Unknown SVS
At about 10:28 p.m. EST on Nov. 5, Parker Solar Probe will achieve its first perihelion - its first close approach to the Sun - and will come within 15 million miles of the Sun's surface. This speed and distance will mark new records for both closest solar approach and top heliocentric speed by a spacecraft. At perihelion, Parker Solar Probe will fly through material at about 3.6 million degrees Fahrenheit. The spacecraft will be protected from intense solar radiation by its Thermal Protection System, or heat shield. Parker Solar Probe employs a host of autonomous systems to keep the spacecraft safe without guidance from Earth - including automatic retraction of the solar panels to regulate their temperature, attitude control using solar limb sensors that ensures all of the instruments remain in the heat shield's shadow, and a sophisticated guidance and control system that keeps the spacecraft pointed correctly. For several days around the Nov. 5 perihelion, Parker Solar Probe will be completely out of contact with Earth because of interference from the Sun's overwhelming radio emissions. Following perihelion, the mission operations team at the Johns Hopkins Applied Physics Laboratory will await a beacon tone from the spacecraft, which will let them know the status of Parker Solar Probe.
84%
The Daily's Verdict
This author has a mixed reputation for journalistic standards. It is advisable to fact-check, scrutinize for bias, and check for conflicts of interest before relying on the author's reporting.
Bias
100%
Examples:
No current examples available.
Conflicts of Interest
100%
Examples:
No current examples available.
Contradictions
50%
Examples:
- The author claims solar flares are powerful bursts of energy but fails to mention their potential positive effects.
Deceptions
50%
Examples:
- The author does not provide enough information about the benefits of solar flares for humanity.
Recent Articles
NASA's Observatory Captures Intense Solar Flare of X2.5 Classification on February 19, 2024
Broke On: Friday, 16 February 2024On February 19, 2024, NASA's Observatory captured an intense solar flare of X2.5 classification and hours later on the same sunspot launched an X1.7 class flare that caused radio blackouts over Western US and much of Pacific Ocean due to a volatile magnetic field in AR3590 sunspot.