Difference between revisions of "Cockcroft and Walton Experiment"

Revision as of 05:04, July 16, 2018

This experiment by John Cockcroft and Ernest Walton is championed by liberals as being confirmation of Albert Einstein's famous formula E=mc²,^[1] even though no such claim was made at the time and experimental error was too large for it confirm the formula. Moreover, an isolated experiment such as this could not demonstrate the sweeping claim made by the formula.

Conducted in April 1932 at the University of Cambridge's Cavendish Laboratory in England, the physicists Cockroft and Walton successfully split lithium atom nuclei by colliding them with artificially accelerated protons. This experiment is general hailed as being the first transmutation of an element using artificially accelerated particles, for which they were honored with the Nobel Prize in 1951.^[2]

Cockcroft and Walton "did not see their experiments as a test of Einstein's mass-energy relationship; rather, they simply used that relationship in their analysis, assuming it to be valid "^[3] The E=mc² equation had in fact been known, and verified for nuclear decays, more than 20 years earlier. But this experiment appears to be the first to verify the equation for artificially accelerated particles. The first to stress this aspect of the experiment was the eminent physicist Kenneth Bainbridge in 1933:

The gain in energy in the reaction is 16.97×10⁶ e-volts, an energy equivalent to 0.0182 mass units on the O¹⁶ scale if ΔE =C²Δm. Taking Aston's values for the mass of helium and hydrogen and the author's value, 7.0146±0.0006 for Li⁷, the mass change is 0.0181 ± 0.0006 in the reaction which may be represented as Li⁷ + p → 2α. Within the probable error of the measurements the equivalence of mass and energy is satisfied. --Kenneth Bainbridge

Neither the Nobel Prize committee nor the prize recipients made the claim that their experiment verified of Albert Einstein's famous E=mc² formula.^[4]^[5]

References

↑ Mike Poole Cockcroft's subatomic legacy: splitting the atom, Cern Courier, Nov 20, 2007
↑ The Nobel Prize in Physics 1951, Nobelprize.org, 23 Jan 2013
↑ Roger H. Stuewer: Mass-Energy in Einstein in Context, Cambridge University Press
↑ The Center for History of Physics: Einstein: Image and Impact, © 1996-2004 - American Institute of Physics
↑ Louise Boylan: Cockroft and Walton Experiment: Converting Mass into Energy

[1] Mike Poole Cockcroft's subatomic legacy: splitting the atom, Cern Courier, Nov 20, 2007

[2] The Nobel Prize in Physics 1951, Nobelprize.org, 23 Jan 2013

[3] Roger H. Stuewer: Mass-Energy in Einstein in Context, Cambridge University Press

[4] The Center for History of Physics: Einstein: Image and Impact, © 1996-2004 - American Institute of Physics

[5] Louise Boylan: Cockroft and Walton Experiment: Converting Mass into Energy

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Revision as of 16:34, July 15, 2018 (view source) SamHB (Talk \| contribs) (Remove the "verification is impossible" sentence. Its referent (the equation presumably being verified) get removed from this page 5 years ago.) ← Older edit		Revision as of 05:04, July 16, 2018 (view source) Aschlafly (Talk \| contribs) (even though no such claim was made at the time and experimental error was too large for it confirm the formula. Moreover, an isolated experiment such as this could not demonstrate the sweeping claim made by the formula.) Newer edit →
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−	This '''experiment''' by [[John Cockcroft]] and [[~~Ernest Walton~~]] ~~is generally seen~~ as ~~the first~~ confirmation of [[Albert Einstein]]'s famous formula ''[[E=mc²]]''.<ref>[http://cerncourier.com/cws/article/cern/31864 Mike Poole ''Cockcroft's subatomic legacy: splitting the atom''], Cern Courier, Nov 20, 2007</ref>	+	This '''experiment''' by John Cockcroft and Ernest Walton is championed by [[liberals]] as being confirmation of [[Albert Einstein]]'s famous formula ''[[E=mc²]]'',<ref>[http://cerncourier.com/cws/article/cern/31864 Mike Poole ''Cockcroft's subatomic legacy: splitting the atom''], Cern Courier, Nov 20, 2007</ref> even though no such claim was made at the time and experimental error was too large for it confirm the formula. Moreover, an isolated experiment such as this could not demonstrate the sweeping claim made by the formula.

	Conducted in April 1932 at the [[University of Cambridge]]'s [[Cavendish Laboratory]] in England, the physicists Cockroft and Walton successfully split [[lithium]] atom [[nucleus\|nuclei]] by colliding them with artificially accelerated protons. This experiment is general hailed as being the first [[transmutation]] of an element using artificially accelerated particles, for which they were honored with the [[Nobel Prize]] in 1951.<ref>[http://www.nobelprize.org/nobel_prizes/physics/laureates/1951/ ''The Nobel Prize in Physics 1951''], Nobelprize.org, 23 Jan 2013</ref>		Conducted in April 1932 at the [[University of Cambridge]]'s [[Cavendish Laboratory]] in England, the physicists Cockroft and Walton successfully split [[lithium]] atom [[nucleus\|nuclei]] by colliding them with artificially accelerated protons. This experiment is general hailed as being the first [[transmutation]] of an element using artificially accelerated particles, for which they were honored with the [[Nobel Prize]] in 1951.<ref>[http://www.nobelprize.org/nobel_prizes/physics/laureates/1951/ ''The Nobel Prize in Physics 1951''], Nobelprize.org, 23 Jan 2013</ref>

Difference between revisions of "Cockcroft and Walton Experiment"

Revision as of 05:04, July 16, 2018

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