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Step 1: Identify the mass and radius of the planet. Step 2 : Calculate the acceleration due to gravity on the surface of that planet using the equation {eq}g = \dfrac{GM}{R^2} {/eq}.
Mars has a mass, MMars = 6.4 x 10^23 kg, and the radius of Mars, RMars = 3.4 x 10^6 m. Its distance is approximately 1.5 times the distance from the sun to the Earth. The orbit of Mars is close to circular, and it has a day like the Earth.
Mars makes one complete orbit of the Sun every 1.88 years. Calculate the radius of the orbit of Mars. Calculate the orbital period of Mars (in yr) from knowledge of G, the mass of the sun (M = 1.99 x 10^30 kg), and the orbital radius of Mars of 1.52 A.U. The intensity of solar radiation reaching Mars averages about 580 W/m^2.
The mass of Mars is 6.418 \times 10^{23} kg and its radius is 3.38 \times 10^6 m. The acceleration due to gravity "g" on the surface of Earth is approximately 2.6 times that on the surface of Mars. Given that the radius of Mars is about one half the radius of Earth, the ratio of the escape velocity on Earth to that on Mars is approxima
Suppose you perform this same experiment on Mars and you measure an acceleration due to gravity of 3.77 m / s^2. Given that the radius of Mars is 3.37 times 10^6 m, what is the mass of Mars? Find the magnitude of the gravitational force on Mars, with a mass of 6.34\times 10^{23}\ \mathrm{kg} and a radius of 3.43\times 10^6\ \mathrm{m}.
Compare the gravitational force on a 35 kg mass at the surface of the Earth (with radius 6.4*10^6 m and mass 6*10^{24} kg) with that on the surface of the Moon with mass 1 81.3 ME and radius 0.27RE. Mars rotates on its axis once every 24.8 hours, its mass is 6.42 \times 10^{23} kg and its radius is 3.37 \times 10^6 m. Free-fall acceleration on ...
The Moon has a mass of 7.35*10^{22} kg and its equatorial radius is 1.74*10^6 m. Earth s mass is 5.97*10^{24} kg and its equatorial radius is 6.38*10^6 m. Calculate the magnitude of the gravitational; The escape speed from a planet of mass 2.7\times1024 kg is 6.8 \frac{km}{s} . What is the planet's radius? in meters
Mars has a mass, MMars = 6.4 x 10^23 kg, and the radius of Mars, RMars = 3.4 x 10^6 m. Its distance is approximately 1.5 times the distance from the sun to the Earth. The orbit of Mars is close to circular, and it has a day like the Earth. What is the esc; A dwarf planet orbits the sun at a radius of 3.01 \times 10^{14} m.
The radius of Mars (from the center of just above the atmosphere) is 3,400 km, and its mass is 6 x 10^23 kg. An object is launched straight up from just above the atmosphere of Mars. a. What initial speed is needed so that when the object is far from Mars
The acceleration due to gravity "g" on the surface of Earth is approximately 2.6 times that on the surface of Mars. Given that the radius of Mars is about one half the radius of Earth, the ratio of the escape velocity on Earth to that on Mars is approxima; The mass of Venus is 81.5% that of the earth, and its radius is 94.9% that of the earth.