Parallax angle for a star is 195 mas. Its surface temperature is 7500 K and diameter...

The star Sirius has a parallax angle of 0.379 arcseconds and its brightness is 8.8 x...

The star Sirius has a parallax angle of 0.379 arcseconds and its brightness is 8.8 x 10^-11 that of the Sun (b Sirius=8.8 x 10^-11bSun). The wavelength of maximum emission of Sirius is 241.7 nm. a) What is Sirius luminosity in terms of solar luminosity? b) And what is Sirius luminosity in Watts? (Assume that the Sun's luminosity is 3.8 x 10^26W) c) What is Sirius surface temperature? d) Use the information above to compute Sirius radius.

) Canopus (alpha Carinae) is the second-brightest star in the night sky, its apparent magnitude is...

) Canopus (alpha Carinae) is the second-brightest star in the night sky, its apparent magnitude is 0.7 m . Based on the parallax measurements of Hipparcos satellite, its parallax is approximately 0.01 arcseconds. (i) Find the distance to Canopus in parsecs and its absolute magnitude. [3 marks] (ii) Assuming that the absolute magnitude of the Sun is 4.8m show that the luminosity of Canopus in terms of the solar luminosity L⊙ is approximately 16000 L⊙. [2 marks] (iii) The emission...

Question 1: a: The measured parallax angle for the star Antares as observed during Earth’s orbit...

Question 1: a: The measured parallax angle for the star Antares as observed during Earth’s orbit is 0.008”. Here, I’m using the definition that this angle is half of its total apparent movement on the sky. Given this angle, calculate the distance to Antares. b: The angular diameter of Antares has been resolved in one study, and given as 41 milliarcseconds. Using your answer to part a above, calculate its linear diameter. How does this compare to the Sun’s? c:...

An asymptotic giant branch star has a surface temperature of 3500 K and a luminosity of...

An asymptotic giant branch star has a surface temperature of 3500 K and a luminosity of 4200 L ⊙. What is this star's radius in unit of solar radius?

The wavelength of peak emission from any star is related to the temperature of its photosphere...

The wavelength of peak emission from any star is related to the temperature of its photosphere (i.e., the emitting surface) by Wien’s Law, given by λ = 2,900/T, where λ is the wavelength in micrometers (1 µm = 10-6 m), and T is the temperature of the star in Kelvin (see textbook’s figure 3.27 for help). Answer the following questions using the above equation. 2.1. The most massive star ever observed is a Wolf-Rayet type-star, named R136a1. It is so...

A star has a temperature of 5105 K and a radius of 4.10×106 km . What...

A star has a temperature of 5105 K and a radius of 4.10×106 km . What is the radius of this star in units of the solar radius, ?sun ? ?sun=6.9551×105 km. radius: ?sun What is the temperature of this star in units of the solar temperature, ?sun ? ?sun=5777 K. temperature: ?sun Given that the luminosity of a star is given as a function of its radius ? and temperature ? by the equation ?=4??2??4 what is the luminosity...

In an X-ray burster, the surface of a neutron star 10 km in radius is heated...

In an X-ray burster, the surface of a neutron star 10 km in radius is heated to a temperature of 3 × 107 K. (a) Determine the wavelength of maximum emission of the heated surface, assuming it radiates as a blackbody. In what part of the electromagnetic spectrum does this lie? (b) Find the luminosity of the heated neutron star. Give your answer in watts and in terms of the luminosity of the Sun. How does this compare with the...

A star whose surface temperature is 4000 K has a peak wavelength of 725 nm, according...

A star whose surface temperature is 4000 K has a peak wavelength of 725 nm, according to Wien’s Law. If this star is in the Andromeda Galaxy, which is moving toward Earth at about 120 km/s, what would an observer on Earth see as the peak wavelength for this star?

Which of the following is closest to the distance from Earth to a star having an...

Which of the following is closest to the distance from Earth to a star having an Absolute Magnitude of -1 and an apparent Magnitude of 2.5 ? Question 18 options: 150 parsecs 100 parsecs 50 parsecs 25 parsecs Question 13 (1 point) Saved Which of the following is closest to the Absolute Magnitude of a star having a luminosity of 150 times the luminosity of the Sun ? Question 13 options: 0.0 -1.0 1.0 -2.0 Question 14 (1 point) Saved...

The red supergiant star Betelgeuse has an effective temperature of 3500 K and an angular diameter...

The red supergiant star Betelgeuse has an effective temperature of 3500 K and an angular diameter of 0.045 arcsec. Assuming the star is 200 pc away, determine the luminosity L of Betelgeuse. Express your final answer in solar luminosities, L⊙, to three significant figures. Use the small‑angle approximation to determine the physical diameter of Betelgeuse. Convert arcseconds to radians before applying the small‑angle approximation.