Earth's average orbital velocity around the Sun is about 29.78 km/s, while Mercury, being closer to the Sun, has a higher average orbital velocity of approximately 47.87 km/s. This difference is primarily due to Kepler's laws of planetary motion, which state that planets closer to the Sun travel faster in their orbits. As a result, Mercury orbits the Sun more quickly than Earth.
The orbital period of the planet Mercury around the sun is approximately 88 Earth days. Mercury has a relatively short orbital period due to its proximity to the sun, which causes it to move quickly in its orbit.
The orbital inclination of Mercury is about 7 degrees. This means that its orbit is inclined by 7 degrees relative to the plane of Earth's orbit around the Sun.
In theory, yes. You merely need to run at a little faster than orbital velocity at Earth's surface, and boom, there you are. This may prove a problem in practice, since orbital velocity at Earth's surface is about 5 miles per second.
Orbital Velocity is calculated in m/s where as angular velocity is calculated in rad/s.. Answer is very clear.. angular velocity is calculated when body is rotating around a axis and a reference point is needed to calculate it.. where as orbital velocity is calculated when body is moving around a bado in circular path, nt around itself... e.g. Earth rotates around so it have angular velocity .. it also rotates around sun in orbit so it has Orbital velocity also :)
On that date Earth is farthest away from the Sun.
Nope. Mercury has an orbital velocity of 47.9km/s, whereas Earth has an orbital velocity of 29.8km/s.
Pluto is the planet that has the lowest orbital velocity relative to that of the earth. The orbital velocity of Pluto is 0.159.
Any planets that are nearer to the sun than the earth is. The two known ones are Mercury and Venus.
The orbital velocity of an object depends on its distance from the center of mass it is orbiting. For example, the orbital velocity of the Moon around Earth is about 1 km/s, while the orbital velocity of the International Space Station (ISS) around Earth is about 8 km/s.
perihelion
perihelion
The velocity a rocket must reach to establish an orbit around the Earth is called orbital velocity. It is the speed required for an object to overcome gravitational pull and maintain a stable orbit around the planet. The orbital velocity depends on the altitude of the orbit and follows Kepler's laws of planetary motion.
About 88 Earth days.
It's about 88 Earth Days.
The orbital period of the planet Mercury around the sun is approximately 88 Earth days. Mercury has a relatively short orbital period due to its proximity to the sun, which causes it to move quickly in its orbit.
The orbital inclination of Mercury is about 7 degrees. This means that its orbit is inclined by 7 degrees relative to the plane of Earth's orbit around the Sun.
In theory, yes. You merely need to run at a little faster than orbital velocity at Earth's surface, and boom, there you are. This may prove a problem in practice, since orbital velocity at Earth's surface is about 5 miles per second.