If little earths could be strung about the equator of the sun like a string of pearls, how many pearls would there be in the necklace?

Question

Levi Acosta · Accepted Answer

345

This wonderful imagination appeals to me, which is why I responded right away. of the query. Given that the equatorial radius of the sun is 696342 km, the equator's length is #2piX686342# km. The Earth has a diameter of 12756 kilometers. Thus, in order to adorn the Sun's equator-neck like pearls, The quantity of pearls (Earths) needed is going to be #(2piX696342+6378)/(12756)# #=345.66# or 345 (lower rounding) My response, if it is a genuine pearl, is 514.7348027 billions. The radius of Earth has been added for better accuracy. My creativity is limitless. For more than a year, the Earth has been continuously losing pearls from behind. How How many people made up the so-called orbit necklace? 20 mm wide Tahiti pearls are rare. Pearl sizes typically range from 6 mm–11 mm, so I use an average of 8.5 mm to determine the pearl's size. as a component of the virtual orbit-lacing of the Earth's almost a circular) orbit, with a radius of 1 AU = 149597871 km. Answer for my question = #2pi(149597871 km)/(8.5 mm)# In addition, I picture Mother Earth starting with starter lace and creating a spiral orbit-lace without shattering the pearls in orbit.

Claire Anctil · Answer

undefined Assuming "little Earths" refers to objects with the same diameter as Earth, approximately 109 Earths could fit along the equator of the Sun.