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Answer – The mass of Jupiter is 1.898 × 10²⁴ kg. Fifth from the sun, Jupiter is not only the largest planet but also the one with the greatest mass. In comparison to Earth’s mass of 5.9722 × 10²⁴ kg, Jupiter’s is 317.83 times greater. The large mass further results in the planet’s gravity being 2.5 times that of Earth’s.
Jupiter Mass Moon. In summary, the mass of Jupiter can be found using the data for Io by using the equation M=4∏2ro3/GT2, where r0 is the mean distance from Jupiter (422x10^3 km) and T is the period (1.77 days). However, it is important to check for unit consistency in the equation, as the gravitational constant G has units of m^3 kg^-1 s^-2 ...
Find the mass of Jupiter, in kg, based on data for the orbit of one of its moons. MJ =. Expert Solution. Trending now. This is a popular solution! Step by step. Solved in 2 steps. SEE SOLUTION Check out a sample Q&A here. About FAQ Academic Integrity Sitemap Document Sitemap.
Science. Physics. The mass of Jupiter is M=1.90x10^27 kg, and its radius is R=71500 km. A satellite is in a circular orbit around Jupiter at a radius of 3x Jupiter's radius. A.) How does the satellite's centripetal acceleration, a, compare to the acceleration due to gravity at the orbit, g?
Science. Physics. The mass of the Sun is 1.99 × 10^30 kg. Jupiter is 7.79 × 10^8 km away from the Sun and has a mass of 1.90 × 10^27 kg. a) Draw a sketch of the Sun & Jupiter with the given information. b) Determine the gravitational force between the Sun and Jupiter to three significant figures.
If the mass of Jupiter is defined as 1 M₁ = 1.90 × 1027 kg, what is the mass of Saturn (5.68 × 1026 kg) in units of M₁? 0.299 M₁ What is the mass of Uranus (8.66 x 1025 kg) in M₁? 0.0031 X Divide the mass of Uranus by the mass of Jupiter to calculate the mass of Uranus in units of Jupiter's mass.
Lorbital is the angular momentum of Jupiter in its orbit; m is the mass of Jupiter; v is the velocity of Jupiter in its orbit; r is the orbital radius of Jupiter; We know from the given information that the mass of Jupiter is 1.898 x 1027 kg, the orbital radius is 7.783 x 108 km, and the orbital period is 11.9 years.
To calculate the gravitational force between Jupiter and the sun, you can use Newton's law of universal gravitation, which is given by the formula: \[F = \dfrac{G \times m1 \times m2}{r^2}\] Where: - \(F\) is the gravitational force, - \(G\) is the gravitational constant (\(6.674 \times 10^{-11} N \cdot m^2/kg^2\)), - \(m1\) and \(m2\) are the masses of the two objects (Jupiter and the sun in ...
A: Mass of the Jupiter Mj = 1.9 ×1027 kg Radius of the Jupiter Rj = 72,000 km Mass of… Q: A person with a mass of 27 kg is standing on a planet and experiences a weight of XYZ N. If the…
The Sun exerts a massive gravitational pull on Jupiter, keeping it in its orbit around the star. Here's how we can calculate it: Define the gravitational constant: G = 6.6743 x 10^-11 Nm²/kg². Define the masses of the Sun and Jupiter: Sun: 1.99 x 10^30 kg. Jupiter: 2 x 10^27 kg. Define the distance between the Sun and Jupiter: 7.8 x 10^11 m