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

Suppose we could move Earth to the distance at which Jupiter orbits the Sun. Jupiter is...

Suppose we could move Earth to the distance at which Jupiter orbits the Sun. Jupiter is much more massive than Earth, and orbits every 11.9 years. What would the Earth's new period be? options: A. It would remain 1 year B. Between 1 and 11.9 years C. Also 11.9 years D. More than 11.9 years E. It would depend on the speed given to Earth F. It's impossible for a smaller massed planet like Earth to orbit at Jupiter's distance.

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)...

How much greater is the Sun’s gravitational force on Jupiter compared with the Sun’s gravitational force...

How much greater is the Sun’s gravitational force on Jupiter compared with the Sun’s gravitational force on the Earth? Use the following information: mass of the Sun = 2.0 x 1030 kg, mass of Jupiter = 1.9 x 1027 kg, mass of Earth = 6.0 x 1024 kg; G = 6.67 x 10-11 m3kg-1s-2; distance between Sun and Earth = 1.5 x 1011 m; distance between Sun and Jupiter = 7.8 x 1011 m. (Round your answer to one decimal...

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.

Astronomers discover a planet orbiting around another star. The star is very much like our Sun,...

Astronomers discover a planet orbiting around another star. The star is very much like our Sun, and the planet is almost a twin to Jupiter. The planet has the same mass as Jupiter, is the same distance from its star as Jupiter is from our Sun (5.2 AU), has the same orbital period (12 years), is the same temperature, and has the same density and chemical composition as Jupiter. However, when we take a close up picture of the planet,...

We know that most of the mass (>99%) of the solar system is in the Sun....

We know that most of the mass (>99%) of the solar system is in the Sun. Is this consistent with the masses you calculated in the first table, and the solar system rotation curve? Explain your answer. Planet Distance from Sun (AU) Orbital Velocity (km/s) Mass inside orbit = v2r/887 (solar masses) Mercury 0.4 47.4 1.013195 Venus 0.7 35.0 0.966741 Earth 1.0 29.8 1.001172 Mars 1.5 24.1 0.982204 Jupiter 5.2 13.1 1.006056 Saturn 9.6 9.7 1.018335 Uranus 19.2 6.8 1.000910...

A satellite of mass 3.00 x 104 kg is placed in orbit around Jupiter. The mass...

A satellite of mass 3.00 x 104 kg is placed in orbit around Jupiter. The mass of Jupiter is 2.90 x 1027 kg. The distance between the satellite and the centre of Jupiter is 9.24 x 107 m. Determine the force of gravitational attraction between the satellite and Jupiter. One of the moons of Jupiter is Io. The distance between the centre of Jupiter and the centre of Io is 5.22 x 108 m. If the force of gravitational attraction...

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...

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

What are the following distance from in the Sun, measured in AU : Tethys, Dione, Rhea, Titan, Iapetus, Ariel, Umbriel, Titania, Oberon, Triton, and Charon And how do you find these distances?

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...