Mercury is the closest planet to the Sun. has a mass of 3.18 × 1023 kg and an average radius of 2.43 × 106 m. Mercury rotates very slowly, and for this problem, you can ignore this rotation when calculating forces andenergy.A. What is the acceleration due to gravity (gmercury) near Mercury's surface?B. A baseball player can throw a baseball 15 m straight up on Earth. How high could the throw the samebaseball on Mercury? Assume they can throw with the same initial speed.C. What is the escape velocity of Mercury?D. Mercury spins very slowly, and a day on Mercury lasts 5.1 × 106 s, which is actually significantly longer thana year on Mercury. Suppose you wanted to put a geosynchronous satellite in circular orbit around Mercury sothat the period of the satellite is also 5.1 × 106 s. What altitude above the surface would you need tolocate this satellite?

Detailed explanation:A. Acceleration due to gravity on Mercury (gMercury)The formula to calculate…

Answered: Mercury is the closest planet to the…

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)...

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2. a. Consider two planets orbiting a distant star. Planet A is further from the star. A is orbiting at a speed of 14625 m/s and has an orbital period of 12.45 years. What is the radius of A's orbit? Hint: remember to convert the period into seconds. 4.57E11 Previous submissions: 457000000000 b. What is the mass of the star? 1.465E30 Previous submissions: 1.465e30 kg c. Planet B is closer in. B has a larger velocity of 38500 m/s. What is the radius of B's orbit? 6.598E10 Previous submissions: m 65980000000 m m kg m incorrect incorrect V incorrect
%20tiene%20una%20masa%20de%20100%20kg%20y%20se%20encuentra%20a%20u... INGLÉS ESPAÑOL FRANCÉS A satellite of the Earth has a mass of 100 kg and is at a height of 2.0x10 3 km above the earth's surface. Determine the gravitational potential energy of the Earth-satellite system. Enviar com Tardado
An 800 kg satellite orbits Earth and take one day for complete orbit. Earth has a radiu 6,372 km and a mass of 5.972 x 10^24. A. If the radius of orbit is constant, find the altitude of the satellite above Earth's surface. B. Find the orbital speed of the satellite C. The satellite suddenly turns off, stops moving and heads straight towards the surface of Earth. At what speed will the satellite crash into the Earth's surface? (Hint: Use energy conservation)
A centripetal acceleration of 6350 m/s^2 acts on a 12400-kg satellite moving with a speed of 3,270 m/s in a circular orbit around the planet. a. What is the radius of its orbit? b. What is the centripetal force on the satellite? For the toolbar, press ALT+F10 (PC) or ALT+FN+F10 (Mac). B U S Paragraph Arial 10pt
Different situation now. You re out in space, on a rotating wheel-shaped space station of radius 978 m. You feel planted firmly on the floor , due to artificial gravity. The gravity you experience is Earth-normal, that is, g = 9.81 m/s^2. How fast is the space station rotating in order to produce this much artificial gravity? Express your answer in revolutions per minute (rpm). 0.478 rpm 0.956 rpm 0.100 rpm 97.9 rpm
Some of the most spectacular objects in the universe are fairly small: neutron stars are spheres with a diameter that's about 10km (they are remnants of old stars). Their spectacular nature is indicated by the fact that they are about as massive as the sun, i.e. 2 x 1030kg. What is the gravitational acceleration on the surface of such an object? Express your result as a multiple of g.
5. A satellite has an orbital radius 100 km above the Earth's surface. See #4 for a. What is the speed of the satellite? b. How many minutes does it take the satellite to complete one orbit? t.docx 787 Ke vew
4. Astronomers use a telescope to watch a small moon orbit a planet in our solar system. They find that it takes the moon 14 days to go around the planet once, and they estimate the radius of the moon's orbit is about 4.2 x 10² meters. a. From this information, estimate the mass of the planet. b. Using the mass you found in part (a), estimate the free-fall acceleration on the planet's surface if it has a radius of 3.8 x 106 meters.
Three satellites orbit a planet of radius R, as shown in figure given below. Satellites S1 and S3 have mass m. Satellite S2 has mass 2m. Satellite S1 orbits in 250minutes and the force on S1 is10,000 N. a. What are the periods of S2 and S3? b. What are the forces on S2 and S3? c. What is the kinetic-energy ratio K1/K3 for S1 and S3? R 2m 2R 3R
7. a. Planet Alpha has a mass of 2.34 × 1025 kg and a radius of 5.67 × 107 m. What is the gravitational acceleration on the surface of the planet? b. What is the gravitational potential energy of an 891 kg object when it is 1.23 × 108 m from the center of the planet?
Deimos, a moon of Mars, is about 12 km in diameter with mass 2.0 × 10¹5 kg. Suppose you are stranded alone on Deimos and want to play a one-person game of baseball. You would be the pitcher, and you would be the batter! a. With what speed would you have to throw a baseball so that it would go into a circular orbit just above the surface and return to you so you could hit it? Do you think you could actually throw it at this speed? b. How long (in hours) after throwing the ball should you be ready to hit it? Would this be an action-packed baseball game?

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