Kepler's harmonic law states that the distance of a planet from the Sun corresponds to the period of time it takes the planet to
orbit the Sun. The formula looks like this: . Which statement best describes this formula summarizing Kepler's harmonic law? The square of the orbital period of a planet around the sun is proportional to the cube of the planet's orbital radius. The square of the orbital radius of a planet to the sun is proportional to the cube of the planet's orbital period. The cube of the planet's orbital radius equals the orbital period of a planet around the sun. The orbital period to the second power of a planet around the sun is proportional to the planet's orbital radius to the fourth power.
<span>Kepler’s harmonic law is the
third law of the Planetary Motion. He discovered this after ten years that
there is a relation between the time of a planet’s orbit and its distance from
the sun. The harmonic law states that <u>the squares of the orbital periods of
the planets around the Sun are proportional to the cubes of the planet’s orbital
period</u>. <u> </u> </span>
A species must have an appropriate food source, not have too many predators feeding on them, and have a suitable climate for which the species is adapted to.
Since urban areas feature high concentrations of people, they are also more deadly during natural disasters. If climate change leads to more frequent and intense storms and floods, high-density population centers will be among the most exposed.
