Brighter Than Bright: Eduardo's Stellar Observation

What can explain Eduardo's observation?

- Regulus is a smaller star than Rigel.

- Rigel is a hotter star than Regulus.

- Regulus is much closer to Earth than Rigel.

- Rigel is much closer to Earth than Regulus.

Final Answer:

Regulus appears brighter than Rigel because it is much closer to Earth.

Eduardo observes the stars through his telescope and notes that the star Regulus appears brighter than the star Rigel. However, in reality, Rigel has a greater absolute brightness than Regulus. So, what could explain Eduardo's observation?

The correct explanation is that Regulus is much closer to Earth than Rigel. This difference in distance is the key factor in why Regulus appears brighter to Eduardo despite having a lower absolute brightness than Rigel. The apparent brightness of a star, or how bright it appears to us, is influenced by both its intrinsic brightness (luminosity) and its distance from Earth.

Even though Rigel has a higher absolute brightness, Regulus can appear brighter due to its closer proximity to Earth. This phenomenon highlights the importance of considering both luminosity and distance when making observations of celestial objects.

By understanding the relationship between a star's intrinsic brightness and its distance from Earth, we can grasp why Eduardo observed Regulus as the brighter star in this scenario.

← A kayaker s challenge paddling across a tidal current How to calculate the width of a slit using diffraction pattern →