Weather radar, originally designed for short-term weather forecasting, has found another vital role in climate change studies. As climate change impacts become more evident, understanding and monitoring extreme weather events is crucial for policymakers and scientists alike. Weather Radar plays a significant role in tracking and analyzing changes in precipitation patterns. It allows scientists to monitor how rainfall distribution is shifting over time and how the frequency and intensity of extreme weather events are evolving. This data is instrumental in detecting climate change-related trends and assessing the effectiveness of climate adaptation measures. One of the notable climate change effects that weather radar helps study is the intensification of rainfall. As the atmosphere warms, it can hold more moisture, leading to heavier rainfall during storms. Weather radar enables researchers to analyze precipitation rates and determine whether these changes are occurring in specific regions.

Furthermore, weather radar aids in monitoring the behavior of hurricanes and cyclones, which are expected to become more intense and frequent due to climate change. By studying the radar data from past and present storms, scientists can gain insights into how these tropical systems are evolving over time. Beyond studying precipitation, Weather Radar assists in monitoring the behavior of glaciers and ice caps in polar regions. Radar altimeters on satellites provide data on ice thickness, helping track ice mass loss and contributing to our understanding of sea-level rise. weather radar is not only vital for daily weather forecasting but also plays a pivotal role in studying and understanding climate change. By providing crucial data on precipitation patterns and extreme weather events, weather radar contributes significantly to climate research and informs strategies for climate resilience