Classical Mechanics problem: Assume Earth’s orbit is circular (a good approximation) and that the Sun’s mass...

Assume earth’s orbit to be circular and that Thanos has snapped his fingers and decreased the...

Assume earth’s orbit to be circular and that Thanos has snapped his fingers and decreased the sun’s mass by half for inadequately explained reasons. What orbit does the earth have then? Will the earth escape the solar system?

(a) Using elementary Newtonian mechanics find the period of a mass m 1in a circular orbit...

(a) Using elementary Newtonian mechanics find the period of a mass m 1in a circular orbit of radius r around a fixed mass m 2. (b) Using the separation into CM and relative motions, find the corresponding period for the case that m 2is not fixed and the masses circle each other a constant distance r apart. Discuss the limit of this result if m 2oo. (c) What would be the orbital period if the earth were replaced by a...

Problem: Orbital Mechanics A spaceship is waiting for launch at the Kennedy Space Center (Located at...

Problem: Orbital Mechanics A spaceship is waiting for launch at the Kennedy Space Center (Located at Latitude 28.52o North of the Equator) . The spaceship has a mass of m = 2000 kg. a) What is the gravitational potential energy the spaceship has sitting and waiting for launch. b) What is the kinetic energy the spaceship has sitting and waiting (calculate K relative to the center of the earth). c) The spaceship is attached to rockets that are going to...

This is Problem 4.53 from John Taylor Classical Mechanics (a) Consider an electron (charge -e and...

This is Problem 4.53 from John Taylor Classical Mechanics (a) Consider an electron (charge -e and mass m) in a circular orbit of radius r around a fixed proton (charge +e). Remembering that the inward Coulomb force ke²/r² is what gives the electron its centripetal acceleration, prove that the electron's KE is equal to -1/2 times its PE; that is, T = -1/2 U and hence E = 1/2 U. Now consider the following inelastic collision of an electron with...

For the purposes of this problem, treat the Earth as a solid, uniform sphere with mass...

For the purposes of this problem, treat the Earth as a solid, uniform sphere with mass 5.97×1024 kg and radius 6.37×106 m, and assume that the Earth's orbit around the sun is circular with a radius of 1.5×1011 m.   (A) What is the angular kinetic energy of the Earth due to its orbit around the sun? (B) What is the magnitude of the Earth's angular momentum due to its orbit around the sun? (C) What is Earth's angular kinetic energy...

Problem Solving: LightSail 2 LightSail 2 was a satellite that was designed to use solar radiation...

Problem Solving: LightSail 2 LightSail 2 was a satellite that was designed to use solar radiation to change its altitude as it circled Earth. The spacecraft had a mass of 5.0kg. It was originally launched by a rocket with its sail closed, and established an orbit at an altitude of 720 km above Earth’s surface. Then it deployed its sail, which had an area of 32m2 . Assume the sail is completely reflective. 1) After a full month of “½...