5 Must Know Facts For Your Next Test

1. Diffusion occurs until equilibrium is reached, where molecules are evenly distributed in a given space, leading to no net movement of particles.
2. Temperature affects the rate of diffusion; higher temperatures increase molecular motion, resulting in faster diffusion rates.
3. Diffusion can occur across different mediums, including liquids, gases, and solids, though it is generally faster in gases due to increased particle movement.
4. In biological systems, diffusion is essential for gas exchange in the lungs, where oxygen diffuses into the bloodstream while carbon dioxide diffuses out.
5. Cells utilize diffusion to transport small nonpolar molecules like oxygen and carbon dioxide across their membranes without the need for energy input.

Review Questions

• How does diffusion contribute to cellular processes such as nutrient uptake and waste removal?
  • Diffusion plays a vital role in cellular processes by allowing cells to take up essential nutrients and expel waste products without using energy. Nutrients from surrounding fluids move into cells where they are less concentrated, while waste products move out to areas of lower concentration. This passive transport mechanism ensures that cells can efficiently maintain their metabolic functions and homeostasis.
• Discuss how temperature and concentration gradients affect the rate of diffusion in biological systems.
  • Temperature significantly influences the rate of diffusion; as temperature increases, molecular motion becomes more vigorous, speeding up the diffusion process. Concentration gradients also play a key role; a steeper gradient (larger difference in concentration) enhances the rate at which molecules move from high to low concentration. Together, these factors help determine how quickly substances can diffuse across membranes in biological systems, impacting processes like respiration and nutrient absorption.
• Evaluate the importance of diffusion in maintaining homeostasis within the cardiovascular and respiratory systems.
  • Diffusion is critical for maintaining homeostasis in both cardiovascular and respiratory systems by facilitating gas exchange. In the lungs, oxygen diffuses into the blood while carbon dioxide diffuses out due to differences in partial pressures. Similarly, within tissues, oxygen diffuses from blood into cells while carbon dioxide moves back into circulation. This constant exchange helps regulate blood pH and supports cellular respiration, illustrating how diffusion is integral to overall body function.

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