The period of geostationary artificial satellite is Kepler's Law

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Answer: 24 hours
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  1. The period of the Moon's orbit is 27.0 days. The radius of the Moon's orbit is 3.8 ×1083.8\ \times10^83.8 ×108 m. The period of a geostationary satellite is 1 day. What is the radius of the geostationary satellite's orbit.

  2. The period of a satellite in a circular orbit of radius R is T. The period of another satellite in circular orbit of radius 4R is

  3. If r represents the radius of the orbit of a satellite of mass m moving round a planet of mass M the velocity of the satellite is given by

  4. Using Newton's law of gravity: F = Gm1m2/d2.What will happen to the gravitational force of a satellite if the mass and the distance from Earth’s center is doubled?

  5. The speed at which any planet moves through space is constantly changing. In a perfectly circular orbit, the orbital radius of the planet would be constant and therefore so would be its observed angular velocity. In elliptical orbits, the velocity varies. In elliptical orbits, the orbital radius of the satellite will vary and therefore so will its velocity. The planet travels "faster" when closer to the Sun, then "slower" at a more distant radius. According to Newton's 2nd Law, what is the underlying force behind this change in velocity?

  6. In order for a satellite to orbit in a higher orbit, what must be true about its speed

  7. What is the period of Axial Tilt?

  8. Kepler’s 3rd law states the square of the orbital period is proportional to the cube of the orbital radius. (T2=r3)If a planet's orbital radius is doubled, what happens to the length of a year on that planet?

  9. An orbital period is the time (in Earth time) a planet _______________ .​

  10. What unit to we usually use to to measure a planet's orbital period?

  11. The orbital radius of Venus is 10.8×101010.8\times10^{10}10.8×1010 m . Its rotation period is 224.7 days. What is its orbital speed.

  12. Which of the following shows correctly the relationship between the period of orbit, T and radius of orbit, r, of a planet?

  13. Diagram shows the planet Saturn with its four satellites. R and T are orbital radius and orbital period of satellites respectively. Which of the following statements is true?

  14. For a planet revolving around the Sun, the time period of the planet depends on

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