5 Must Know Facts For Your Next Test

1. CFCs were first developed in the 1920s and became popular due to their stability, non-flammability, and effectiveness as refrigerants.
2. When CFCs are released into the atmosphere, they can rise to the stratosphere where UV radiation breaks them down, releasing chlorine atoms that deplete ozone molecules.
3. The Montreal Protocol, established in 1987, was a significant international treaty aimed at phasing out the production and consumption of ozone-depleting substances, including CFCs.
4. CFCs have a long atmospheric lifetime, remaining in the atmosphere for several decades before being broken down by UV light.
5. Despite global efforts to reduce CFC emissions, they are still present in the atmosphere and contribute to climate change due to their greenhouse gas properties.

Review Questions

• How do chlorofluorocarbons contribute to ozone depletion in the atmosphere?
  • Chlorofluorocarbons contribute to ozone depletion primarily through their breakdown in the stratosphere. When CFCs are exposed to ultraviolet radiation, they release chlorine atoms which react with ozone (O₃) molecules. This reaction leads to the conversion of ozone into oxygen (O₂), effectively thinning the protective ozone layer that shields Earth from harmful UV radiation.
• Discuss the significance of the Montreal Protocol in relation to chlorofluorocarbons and atmospheric geochemistry.
  • The Montreal Protocol is significant as it represents a global commitment to combat ozone depletion by phasing out the production and use of chlorofluorocarbons and other harmful substances. By establishing legally binding targets for reducing CFC emissions, the protocol has led to a notable decrease in atmospheric CFC levels. This reduction is crucial for restoring the ozone layer and mitigating the adverse effects on both human health and ecological systems linked to increased UV radiation.
• Evaluate the long-term impacts of chlorofluorocarbons on climate change and atmospheric composition.
  • The long-term impacts of chlorofluorocarbons on climate change include their role as potent greenhouse gases that contribute to global warming. Although CFC concentrations have decreased due to international regulations, their lingering presence in the atmosphere continues to affect atmospheric composition. Evaluating these impacts reveals a complex interaction between CFCs and climate systems, highlighting ongoing concerns about their residual effects even as efforts to phase them out progress.

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