The days of a "fixed" kilogram seem to be numbered, with moves afoot to set our SI unites based on fundamental constants.
Showing posts with label Mass. Show all posts
Showing posts with label Mass. Show all posts
Friday, 29 August 2014
Wednesday, 9 October 2013
Higgs Boson Discovery Wins Nobel Prize for Physics
Peter Higgs and Francois Englert win Nobel Prize in Physics. Want to know what makes the Higgs Boson Nobel Prize-worthy? Brian Greene explains.
Saturday, 28 September 2013
E=mc² is wrong? - Sixty Symbols
It's the most famous science equation in history... but E=mc² is not technically correct.
Monday, 15 April 2013
World's Roundest Object!
The world's roundest object helps solve the longest running problem in measurement -- how to define the kilogram.
A kilogram isn't what it used to be. Literally. The original name for it was the 'grave', proposed in 1793 but it fell victim to the French Revolution like its creator, Lavoisier. So begins the tale of the most unusual SI unit. The kilogram is the only base unit with a prefix in its name, and the only one still defined by a physical artifact, the international prototype kilogram or IPK.
But the problem with this definition has long been apparent. The IPK doesn't seem to maintain its mass compared to 40 similar cylinders minted at the same time. The goal is therefore to eliminate the kilogram's dependence on a physical object. Two main approaches are being considered to achieve this end: the Avogadro Project and the Watt Balance.
The Avogadro project aims to redefine Avogadro's constant (currently defined by the kilogram -- the number of atoms in 12 g of carbon-12) and reverse the relationship so that the kilogram is precisely specified by Avogadro's constant. This method required creating the most perfect sphere on Earth. It is made out of a single crystal of silicon 28 atoms. By carefully measuring the diameter, the volume can be precisely specified. Since the atom spacing of silicon is well known, the number of atoms in a sphere can be accurately calculated. This allows for a very precise determination of Avogadro's constant.
Special thanks to Katie Green, Dr. David Farrant, the CSIRO, and the National Measurment Institute for their help. Thanks also to Nessy Hill for filming and reviewing earlier drafts of this video.
Music by Kevin McLeod (incompetech.com) Decision, Danse Macabre, Scissors
Other Veritasium videos
But the problem with this definition has long been apparent. The IPK doesn't seem to maintain its mass compared to 40 similar cylinders minted at the same time. The goal is therefore to eliminate the kilogram's dependence on a physical object. Two main approaches are being considered to achieve this end: the Avogadro Project and the Watt Balance.
The Avogadro project aims to redefine Avogadro's constant (currently defined by the kilogram -- the number of atoms in 12 g of carbon-12) and reverse the relationship so that the kilogram is precisely specified by Avogadro's constant. This method required creating the most perfect sphere on Earth. It is made out of a single crystal of silicon 28 atoms. By carefully measuring the diameter, the volume can be precisely specified. Since the atom spacing of silicon is well known, the number of atoms in a sphere can be accurately calculated. This allows for a very precise determination of Avogadro's constant.
Special thanks to Katie Green, Dr. David Farrant, the CSIRO, and the National Measurment Institute for their help. Thanks also to Nessy Hill for filming and reviewing earlier drafts of this video.
Music by Kevin McLeod (incompetech.com) Decision, Danse Macabre, Scissors
Other Veritasium videos
Tuesday, 29 January 2013
Saturday, 6 October 2012
Hewitt-Drew-it! 17.Mass/Weight
Paul distinguishes between mass and weight in a video from his classroom, then breaks strings attached to a ball in ways that clarify the distinction.
Other Hewitt-Drew-it! videos
Other Hewitt-Drew-it! videos
Thursday, 29 March 2012
Sunday, 28 August 2011
Saturday, 15 January 2011
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