A rock far outside a solar system similar to ours is initially moving very slowly relative to its sun, in the plane of the orbit of a large planet (about the size of Jupiter) around its sun. The rock falls toward the sun, but on its way to the sun it collides with the planet. The mass of the planet is 7 x 1027 kg, the mass of its sun is 3.1 x 1030 kg, the radius of the planet is 1.3 × 108 m, and the center-to-center distance from the planet to the sun is 8.5 x 1011 m.

A rock far outside a solar system similar to ours is initially moving very slowly relative to its sun, in the plane of the orbit of a large planet (about the size of Jupiter) around its sun. The rock falls toward the sun, but on its way to the sun it collides with the planet. The mass of the planet is 7 x 1027 kg, the mass of its sun is 3.1 x 1030 kg, the radius of the planet is 1.3 × 108 m, and the center-to-center distance from the planet to the sun is 8.5 x 1011 m.

Name: This problem is closely related to the spectacular impact of the come
Uploaded: 2024-03-20T06:58:04.000Z
Channel: Bartleby
Description: This problem is closely related to the spectacular impact of the comet Shoemaker-Levy with Jupiter in July 1994. (More informationabout the event can be found here.)A rock far outside a solar system similar to ours is initially moving very slowly re

College Physics

11th Edition

ISBN:9781305952300

Author:Raymond A. Serway, Chris Vuille

Publisher:Raymond A. Serway, Chris Vuille

Chapter1: Units, Trigonometry. And Vectors

Section: Chapter Questions

Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...

See similar textbooks

Similar questions

A satellite of Mars, called Phobos, has an orbital radius of 9.4 ✕ 106 m and a period of 2.8 ✕ 104 s. Assuming the orbit is circular, determine the mass of Mars. (ans kg)
You are the science officer on a visit to a distant solar system. Prior to landing on a planet you measure its diameter to be 1.50×107 m and its rotation period to be 22.3 hours. You have previously determined that the planet orbits 2.50×1011 m from its star with a period of 402 earth days. Once on the surface you find that the free-fall acceleration is 13.1m/s2. What is the mass of the planet? Express your answer with the appropriate units. What is the mass of the star? Express your answer with the appropriate units.
A satellite has a mass of 6398 kg and is in a circular orbit 4.41 × 105 m above the surface of a planet. The period of the orbit is 1.5 hours. The radius of the planet is 4.58 × 106 m. What would be the true weight of the satellite if it were at rest on the planet’s surface?
A satellite circles the earth in an orbit whose radius is 3.35 times the earth's radius. The earth's mass is 5.98x1024kg, and its radius is 6.38x106m. What is the period of the satellite?
The centers of the earth and its moon are separated by an average of 3.84 c 10^5 m and the moon's mass is 7.35 c 10^22 kg. What does Earth's moon exert on a 10 kg mass?
The is a planet orbiting the sun. Its mass is 9.3 x 10^22kg and it is traveling in a circular orbit at 9.5km/s. The suns mass is 1.982 x 10^31 kg. How far is the planet from the sun?
A 500 kg satellite remains at the same location relative to a location on a Planet Mars that rotates on its axis. The distance from the center of the Planet Mars to the satellite is r = 3.03 x 107 m. (M Mars = 6.42 x 1023 kg, G = 6.67 x 1011 kg 1 m3/s2 %3D (a) What is the equation used to calculate the orbital period, T of the satellite? 472 T3 = %3D GMMars 472 T2 = 73 GM Mars %3D 472 %3D GM Satellite (b) Calculate the orbital period, T of the satellite (your answer must be in 2 decimal places) Your answer is x 105 s (c) What is the equațion used to calculate the speed of satellite? G MMars
Scientists want to place a 2800 kg satellite in a circular orbit around Mars. They plarto have the satellite orbit at a speed of 2100 m/s. How far above the surface of Mars will the satellite orbit? Mmars = 6.5 x 10^23 kg mars = 3.40 x 10^6 m G= 6.67 x 10^-11 N-m2/kg?
Jupiter is about 300 times more massive than Earth. One might quickly conclude that an object on the surface of Jupiter would weigh 300 times more than on the surface of the Earth. For instance, one might expect a person who weighs 500 N on Earth would weigh 150000 N on the surface of Jupiter. Yet this is not the case. In fact, a 500-N person on Earth weighs about 1500 N on the surface of Jupiter. Explain how this can be.
a height of 1000 km. The radius of the earth is 6.38 × 10³ km. Mass of A satellite revolves around the earth at a of 1000 km. The radius of the earth is 6.38 × 10° km. Mass the earth is 6 × 10 2 - 2 24 6.67 × 10¬1" N-m² kq- kg and G Determine its orbital velocity and period of revolution.