The Brightness of Stars in the Night Sky

Which star appears brighter to Eduardo through his telescope, Sirius or Rigel?

Eduardo looks at stars through his telescope. He says that the star Sirius is brighter than the star Rigel. In reality, Rigel has a greater absolute brightness than Sirius. What can explain Eduardo's observation?

A. Sirius is much closer to Earth than Rigel

B. Rigel is much closer to Earth than Sirius

C. Sirius is a hotter star than Rigel

D. Rigel is a hotter star than Sirius

Answer:

The answer is A. Sirus is much closer to Earth than Rigel.

Although Eduardo observed that Sirius appears brighter than Rigel through his telescope, the reality is that Rigel has a greater absolute brightness. This discrepancy can be explained by the fact that Sirius is much closer to Earth than Rigel. When viewing stars from Earth, their apparent brightness can be influenced by their distance from our planet. Stars that are closer to Earth may appear brighter, even if they have a lower absolute brightness compared to stars that are further away.

In the case of Eduardo's observation, the proximity of Sirius to Earth likely caused it to appear brighter than Rigel, even though Rigel actually has a greater absolute brightness. This phenomenon demonstrates the importance of considering both the absolute brightness and the distance of stars when observing them from Earth.

Next time Eduardo looks through his telescope, he can keep in mind the factors that can influence the apparent brightness of stars in the night sky, leading to a deeper appreciation and understanding of the celestial objects he observes.

← What is the concentration of an aqueous solution Calculate the real pressure of neon gas in atmospheres using van der waals equation →