100000000000 years from now
The scientist that made highly accurate measurements that first disapproved the theories of Ptolmy and Copernicus was called Brahe.
Sputnik-1
copernicous
sir Issac newton
This is Kepler's First Law.
100000000000 years from now
The scientist that made highly accurate measurements that first disapproved the theories of Ptolmy and Copernicus was called Brahe.
The first known measurements were presumably invented to allow for fair trade and accurate accounting
Scientists are engaged in a process of learning from nature, and that first requires accurate observation. Accurate and meaningful measurements give more useful information than sloppy or meaningless measurements. Sometimes a very small difference in a measured amount is the clue to what is really happening.
Copernicus's theory did not fail but it was not as accurate as the Kepler model because it did not include elliptical orbits for the planets, as Kepler's model did. However the data for calculating the elliptical orbits did not become available until well after Copernicus's death so he had no chance of knowing about this change. Copernicus's model which used circles and epicycles was accurate to the standard of the observations that were available to him.
There are basically three types of orbits.* Sun Synchronous Orbits * Polar Orbits * Geosynchronous Orbits There are variations on these types. Visit related link below.
The measurements of an embryo/fetus are fairly accurate.. Especially within the first 20 weeks. It's probable that you estimated how far along you were wrong.
A replacement water valve can be found at any department store. Home Depot would be a good first step in finding the one required for the job. Accurate measurements will be needed first.
the egyptians and the babilonians
homosexuals
Accurate is stressed on the first syllable.
The earlier and ultrsound is performed the more accurate it is. Usually around 7 weeks. But any time in the first 20 weeks is accurate to within 5 days. After this babies weights start to vary too much the estimate to be as accurate.