • Match the mechanism of heat loss with its example:
      Radiation ↔️ Body radiating heat into a cooler room
      Conduction ↔️ Heat lost when skin touches cold surfaces
      Convection ↔️ Wind carrying heat away from the skin
      Evaporation ↔️ Sweating cools the skin as sweat evaporates
    • What is the central role of the hypothalamus in thermoregulation?
      Maintaining body temperature
    • Vasoconstriction reduces heat loss by narrowing blood vessels in the skin.

      True
    • Match the effector response with its effect on heat loss:
      Vasoconstriction ↔️ Reduce heat loss by narrowing blood vessels
      Vasodilation ↔️ Increase heat loss by widening blood vessels
      Shivering ↔️ Generate heat through muscle contractions
      Sweating ↔️ Cool the body by evaporation
    • Vasoconstriction reduces heat loss by narrowing blood vessels in the skin.
    • What is an example of a behavioral adaptation for conserving body heat?
      Huddling together
    • Thermoregulation maintains a stable internal body temperature, which allows enzymes to function effectively.

      True
    • Thermoregulation is a key homeostatic mechanism that balances internal body conditions.
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