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Research physical scientist, Dr. Dalia Kirschbaum, is featured in this short (~3 min.) video. Dr. Kirschbaum explains how the integration of her initial interest in math and her subsequent interest in the science of natural disasters lead to her... (View More) career focus of landslide modeling. Now part of the NASA Global Precipitation Measurement (GPM) team, she communicates about the GPM mission and data to the public and to others who use it in their work and/or research. (View Less)
This video summarizes the contributions of NASA's Tropical Rainfall Measuring Mission (TRMM) toward the understanding of weather and climate, global rainfall, El Niño, and tropical storms, as well as the applications of that science. TRMM was... (View More) launched in 1997; the video was produced in celebration of TRMM's 15-year anniversary. (View Less)
This four‑minute video provides an overview of NASA's Mission Tools Suite for Education (MTSE), a unique web‑based program that connects K‑12 classrooms with NASA Airborne Science Program missions around the world in realtime. MTSE is designed... (View More) to support core K‑12 classroom science curriculum. It is the educational version of the NASA Mission Tools Suite (MTS), which is used by NASA mission personnel to monitor and assist with realtime decision making during the course of an Airborne Science Program campaign. (View Less)
This short video (4:44) helps audiences understand and appreciate the importance of measuring precipitation globally. The role of the Global Precipitation Measurement (GPM) mission to better understand, model and predict where and when too much... (View More) rainfall will occur (resulting in floods and landslides) and where too little rain will fall (resulting in droughts) is examined. (View Less)
This twelve-minute YouTube video incorporates NASA imagery and visualizations as it traces the history of air quality research.
These short videos introduce learners to the electromagnetic spectrum though eight animations including an introduction to electromagnetic waves and one animation for each wavelength of the EM spectrum (Radio, Microwave, Infrared, Visible,... (View More) Ultraviolet, X-Rays and Gamma Rays). Each wavelength of the EM spectrum offers a construct to illustrate and teach about NASA sensors, missions, and science. Emphasis is placed on relevant science (e.g., lunar exploration) and hot science topics (e.g., climate change). Each video is computer animated and offers engaging illustrations to appeal to middle and high school age learners. The examples and narrative for each wavelength animation build on the learners’ prior knowledge then introduces examples from NASA missions. These examples explore the use of spectral analysis and visualizations that help scientists make discoveries about the world around us using EM waves. (View Less)