5 Must Know Facts For Your Next Test

1. Diffusion occurs naturally and does not require energy input, making it a passive transport mechanism.
2. Factors affecting the rate of diffusion include temperature, size of the molecules, and the nature of the medium through which diffusion occurs.
3. In biological membranes, small nonpolar molecules like oxygen and carbon dioxide diffuse easily through lipid bilayers.
4. Diffusion can lead to an equilibrium state where the concentration of molecules becomes uniform across a given space.
5. While diffusion is important for many cellular processes, it can be limited by the size of molecules and the properties of the membrane they are crossing.

Review Questions

• How does diffusion contribute to maintaining homeostasis in cells?
  • Diffusion helps maintain homeostasis by allowing essential substances, like oxygen and nutrients, to enter cells while waste products exit. The movement of these substances occurs along concentration gradients, ensuring that cells receive what they need and expel what they don't. This balance is crucial for cell function and survival, enabling cells to adapt to changing environmental conditions.
• Compare and contrast diffusion with facilitated diffusion regarding their mechanisms and roles in cellular transport.
  • Diffusion relies on the natural movement of molecules along their concentration gradient without any assistance, whereas facilitated diffusion requires specific transport proteins to help larger or polar molecules pass through the cell membrane. Both processes are forms of passive transport that do not require energy; however, facilitated diffusion is essential for transporting substances that cannot easily cross lipid bilayers due to their size or polarity. Understanding these differences highlights how cells regulate what enters and exits through their membranes.
• Evaluate the impact of temperature on the rate of diffusion and explain how this might affect cellular function in different environments.
  • Temperature significantly influences the rate of diffusion; as temperature increases, molecules move faster, which can enhance the rate at which they diffuse across membranes. In colder environments, reduced molecular motion can slow down diffusion processes, potentially leading to decreased efficiency in nutrient uptake or waste removal. Cells must adapt to these environmental changes to maintain optimal function, illustrating the importance of temperature in biological systems and the need for regulatory mechanisms.

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