***************************************************************************************************
Check the answer and let me know immediately if you
find something wrong... I will rectify the
mistakes asap if any
The mass of Saturn is 5.684 × 1026 kg and its orbital radius is an average...
The mass of Saturn is 5.684 × 1026 kg and its orbital radius is an average of 1.427 × 1012 m. Calculate its linear momentum. (The orbital period of Saturn is 29.46 years. Enter your answer in kg m/s.) kg-m/s
The mass of Jupiter is 1.898 × 1027 kg and its orbital radius is an average of 7.783 × 1011 m. Calculate its linear momentum. (The orbital period of Jupiter is 11.86 years Enter your answer in kg m/s.) kg m/s
(a) Calculate the rotational kinetic energy (in J) of Saturn on its axis. (Assume its mass to be 5.69 ✕ 1026 kg, the period about its axis to be 10.2 h, and its diameter to be 1.21 ✕ 105 km.) J (b) What is the rotational kinetic energy (in J) of Saturn in its orbit around the Sun? (Assume its distance from the sun to be 1.43 ✕ 109 km and its period about the sun to be 10800 days.)...
A student is given the set of orbital data for some of the moons of Saturn shown below and is asked to use the data to determine the mass Ms of Saturn. Assume the orbits of these moons are circular. Write an algebraic expression for the gravitational force between Saturn and one of its moons. Use your expression from part (a) and the assumption of circular orbits to derive an equation for the orbital period T of a moon as...
A comet orbits the Sun in 4,063 years. What is its average orbital distance from the Sun? Express your answer in AU (enter "AU" for units) and round it to the nearest integer А. An asteroid orbits the Sun at an average orbital distance of 3.12 AU. What is its average orbital period? Express your answer in years (enter "years" for units) and round it to two decimals. В. A moon orbits a planet in 1.5 days. What is the...
(a)Calculate the angular momentum (in kg · m2/s) of Mars in its orbit around the Sun. (The mass of Mars is 6.420 ✕ 1023 kg, the orbital radius is 2.279 ✕ 108 km and the orbital period is 1.88 y.) kg · m2/s (b)Compare this angular momentum with the angular momentum of Mars on its axis. (The radius of Mars is 3.396 ✕ 103 km and the rotation period is 24.62 h.) Lorbital Lrotation
3.) The earth can be regarded as a solid sphere of mass 5.98x10*kg with a radius of 6.37x10 m. The earth orbits the sun in a circular orbit of radius 1.50x10"m. Su Earth R= 1.50x 101 hm a) Find the angular momentum of the ea rth (in kg, m and s) with respect to its center of mass. Use your own knowledge about the rate of rotation of the earth. b) Find the total angular momentum (in kg, m and...
A satellite is in orbit about Earth. Its orbital radius is 5.56×107 m. The mass of the satellite is 8541 kg and the mass of Earth is 5.974×1024 kg. Determine the orbital speed of the satellite in mi/s. 1 mi/s = 1609 m/s.
Calculate the angular momentum (in kg · m2/s) of Mercury in its orbit around the Sun. (The mass of Mercury is 3.300 ✕ 1023 kg, the orbital radius is 5.790 ✕ 107 km and the orbital period is 0.241 y.) 9.213e32 is wrong
Mass Radius Orbital Radius Orbital Period Moon A 4.0 x10^20 kg unknown 2.0 x10^8 m 4.0 x10^6 s Moon B 1.5 x10^20 kg 2.0 x10^5 m 3.0 x10^8 m unknown Mithra is an unknown planet that has two airless moons, A and B, in circular orbits around it. The table summarizes the hypothetical data about these moons. If you dropped a laser at the surface of Moon B, at what rate would it accelerate toward the ground? ( G =...