As WFIRST is a proposed space telescope, not yet in development, there is no set equipment or goals. However, the Wide Field Infrared Survey Telescope (WFIRST) has been proposed as one possible piece of equipment for the telescope. The WFI would have a field of view 100 times greater than that of the Hubble Space Telescope (HST). This would allow WFIRST to survey large areas of the sky quickly and efficiently.
One potential science goal for WFIRST is to help us understand the origin of cosmic acceleration. Cosmic acceleration is the observed phenomenon of the expansion of the universe accelerating over time. While the cause of this acceleration is not yet known, it is thought that understanding it could give us insights into the nature of dark energy, which is thought to be responsible for the acceleration.
WFIRST is a proposed space telescope that could offer valuable insights into the mysteries of cosmic acceleration. The Wide Field Infrared (WFI), which would be equipped as part of this telescope, has the potential to provide a wide field of view that is 100 times greater than that of the Hubble Space Telescope. This makes WFIRST uniquely suited for quickly and efficiently surveying large areas of the sky.
In terms of understanding cosmic acceleration, WFIRST could potentially help us answer questions about dark energy and dark matter. Dark energy is thought to be the cause of cosmic acceleration, but its nature is still not fully understood. Dark matter, on the other hand, is believed to make up most of the matter in the universe, yet it has not been directly observed. By studying how cosmic acceleration affects the distribution and evolution of galaxies, WFIRST could provide new insight into these elusive phenomena, helping us to better understand their nature and how they have shaped our universe over time. Ultimately, WFIRST represents an important step forward in the study of cosmology, and its potential to shed light on the origin of cosmic acceleration makes it a mission worth watching in the years to come.
The WFI could work by using its wide field of view to survey a large area of the sky quickly and efficiently. In doing so, it would be able to gather data that could help answer questions about dark energy and dark matter. Additionally, the WFI would also be helpful in the study of cosmology.
WFIRST has the potential to be a valuable tool for studying dark energy and dark matter, two of the most mysterious and poorly understood phenomena in cosmology. The WFI’s wide field of view would allow it to gather data from large areas of the sky quickly and efficiently. This could help us gain a better understanding of these elusive forces that seem to be driving cosmic acceleration. At the same time, WFIRST could also help us better understand cosmology as a whole and how it has evolved over time. Whether or not it ultimately gets approved by NASA, WFIRST remains an exciting development in space science that we will be watching closely in the years to come.
Overall, WFIRST represents an important step forward in our understanding of the universe, and its potential to shed light on the origin of cosmic acceleration makes it a mission worth watching. By studying dark energy and dark matter, as well as other questions about the nature of the cosmos, this telescope could help us gain new insights into the fundamental mysteries of our universe.