Please explain step by step! Useful Planetary Data Mean Radius (m) 243 × 106 6.06 ×...
A synchronous satellite, which always remains above the same point on a planet's equator, is put in orbit around Mars so that scientists can study a surface feature. Mars rotates once every 24.6 h. Use the data of this table to find the altitude of the satellite. Please show how you figured this out step by step! Useful Planetary Data Mean 10-19 ..3 Mean Distance Radius (m Mass (kg) Period (s) Body from Sun (m) 2.48 X 10 7.60 x...
6.4 Please help me answer & explain all parts! And please make sure handwriting is legible. Astronomical Data 4. Every planet (and moon) has its own acceleration due to gravity based on its mass and radius. Use the astronomical data in the back of the book for the following. A. What is the acceleration due to gravity on Venus? B. What is the acceleration due to gravity 'on' Uranus? (This is a gas giant so 'on' is relative.) Astronomical Data...
Table 13.1 Solar system data (in SI units and relative to Earth) Orbit eccentricity Mass Equatorial radius semimajor axis period (a^) (years) 30 Sun 2.0 X 10 3.3 × 10 Mercury 3.30 X 1023 Venus 4.87 X 1024 Earth Mars Jupiter 1.90 x 1027318 Saturn 5.68 × 1026 95.2 Uranus 8.68 X 1014.5 Neptune 1.02 x 102617.1 Pluto 2.440 ×106 6.052 X 106 6.378 X 106 3.396 × 106 5.79×1010 1.082 x 1011 1.496 × 1011 2.279 ×1011 11.2 7.783...
1 (10 pts). In 1601 the German astronomer Johannes Kepler became director of the Prague Observatory. Kepler had been helping Tycho Brache in collecting 13 years of observations on relative motion of the planet Mars. By 1609, Kepler had formulated his first two laws of planetary motion: i. Each planet moves on an ellipse with the sun at one focus. ii. For each planet, the line from the sun to the planet sweeps out equal areas is equal times. Kepler's...
Pluto -1.4 x 10 1.5 x 10 1.02 X 1 Moon 7.36 x 1022 1.991 x 1030 1.74 x 106 6.96 x 108 Sun -13 POINTS SERCP11 7.5.P.044. A 716-kg satellite is in a circular orbit about Earth at a height above Earth equal to Earth's mean radius. (a) Find the satellite's orbital speed. m /s (b) Find the period of its revolution. (c) Find the gravitational force acting on it. Need Help? Read it -18 POINTS SERCP9 7.P.031.MI.FB. A...