if an object orbiting the sun has a potential gravitational of 2.x10^11J, how much work will...

Astronomers are constantly discovering new planets orbiting nearby stars. In the following scenario, compare the gravitational...

Astronomers are constantly discovering new planets orbiting nearby stars. In the following scenario, compare the gravitational force between the planet and its star to the gravitational force between the Earth and the Sun and enter your result as a decimal with no units. (For instance, if the gravitational force between the planet and the star is 1/4 the gravitational force between the Earth and the Sun, enter 0.250) A planet that has a mass 7.93 times that of the Earth...

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 sun = 2*10^30kg. Mass of jupiter = 1.9*10^27kg. mass of earth = 6*10^-11. Distance between the sun and the earth =1.5*10^11m. Distance between sun and jupiter = 7.8*10^11m

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...

The gravitational force of a star on an orbiting planet 1 is F1. Planet 2, which...

The gravitational force of a star on an orbiting planet 1 is F1. Planet 2, which is four times as massive as planet 1 and orbits at twice the distance from the star, experiences gravitational force F2.What is the ratio F2F1? You can ignore the gravitational force between the two planets.

9. Object #1 has mass m; object #2 has mass 10m. They are separated by the...

9. Object #1 has mass m; object #2 has mass 10m. They are separated by the distance d. We can conclude that: Object 1 exerts greater gravitational force on object 2, than object 2 exerts on 1. Object 1 exerts smaller gravitational force on object 2, than object 2 exerts on 1. Object 1 exerts on object 2 gravitational force equal in magnitude to force eqerted by 2 on 1. Our answer depends on distance d. 10. Consider two objects:...

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,...

1)The highest ocean tides occur when Earth and the Moon are Lined up with the Sun...

1)The highest ocean tides occur when Earth and the Moon are Lined up with the Sun At right angles to the Sun At any angle to the Sun Lined up during spring 2)A satellite in Earth orbit is above Earth’s Atmosphere Gravitational field Both Neither 3)What happens to the force of gravity between two objects when their masses are EACH doubled and the distance between them is also doubled. The force doubles The force is reduced to ½ The force...

The usual, simplified, derivation of the Kepler – Newton relation assumes that the object at the...

The usual, simplified, derivation of the Kepler – Newton relation assumes that the object at the center of the orbit is stationary. This is equivalent to assuming it is much, much more massive than the object orbiting it. This is fine for bodies orbiting the Sun, Jupiter or Saturn, but there are other cases, such as binary stars where the masses are comparable. Such binary stars orbit around their Center of Mass in circular orbits, apart from some very strange...

How much gravitational potential energy must a 3140-kg satellite acquire in order to attain a geosynchronous...

How much gravitational potential energy must a 3140-kg satellite acquire in order to attain a geosynchronous orbit? The answer to the above question is 1.67x10^11 J. How much kinetic energy must it gain? Note that because of the rotation of the Earth on its axis, the satellite had a velocity of 467 m/s relative to the center of the Earth just before launch. Doing a 1/2mv^2 doesn't get the correct answer. The law of conservation of energy would state that...

A force ?(?) = −5.0?2+7.0? Newtons acts on a particle. a) How much work does the...

A force ?(?) = −5.0?2+7.0? Newtons acts on a particle. a) How much work does the force do on the particle as it moves from ? = 2.0m to ? = 5.0m, in Joules? b) Find the potential energy due to this force, at position x = 2, in Joules, by finding the potential energy as a function of x, U(x). You should use the reference point of the potential energy being 0 when x = 0. c) Using either...