Barnard's Star is the second closest star to the Sun (approximately 6 light years away). It is moving toward the Earth with a speed of 110 km/s. Calculate the blue shift of light from Barnard’s star, defined by \(\Delta \lambda / \lambda\).Options:- A: \(-3.668 \times 10^{-4}\)- B: \(-4.586 \times 10^{-4}\)- C: \(-5.732 \times 10^{-4}\)- D: \(-7.165 \times 10^{-4}\)- E: \(-8.956 \times 10^{-4}\)- F: \(-1.120 \times 10^{-3}\)- G: \(-1.399 \times 10^{-3}\)- H: \(-1.749 \times 10^{-3}\)Each choice represents a different potential value for the blue shift, expressed in scientific notation.

Answered: Image /qna-images/answer/d213ca3d-f9a8-4997-9a05-f9631fd88b91.jpg

Barnard's Star is the 2nd closest star to Sol (~ 6 light years). It is moving toward the Earth with a speed of 110 km/s. Calculate the blue shift of light from Barnard's star, defined by AX/X. OA: OB: OC: OD: OE: -3.668x10-4 -4.586x10-4 -5.732x10-4 -7.165x10-4 OF: OG: -8.956x10-4 -1.120×10-3 -1.399x10-3 OH: -1.749x10-3

Barnard's Star is the 2nd closest star to Sol (~ 6 light years). It is moving toward the Earth with a speed of 110 km/s. Calculate the blue shift of light from Barnard's star, defined by AX/X. OA: OB: OC: OD: OE: -3.668x10-4 -4.586x10-4 -5.732x10-4 -7.165x10-4 OF: OG: -8.956x10-4 -1.120×10-3 -1.399x10-3 OH: -1.749x10-3

Similar questions

1. Sirius A has an apparent magnitude of 4.72, determine its luminosity.
31) Star Sirius has an apparent magnitude of -1.47 and an absolute magnitude of 1.41. Estimate the distance to Sirius.
The star Procyon A has an apparent magnitude of 0.38 and an absolute magnitude of 2.66 while the star Ross 128 has an apparent magnitude of 11.1 and an absolute magnitude of 13.5. Which star emits more energy? A. Procyon A O B. Ross 128 O C. They emit pretty much the same energy. D. There is insufficient information to tell.
At rest hydrogen has a spectral line at 149nm. If this line is observed at 144 nm for the star proxima how fast is proxima moving in km/s
What is the parallax angle of a star that is 50 pc away? enter your answer in arc seconds
Studying the spectrum of a star, we see that the Haline (l= 656.285nm) has been shifted to 656.286 nm. Is the star moving towards us or away (explain your answer) How fast is the star moving with respect to us?
12 Suppose that you measure the parallax angle for a particular star to be 0.5 arcsecond. The distance to this star is A) 2 parsecs. B C 0.5 parsec. E 5 light-years. (D) 5 parsecs. 0.5 light-year.
At the distance of Earth, 1AU, the Sun's apparent brightness in the sky is about 1250 W/m 2 . What is the brightness that we would measure from a distance of 0.5 AU? What is the brightness that we would measure from a distance of 2.0 AU?