Find a model for the orbit of Comet Hale-Bopp around the Sun. Use the x –...

Chiron is a comet in orbit around the Sun. Chiron's orbital period is about 50.4 years...

Chiron is a comet in orbit around the Sun. Chiron's orbital period is about 50.4 years and the orbit has an eccentricity of about 0.38.   1) average distance from the Sun, a = ___________ AU (round to the first decimal place, 3 significant figures) Set the semimajor axis equal to the a you found using Kepler's 3rd Law. 2) P squared = _____________ (round to the nearest hundred) 3) a cubed =________________ (round to the nearest hundred) Click on show...

The spectacular comet Hale-Bopp was last visible with the naked eye in 1997 as it passed...

The spectacular comet Hale-Bopp was last visible with the naked eye in 1997 as it passed the Sun at it closest distance of 0.91 astronomical units (A.U.) Its previous close approach to the Sun (called perihelion) occurred near the beginning of Ancient Greece, around 500 B.C. a) What is the semi-major axis of its orbit in A.U.? b) What is its aphelion distance (its farthest distance from the Sun) in A.U.? c) As it passed the Sun, its velocity with...

A comet of mass 1.20 ✕ 1010 kg moves in an elliptical orbit around the Sun....

A comet of mass 1.20 ✕ 1010 kg moves in an elliptical orbit around the Sun. Its distance from the Sun ranges between 0.200 AU and 62.0 AU. (Note: 1 AU = one astronomical unit = the average distance from the Sun to Earth = 1.496 ✕ 1011 m.) (a) What is the eccentricity of its orbit? (b) What is its period? ______yr (c) At aphelion what is the potential energy of the comet-Sun system? _____J

A comet moves about the Sun in an elliptical orbit, with its closest approach to the...

A comet moves about the Sun in an elliptical orbit, with its closest approach to the Sun being about 0.410 AU and its greatest distance from the sun being 45.0 AU (1 AU = the Earth-Sun distance). (a) Which of the comet's properties are conserved as the comet goes around the Sun? Select all that apply. angular momentum potential energy kinetic energy linear momentum total energy (b) If the comet's speed at closest approach is 54.0 km/s, what is its...

Spacecraft orbit Initial orbit radius (km) 7000 Comet properties semi major axis (Au) 1.5 eccentricity 0.2...

Spacecraft orbit Initial orbit radius (km) 7000 Comet properties semi major axis (Au) 1.5 eccentricity 0.2 inclination (deg) 10 argument of perihelion (deg) 60 Comet mass(kg) 3E16 Consider the requirement to transfer a satellite, initially in an elliptical orbit about the Earth that is to be to be placed in orbit about a Comet. You should note from the data that is provided to you that this target Comet orbit is neither circular nor a coplanar orbit with the initial...

A planet is in a circular orbit around the sun. Use Newton's law of gravity and...

A planet is in a circular orbit around the sun. Use Newton's law of gravity and his second law of motion to calculate the period of the planet (in day). Data: Mass of sun = 1.989 e+30 kg; Mass of planet = 6.0 e+24 kg; Orbit radius = 1.496 e+11 m.

A comet of mass 2.20 ×1014 kg orbits the sun of mass 1.99 × 1030 kg...

A comet of mass 2.20 ×1014 kg orbits the sun of mass 1.99 × 1030 kg with a period of 365 days/year on an elliptical orbit of eccentricity 0.967. a) Find the Perihelion and Aphelion, i.e. the closest and farthest distance between the sun and the comet. b) Find the linear speed of the comet at the Perihelion.

The minimum distance of a comet from the Sun is observed to be an eighth of...

The minimum distance of a comet from the Sun is observed to be an eighth of the radius of the Earth’s orbit (which is assumed to be circular), and its speed at that point (the perihelion) is four times the orbital speed vE of the Earth. The orbits of the Earth and comet are coplanar. a) Find the comet’s speed in terms of vE when it crosses the Earth’s orbit, and the angle at which the orbits cross. b) Will...

[5 marks] Astronomers have estimated that the nucleus of comet Hale-Bopp had a mass of 2.10...

[5 marks] Astronomers have estimated that the nucleus of comet Hale-Bopp had a mass of 2.10 x 1015 kg and that it lost mass at an average rate of about 350,000 kg/s during the 100 days that it spent on its most recent pass close to the Sun. Estimate the total amount of mass lost during this encounter with the sun. If it loses this amount of mass with each encounter with the sun, how many orbits can it make...

The planet Earth orbits around the Sun and also spins around its own axis. A)  Calculate the...

The planet Earth orbits around the Sun and also spins around its own axis. A)  Calculate the angular momentum of the Earth in its orbit around the Sun in kg • m2/s B) Calculate the angular momentum of the Earth spining on its axis in kg•m2/s C) How many times larger is the angular momentum of the Earth in its orbit than the angular momentum of the Earth around its axis?