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Extra Solar Planet Detection by the Doppler Detection method The following slides are a summary of the classroom presentation annotating the Doppler Detection.

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Presentation on theme: "Extra Solar Planet Detection by the Doppler Detection method The following slides are a summary of the classroom presentation annotating the Doppler Detection."— Presentation transcript:

1 Extra Solar Planet Detection by the Doppler Detection method The following slides are a summary of the classroom presentation annotating the Doppler Detection Equations from the Exoplanets.Org web site. There are seven points made in the following presentation. Know them!

2 Please be able to explain how each of the following seven steps are made beginning with the observation of a wobble and ending with an estimate of the planet’s mass.

3 1.Many separate measurements of a star’s velocity are made over a long period of time.

4 2. If the star “wobbles” then it has an unseen companion causing the wobble. It may be a planet or a low-mass star.

5 3. The period of the wobble equals the orbital period of the unseen companion.

6 4. Using Kepler’s 3’rd law the semi-major axis r of the unseen companion’s orbit can be calculated from the period of its orbit.

7 5. Using the equation for the orbital velocity, the unseen companion’s orbital velocity v PL can be calculated from its orbital semi-major axis.

8 6. Using the conservation of momentum principle, the mass of the unseen companion M PL can be estimated from the planet’s orbital velocity, the mass of the star and the star’s observed maximum velocity, K

9 7. The estimated mass is only a lower limit for the mass because the orbital inclination i is unknown. The planet’s mass may be larger.

10 Summary of Steps in the Doppler Detection method 1.Many separate measurements of a star’s velocity are made over a long period of time. 2.If the star “wobbles” then it has an unseen companion causing the wobble. It may be a planet or a low-mass star. 3. The period P of the wobble equals the orbital period of the unseen companion. 4.Using Kepler’s 3’rd law the semi-major axis r of the unseen companion’s orbit can be calculated from the period of its orbit. 5.Using the equation for the orbital velocity, the unseen companion’s orbital velocity v PL can be calculated from its orbital semi-major axis. 6.Using the conservation of momentum principle, the mass of the unseen companion M PL can be estimated from the planet’s orbital velocity, the mass of the star and the star’s observed maximum velocity, K 7.The estimated mass is only a lower limit for the mass because the orbital inclination i is unknown and cannot be determined from the Earth. The planet’s mass may be larger.

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