5 Must Know Facts For Your Next Test

1. Terrestrial radiation occurs primarily at infrared wavelengths, which are longer than those of visible light, making it invisible to the human eye.
2. The amount of terrestrial radiation emitted depends on the temperature of the Earth's surface; warmer surfaces emit more infrared radiation.
3. Greenhouse gases in the atmosphere absorb some of this terrestrial radiation and re-radiate it, contributing to the greenhouse effect.
4. Different surfaces on Earth have varying abilities to emit terrestrial radiation; for instance, land typically emits more than water due to differences in temperature regulation.
5. Changes in terrestrial radiation can influence local climates and weather patterns, particularly through its interaction with atmospheric conditions.

Review Questions

• How does terrestrial radiation contribute to the Earth's energy balance?
  • Terrestrial radiation is a key component of the Earth's energy balance because it represents the energy that the Earth emits after absorbing sunlight. When sunlight reaches the Earth's surface, it warms up, and as this heat is released back into the atmosphere in the form of infrared radiation, it plays a vital role in maintaining temperatures. This process interacts with greenhouse gases, which trap some of this radiation, helping to regulate climate and sustain life on Earth.
• In what ways do variations in surface albedo affect terrestrial radiation and climate?
  • Variations in surface albedo directly influence how much solar energy is absorbed or reflected by different surfaces on Earth. Surfaces with high albedo, like ice and snow, reflect more sunlight and thus absorb less energy, resulting in lower terrestrial radiation emissions. Conversely, darker surfaces like forests or oceans absorb more sunlight and emit more terrestrial radiation. This balance plays a critical role in local and global climate systems by affecting heat distribution and atmospheric temperature.
• Evaluate how changes in atmospheric composition might alter the dynamics of terrestrial radiation and its impact on climate change.
  • Changes in atmospheric composition, particularly increases in greenhouse gases like carbon dioxide and methane, can significantly alter the dynamics of terrestrial radiation. As these gases trap more of the emitted infrared radiation, they enhance the greenhouse effect, leading to increased global temperatures. This feedback mechanism can result in accelerated climate change by altering weather patterns, impacting ecosystems, and exacerbating extreme weather events. Understanding these interactions is crucial for predicting future climate scenarios and formulating mitigation strategies.

© 2024 Fiveable Inc. All rights reserved.

AP® and SAT® are trademarks registered by the College Board, which is not affiliated with, and does not endorse this website.