Suppose you monitor a large number (many thousands) of stars over a period of 3 years, searching for planets through the transit method. which of the following are necessary for this program to detect an extrasolar planet around one of these stars? select all that apply. select all that apply. the planet must have an orbital period of less than about 1 year. you must be able to precisely measure variations in the star's brightness with time. the planet must have an orbital period of more than about 3 years. as seen from earth, the planet's orbit must be nearly face-on (perpendicular to our line-of-sight). you must be able to precisely measure variations in the planet's brightness with time. as seen from earth, the planet's orbit must be seen nearly edge–on (in the plane of our line-of-sight). you must repeatedly obtain spectra of the planet itself. you must repeatedly obtain spectra of the star that the planet orbits. submitrequest answer
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Physics, 21.06.2019 14:10, mbonham481
Gam radio signals can usually be heard behind a hill, but fm often cannot. that is, am signals bend more than fm. explain. (radio signals, as we shall see, are carried by electromagnetic waves whose wavelength for am is typically 200 to 600 m and for fm about 3 m.)
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Physics, 21.06.2019 18:20, gordwindisney3747
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The graph describes the motion of an object. the object moves with from a to b. it from b to c. it moves with from c to d.
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Suppose you monitor a large number (many thousands) of stars over a period of 3 years, searching for...
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