JPL Science Division

In this article we will delve into JPL Science Division, exploring all the relevant aspects of this topic. JPL Science Division is a topic of great importance in today's society and its impact extends to multiple areas of our daily lives. Throughout this article we will examine its origin, evolution, implications and possible solutions, analyzing different perspectives and approaches to thoroughly understand all aspects related to JPL Science Division. Additionally, we will also consider the possible future implications of JPL Science Division and how this may influence how we approach this topic in the future. In order to provide a comprehensive view, relevant data, studies and research will be presented that will help readers fully understand the importance and impact of JPL Science Division in our society.

JPL Science Division
Aerial view of JPL
EstablishedOctober 31, 1936 (1936-10-31)
Field of research
Address4800 Oak Grove Drive
LocationLa Cañada Flintridge, California, United States
34°12′6.1″N 118°10′18″W / 34.201694°N 118.17167°W / 34.201694; -118.17167
Parent department
Jet Propulsion Laboratory
Operating agency
Managed for NASA by Caltech
Websitescience.jpl.nasa.gov
Map
JPL Science Division is located in California
JPL Science Division
Location in California
JPL Science Division is located in the United States
JPL Science Division
JPL Science Division (the United States)
JPL Science Division
Division overview
Division executives
  • Simon J. Hook, Division Manager[1]
  • Janis L. Chodas, Director for Engineering and Science[2]
  • Diane L. Evans, Director for Earth Science and Technology[2]
  • Mark Simons, Chief Scientist[2]
  • Fred Hadaegh, Chief Technologist[2]

The Jet Propulsion Laboratory Science Division investigates physical and chemical processes on the Earth, in the Solar System, and throughout the universe. Explorations of space and terrestrial processes lead to understanding of the universe. Methods for accomplishing scientific work pertaining to the nature of the Earth, the Solar System, the galaxy, etc., are addressed in the JPL Science Division. Techniques in both physical and life sciences are utilized.[3]

Coverage

Mars sunset (Jet Propulsion Laboratory developed and manages the Mars Pathfinder mission for NASA's Office of Space Science)

Research areas include studying the nature of the Martian surface, the causes and mitigation of ozone depletion and global warming in Earth's atmosphere, the search for life in and the nature and evolution of the universe. These are significant issues related to NASA's mission.[3]

Theoretical and experimental studies are conducted which lead to new missions. They are engaged in the development of new instrumentation and in the analysis of data, publishing new scientific knowledge, and in the communication of that knowledge to the general public.[3]

Not all science at the Jet Propulsion Laboratory is contained within the Science Division. Approximately 30% of JPL scientists are embedded in other divisions.[3]

Charter and areas of research

JPL's charter is to conduct robotic space missions for NASA, to explore planetary systems, understand the origin and evolution of the universe and make critical measurements to understand the Earth, which leads to its protection.[4] This is accomplished by developing multidisciplinary capabilities in engineering, science and technology. Research in space science, as well as advancing technologies, produces the ability to implement missions for NASA.[4]

The division's science, technology and engineering research covers many areas of planetary, astrophysics and Earth science, both as basic research leading to new observations and mission concepts, as well as research based on the data acquired by JPL flight projects.[4] Technology research covers areas ranging from robotic systems, a range of in-situ and remote sensing instruments, deep space communications and navigation, information systems, precision flying and planetary protection and survivability.[4]

Multidisciplinary capabilities

JPL has developed a number of capabilities to perform novel tasks with telerobotic and autonomous robotic technologies. For example, the JPL engineering team developed the Limbed Excursion Mechanical Utility Robot (LEMUR) to scale rock walls. It uses many hundreds of "tiny fishhooks in each of it 16 fingers"[5] and employs artificial intelligence to work its way around obstacles in its path. LEMUR did field testing in Death Valley, California in early 2019, climbing "a route up a cliff while scanning the rock for ancient fossils from the sea that once filled the area."[5]

References

  1. ^ "JPL's Science Division: People". JPL Science Division. NASA. Archived from the original on 12 January 2018. Retrieved 12 January 2018.
  2. ^ a b c d "JPL Executive Council". JPL Science Division. NASA. Archived from the original on 12 January 2018. Retrieved 12 January 2018.
  3. ^ a b c d "JPL's Science Division". This article incorporates Public domain material from JPL and NASA. Jet Propulsion Laboratory. September 2010. Archived from the original on 2005-11-19. Retrieved 2010-09-14.
  4. ^ a b c d "Research Topics List". Jet Propulsion Laboratory. September 2010. Archived from the original on 2010-09-30. Retrieved 2010-09-14.Public domain material from JPL and NASA
  5. ^ a b "NASA JPL Engineers Design Other-Worldly Climbing Robots". 10 July 2019. Retrieved 13 July 2019.