The vector form of Newton's formula for the force of gravity . . .
F = G M1M2/R2
when massaged and manipulated with some geometry and some calculus, does.
Saturn has a slower orbital speed than Jupiter. Saturn's average orbital speed is about 9.69 km/s, while Jupiter's average orbital speed is about 13.07 km/s, making Jupiter about 3.38 km/s faster than Saturn.
Because Venus has less distance to travel, and it has a faster orbital speed than the Earth.
Planets closer to the sun travel faster around it due to the stronger gravitational pull from the sun. This is described by Kepler's laws of planetary motion, where planets closer to the sun have shorter orbital periods.
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.
Mercury completes its journey around the Sun first among all the planets in our solar system. This is because it is the closest planet to the Sun, resulting in a shorter orbital path and a faster orbital speed due to the Sun's gravitational pull. Mercury takes about 88 Earth days to complete one orbit, making it the fastest planet in terms of its orbital period.
Jupiter moves faster than Mars. Jupiter's average orbital speed around the Sun is about 13.07 km/s, while Mars's average orbital speed is about 24.08 km/s.
pluto orbits around the sun faster than any planet
When a planet is closer to the sun in its orbit, it experiences higher temperatures due to increased solar radiation. This can lead to faster orbital speed and shorter orbital periods. Additionally, the gravitational pull from the sun may cause the planet to be stretched slightly along its orbital path.
No, the closer the planet, the faster the orbital rate.
The Moon's orbital speed is greatest when it is at its closest approach to the Earth.
Because Venus has less distance to travel than the Earth and is travelling faster. With an orbital speed of 35.02 km/s and an orbital period of 224.70069 days gives an orbital distance of 679,883,169.35km The Earth has an orbital speed of 29.78 km/s (Slower than Venus) and an orbital period of 365.256 days gives an orbital distance of 939,800,765.95km
Saturn has a slower orbital speed than Jupiter. Saturn's average orbital speed is about 9.69 km/s, while Jupiter's average orbital speed is about 13.07 km/s, making Jupiter about 3.38 km/s faster than Saturn.
It would fall to Earth's surface.
Yes, but it has to be travelling at the MOON'S orbital velocity, which is quite a bit more than that needed for low earth or even geosynchronous orbit. The faster one goes, the higher the orbit.
If the ISS were moving sideways faster than its orbital speed, it would move into a higher orbit or possibly escape Earth's gravity, depending on the speed. It could also potentially enter an unstable orbit that would eventually lead to reentry into the Earth's atmosphere.
It doesn't orbit earth faster. The ISS is in a lower orbit with a period of 91 minutes compared to the Hubble's orbital period of 96-97 minutes. Orbital periods generally increase with orbit radius and speed in the orbit decreases with increasing orbit radius.
Mercury