Webb12 sep. 2024 · The radius of Earth is 6.37 x 10 6 m, so the center of mass of the Earth-moon system is (6.37 − 4.64) x 10 6 m = 1.73 x 10 6 m = 1730 km (roughly 1080 miles) below the surface of Earth. The location of the center of mass is shown (not to scale). WebbThe radius of the moon is roughly 1080 miles. The acceleration of gravity at the surface of the moon is about 0.165g, where g is the acceleration of gravity at the surface of the earth. Determine the velocity of escape for the moon (in miles/sec). (Hint: g = …
Someone weighs 200 pounds on the surface of the Earth. If the radius …
Webb6 maj 2024 · The radius of the moon is about 1080 miles. a. Find the surface area of Earth and the moon. Round your answer to the nearest tenth of a million. The surface area of the Earth is about million square miles and the surface area of the Moon is about million square miles. b. Compare the surface areas of Earth and the moon. Webb19 feb. 2024 · Explanation: Work= Force * Distance= Fh. F=ma=mg where m is mass and g is acceleration due to gravity. Work= 165 pounds *g* 1080 m= 178200 g mile pounds. … sharps education
In Depth Earth – NASA Solar System Exploration
WebbThe radius of Moon is about 1080 miles. The orbit of the Moon around the earth is not circular but elliptical. Moon moves round the Earth from the West to the East with reference to the fixed stars by 13.2 deg. The Moon is the fastest moving of the planets. Webb17 feb. 2024 · Person will weigh 128 pounds, 1000 miles above the surface. Weight of an object is the force of gravitation on the object. As force of gravitation F is directly proportional to the two objects, here m_o, mass of object and m_E, mass of Earth and inversely proportional to the square of the distance between them. Constant of … Webb27 feb. 2013 · The radius of the moon is roughly 1080 miles. The acceleration of gravity at the surface of the moon is about 0.165g, where g is the acceleration of gravity at the surface of the earth. Determine the velocity of escape for the moon. (Hint: g = 32.16 … sharp secure print