What are the following distance from in the Sun, measured in AU : Tethys, Dione, Rhea,...

Jupiter is 5.2 AU from the Sun. Based upon distance alone (i.e, if you were to...

Jupiter is 5.2 AU from the Sun. Based upon distance alone (i.e, if you were to place an Earth-mass planet at Jupiter's distance from the Sun), what would be the gravitational force between the Earth-mass planet at 5.2 AU and the Sun in units of "Earth-pulls?"

The distance between the sun and Earth is 1.00 au (astronomical unit) and the energy flux...

The distance between the sun and Earth is 1.00 au (astronomical unit) and the energy flux from the sun is 1372 W m-2 at this distance. The distance between the sun and Mars is 1.51 au. Mars has an albedo of 0.149. Determine the effective temperature (in K) of Mars, as seen from space.

An astronomical unit (AU) is equal to the average distance from Earth to the Sun, about...

An astronomical unit (AU) is equal to the average distance from Earth to the Sun, about 92.9 × 106 mi. A parsec (pc) is the distance at which a length of 1 AU would subtend an angle of exactly 1 second of arc (the figure). A light-year (ly) is the distance that light, traveling through a vacuum with a speed of 186000 mi/s, would cover in 1.0 year. Express the Earth–Sun distance in (a) parsecs and (b) light-years.

A newly discovered comet orbits the sun at an average distance of 18.9 AU with an...

A newly discovered comet orbits the sun at an average distance of 18.9 AU with an eccentricity of e = 0.38. Calculate the comet's aphelion distance in AU using the equation:                          aphelion = a (1 + e). Give your answer to one decimal place. You will need to show your work, including units, in E1.36d.

At a distance of 1 AU from the Sun, the solar wind has a proton density...

At a distance of 1 AU from the Sun, the solar wind has a proton density of 10 cm^{-3}, traveling at a speed of 400 km / s. (i) estimate the mass loss rate of the Sun in g/s and solar masses per year; ii) estimate the luminosity lost by this process, comparing it with the photon luminosity.

Dave is sitting on a spaceship orbiting the Earth (1 au from the sun). At this...

Dave is sitting on a spaceship orbiting the Earth (1 au from the sun). At this distance, his solar panels gather an intensity of 1000 (watts/m^2) from the Sun's radiation. Dave wants to gather enough energy to run his coffee machine which needs an intensity of 20 (watts/m^2) Question 1: Dave flies to Saturn (which is approximately 10 au from the sun) and at somewhere along the way his coffee machine no longer gets enough power. What intensity do his...

Could you find the Mass of the Sun using the slope of the of T2 versus...

Could you find the Mass of the Sun using the slope of the of T2 versus a3, using the values that are in units of years and AU? Explain. Suppose we discovered a planetary body orbiting our Sun at a distance of 15 AU. How long would this world take to complete one orbit around the Sun? (show your work) Suppose Astronomers noticed a moon around the newly discovered planet in Question 2. By watching this moon, noting its period...

Suppose there were a planet in our Solar System orbiting at a distance of 0.5 AU...

Suppose there were a planet in our Solar System orbiting at a distance of 0.5 AU from the Sun, and having ten times the mass and four times the radius of Earth. For reference, the Earth has a mass of 5.97 × 1024 kg and a radius of 6,378 km. a) Calculate the density of this hypothetical planet. b) Based on your answer from part a), what do you think this planet would be made of? Explain your reasoning. c)...

A comet of mass 1.20 ✕ 1010 kg moves in an elliptical orbit around the Sun....

A comet of mass 1.20 ✕ 1010 kg moves in an elliptical orbit around the Sun. Its distance from the Sun ranges between 0.200 AU and 62.0 AU. (Note: 1 AU = one astronomical unit = the average distance from the Sun to Earth = 1.496 ✕ 1011 m.) (a) What is the eccentricity of its orbit? (b) What is its period? ______yr (c) At aphelion what is the potential energy of the comet-Sun system? _____J

A comet moves about the Sun in an elliptical orbit, with its closest approach to the...

A comet moves about the Sun in an elliptical orbit, with its closest approach to the Sun being about 0.410 AU and its greatest distance from the sun being 45.0 AU (1 AU = the Earth-Sun distance). (a) Which of the comet's properties are conserved as the comet goes around the Sun? Select all that apply. angular momentum potential energy kinetic energy linear momentum total energy (b) If the comet's speed at closest approach is 54.0 km/s, what is its...