Use Kepler's Third Law: "The square of the orbital period of a planet is directly proportional to the cube of the semi-major axis of its orbit."
That is, take the cube of 1/2, and calculate the square root of the result; or simply raise 1/2 to the power 1.5 (that is, 3/2) (any scientific calculator can handle that). In this case, the result is approximately 0.35 times the period of the Moon.
Use Kepler's Third Law: "The square of the orbital period of a planet is directly proportional to the cube of the semi-major axis of its orbit."
That is, take the cube of 1/2, and calculate the square root of the result; or simply raise 1/2 to the power 1.5 (that is, 3/2) (any scientific calculator can handle that). In this case, the result is approximately 0.35 times the period of the Moon.
Use Kepler's Third Law: "The square of the orbital period of a planet is directly proportional to the cube of the semi-major axis of its orbit."
That is, take the cube of 1/2, and calculate the square root of the result; or simply raise 1/2 to the power 1.5 (that is, 3/2) (any scientific calculator can handle that). In this case, the result is approximately 0.35 times the period of the Moon.
Use Kepler's Third Law: "The square of the orbital period of a planet is directly proportional to the cube of the semi-major axis of its orbit."
That is, take the cube of 1/2, and calculate the square root of the result; or simply raise 1/2 to the power 1.5 (that is, 3/2) (any scientific calculator can handle that). In this case, the result is approximately 0.35 times the period of the Moon.
Use Kepler's Third Law: "The square of the orbital period of a planet is directly proportional to the cube of the semi-major axis of its orbit."
That is, take the cube of 1/2, and calculate the square root of the result; or simply raise 1/2 to the power 1.5 (that is, 3/2) (any scientific calculator can handle that). In this case, the result is approximately 0.35 times the period of the Moon.
there is 36 satellite moons I think.
Venus has no moons or other identified satellites.
When you observe the motion of a satellite you can infer the mass of the planet via Kepler's laws.
venus does not have any natural satellite ...
Moons and planetary rings can revolve around a planet.A satellite or moon.A satellite or if it's big enough a moon
there is 36 satellite moons I think.
The Moon has no satellite.
Any satellite that is NOT placed into orbit by humans (or, potentially, aliens).Basically, our Moon - and the moons that orbit other planets.
Earth has only one natural satellite, the Moon. Butthousands of small artificial satellites have also been placed in orbit around the Earth.Asteroids 3753 Cruithne and 2002 AA29 have complicated orbital relationships with the Earth; they're not really moons, the term "companion" is being used. It is somewhat similar to the situation with Saturn's moons Janus and Epimetheus.Lilith doesn't exist but it's an interesting story.Distance Radius Mass Satellite (000 km) (km) (kg) --------- -------- ------ ------- Moon 384 1738 7.35e22
Jupiter is not a satellite, it is a planet.
There are, or were, a number of artificial satellite around it, but nothing natural.
The moons average radius in miles is 1079 miles.
The satellite Triton is on the planet Neptune. It is the largest of Neptune's moons. Neptune has 13 moons. It orbits in the opposite direction if its planet's rotation.
Our moon is a natural satellite, along with all the moons in the solar system.yh
A moon is also a satellite. Just to be clear, the only planets that do not have moons are Mercury and Venus. The rest do have moons.
Two. Phobos and Deimos
Satellite's, anything that circles a planet.