. . 'in a second' . . that bit makes the question impossible to answer. The distance changes with time but the orbit is stable.
24.1309 kilometers per second, on average.
100,000,000 is the answer to this question : )
The average orbital speed of Mars around the Sun is about 24.1 kilometers per second, or approximately 53,800 miles per hour.
The orbital speed goes with the inverse square-root of distance. The Earth at 1 astronomical unit goes at 18.5 miles per second, so Mars at 1.52 astronomical units travels at 18.5/sqrt(1.52) or 15 miles/sec.
Mars' average distance from the sun during the course of a complete orbital revolution is 141.6 million miles. That's about 52% farther than the earth's average distance from the sun.
24.1309 kilometers per second, on average.
100,000,000 is the answer to this question : )
The average orbital speed of Mars around the Sun is about 24.1 kilometers per second, or approximately 53,800 miles per hour.
the distance between their "average" orbital paths is 78,341,212 Km
Considering the nine known planets including Pluto, Mars is the one with the fourth smallest average orbital distance from the sun.
Planet Mars orbits the sun at an average velocity of 14.96 miles per second.
The orbital speed goes with the inverse square-root of distance. The Earth at 1 astronomical unit goes at 18.5 miles per second, so Mars at 1.52 astronomical units travels at 18.5/sqrt(1.52) or 15 miles/sec.
889,972,909 miles, based on its average orbital speed and the time taken for one orbit.
To calculate the orbital distance traveled by Venus, Mars, and Jupiter in 1, 2, and 3 seconds, we can use their average orbital speeds. Venus travels at about 35 km/s, Mars at approximately 24 km/s, and Jupiter at roughly 13 km/s. Therefore, in 1 second, Venus travels about 35 km, Mars about 24 km, and Jupiter about 13 km. In 2 seconds, the distances would be 70 km for Venus, 48 km for Mars, and 26 km for Jupiter, while in 3 seconds, they would be 105 km, 72 km, and 39 km, respectively.
The Orbital Path of Mars is circle.
It doesn't. You may be thinking of Mars. Mars shows this effect because its distance and orbital speed are suitable.
Mars' average distance from the sun during the course of a complete orbital revolution is 141.6 million miles. That's about 52% farther than the earth's average distance from the sun.