if the sun has mass of 1.989*10^30kg another planet rotating around it has mass 1.898*10^27kg use...
4. The planet Earth orbits around the Sun and also spins around its own axis. (a) Calculate the angular momentum of Earth in its orbit around the sun. (b) Calculate the angular momentum of Earth spinning on its axis. (c) What is the ratio of the angular momentum of Earth in its orbit to the angular momentum of Earth about its axis?
What is the angular kinetic energy of the Earth due to its orbit around the sun? In Homework 10, you found the two main angular velocities of the Earth: one due to the Earth's motion around the sun, and one due to its rotation about its own axis. Now let's figure out the energy and momentum associated with that motion. IVO ALV O a ? For the purposes of this problem, treat the Earth as a solid, uniform sphere with...
(a) Calculate the angular momentum (in kgm/s) of Neptune in its orbit around the Sun (The mass of Neptune is 1.020 x 10% ko, the orbital radius is 4.497 x 10 km and the orbital period is 165 y.) kg. m/s (6) Compare this angular momentum with the angular momentum of Neptune on its axis. (The radius of Neptune is 2.476 x 10 km and the rotation period is 16.11 h.) Lorbital - rotation
1. A moon of mass \(m\) orbits around a non-rotating planet of mass \(M\) with orbital angular velocity \(\Omega\). The moon also rotates about its own axis with angular velocity \(\omega\). The axis of rotation of the moon is perpendicular to the plane of the orbit. Let \(I\) be the moment of inertia of the moon about its own axis. You can assume \(m<<M\)so that the center ofmass of the system is at the center of the planet.(a) What is...
planet X travels in a circular motion orbit around the Sun. The radius of Planet X is twice that of Earth. The year on Planet X is 540 Earth years. The mass of Planet X is half that of Earth. The mass of the sun is 1.99*10^30 kg. The Earth's orbital distance from the Sun is 1.50*10^11 m.
What is the angular momentum of Neptune in a circular orbit around the Sun? Mass of sun is 1.989x10^30 kg, mass of Neptune is 1.898x10^27 kg. Gravitational Constant: G=6.67x10^-11Nm^2/kg^2. Radius of orbit around the sun is 7.786x10^8 km.
(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
A planet has a mass of 7.5x1024 kg and travels in a nearly circular orbit around a star as shown. When it is at location A, the velocity of the planet is o, o, -1.5x104 m/s. When it reaches location B, the planet's velocity is-1.5x104, 0, 0 m/s. We're looking down on the orbit from above, with +x to the right and +z down the page. 1 Sun (a) what is Δp, the change in the momentum of the planet...
Astronomers discover an exoplanet (a planet of a star other than the Sun) that has an orbital period of 3.97 Earth years in its circular orbit around its sun, which is a star with a measured mass of 3.41 times 10^30 kg. Find the radius of the exoplanet's orbit. _____ m
Astronomers discover an exoplanet (a planet of a star other than the Sun) that has an orbital period of 3.77 Earth years in its circular orbit around its sun, which is a star with a measured mass of 3.79 x 1030 kg. Find the radius of the exoplanet's orbit. radius: