A planet with mass 8 × 1024 kg orbits a sun with a period of 1...

The planet Mercury has an orbital period of 87.97 days, and its greatest distance (aphelion distance)...

The planet Mercury has an orbital period of 87.97 days, and its greatest distance (aphelion distance) from the Sun is 0.4667 AU {where 1 AU " 1 Astronomical Unit = 1.496x1011 m}. The mass of the planet Mercury is 3.302x1023 kg and the mass of the Sun is 1.988x1030 kg. (a) Calculate the eccentricity of planet Mercury’s orbit around the Sun. ! (b) Calculate the highest speed of planet Mercury as it orbits around the Sun?

A planet has been discovered around a Sun-like star with an estimated mass of 54.3 times...

A planet has been discovered around a Sun-like star with an estimated mass of 54.3 times the Earth\'s mass and an estimated radius of 15.1 times the Earth\'s radius. It has been hypothesized that the planet has abundant hydrogen in its atmosphere. In order for the planet to maintain a hydrogen atmosphere for a significant amount of time, the planet\'s temperature must be less than some maximum temperature. Recall that the mass of Earth is 5.97 × 1024 kg and...

In a shuttle craft of mass m = 1900 kg, Captain Janeway orbits a planet of...

In a shuttle craft of mass m = 1900 kg, Captain Janeway orbits a planet of mass M = 5.98×1024 kg, in a circular orbit of radius r = 6.80×106 m. Janeway briefly fires a forwardpointing thruster, reducing her speed by 4.6percent.(Assume that there was a negligible change in the mass of the craft). Just then, what are ... (e) the gravitational potential energy (f) the mechanical energy of the shuttle craft (g) What is the semimajor axis of the...

A 2.8  104 kg spacecraft orbits a planet of mass 1.2  1025 kg. The...

A 2.8  104 kg spacecraft orbits a planet of mass 1.2  1025 kg. The craft's orbital radius is 3.6  108 m. A) Find the orbital speed of the craft. B) How much energy must the craft gain if it moves to a new orbit of radius 7.2  108 m? C) What will be the period of the new orbit?

A planet of mass ?=4.55×1024 kg is orbiting in a circular path a star of mass...

A planet of mass ?=4.55×1024 kg is orbiting in a circular path a star of mass ?=8.55×1029 kg . The radius of the orbit is ?=1.75×107 km . What is the orbital period (in Earth days) of the planet ?planet ?

12). A planet of mass 34,000 kg is orbiting around the Sun in a circular path...

12). A planet of mass 34,000 kg is orbiting around the Sun in a circular path so that it currently is 2x10^11 m from the Sun and traveling at 20 km/s. Six months later, the planet is 0.6x10^11 m from the Sun. If we assume angular momentum is conserved, how fast is it orbiting?

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.

A planet orbits a star of mass 8.72×10^30 kg with a period of 5.72 years. It...

A planet orbits a star of mass 8.72×10^30 kg with a period of 5.72 years. It is also known that the planet has an eccentricity of 0.664. Give Answers in Meters 1. What is the semi-major axis of the planet's orbit? 2. What is the average velocity of the planet in its orbit? 3. What is the distance of the closest approach to its parent start (perihelion)? 4. What is the farthest distance the planet travels away from its parent...

A planet of mass 9 × 1024 kg is at location <-6 × 1011, 4 ×...

A planet of mass 9 × 1024 kg is at location <-6 × 1011, 4 × 1011, 0> m. A star of mass 6 × 1030 kg is at location <9 ×1011, -8 × 1011, 0> m. What is the force exerted on the planet by the star? (It will probably be helpful to draw a diagram, including the relevant vectors.) F→on⁢planet= < ,  , > N

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?