The light from stars can tell us what type of star it is (our Sun is a G type), the stars spectrum can tell us what elements are in the star, and its intristic brightness can help us determine how far away it is. Also, if there is a wobble in the star, or a change it the stars brightness can tell us if it has a planet.
Yes, any star with heavenly bodie/S will exert a gravitational pull on the star. That Is actually how we discover planets orbiting stars outside of our solar system by looking for a slight wobble.
The first discoveries of extra-solar planets were made by looking for a slight wobble in the motion of the star. In the last couple of years, scientists have been able to detect the change in the spectrum of a star as a planet passes in front of it, and be able to analyze the atmosphere of that planet.
It amounts to 0.7 arcseconds (about 15 meters on the Earth's surface) and has a period of 433 days.
stars stars stars stars
they study the stars, watch them for long periods to discover if they wobble. if they do then they have a gravitational pull on a planet
Wobble Wobble was created on 2000-03-28.
We can, except we see them by the wobble of the star. The planet itself is too faint for our telescopes to see, but the gravitational pull the planet places on the star causes it to wobble and we can observe that through time-lapse observations.
Vic is the artistwho made The Wobble.
That is the correct spelling of the word "wobble" (to teeter or waver).
Wobble is a verb. It describes an action.
The light from stars can tell us what type of star it is (our Sun is a G type), the stars spectrum can tell us what elements are in the star, and its intristic brightness can help us determine how far away it is. Also, if there is a wobble in the star, or a change it the stars brightness can tell us if it has a planet.
because you are gay
They go wobble wobble then they poo in their pants
Yes, any star with heavenly bodie/S will exert a gravitational pull on the star. That Is actually how we discover planets orbiting stars outside of our solar system by looking for a slight wobble.
Fred Wobble-Bottom=Jazelle Francis
Jah Wobble was born on August 11, 1958.