Loading ...
Frolov V. A. GTPase cycle of dynamin is coupled to membrane squeeze and releaseleadingto spontaneous fission
1908426918.GTPase cycle of dynamin is coupled to membrane squeeze and releaseleadingto spontaneous fission
item 1908426910.GTPase cycle of dynamin is coupled to membrane squeeze and releaseleadingto spontaneous fission
Academic Article GTPase cycle of dynamin is coupled to membrane squeeze and releaseleadingto spontaneous fission
EvseevS. L. SchmidJ. Zimmerberg2008GTPase cycle of dynamin is coupled to membrane squeeze and releaseleadingto spontaneous fission
( 1941 ) ... the Russian physicists G.N. Flerov and K.A. Petrzhak in uranium-238(passive) discovered ... bySpontaneous fission
( 1941 ) ... the Russian physicists G.N. Flerov and K.A. Fission - track dating(passive) discovered ... bySpontaneous fission ,
xenon ... a nuclear fuel componentcausesspontaneous fission
PubMed - indexed for MEDLINE ] Related citations Select item 190842698.GTPase cycle of dynamin is coupled to membrane squeeze and releaseleadingto spontaneous fission
other warheads and high transparency to X - rays.[33(passive) caused byspontaneous fission
other warheads and high transparency to X - rays.[34(passive) caused byspontaneous fission
Soviet physicist Georgy Flyorov and Konstantin Petrzhakdiscoveredthe process of spontaneous fission
Soviet physicist Georgy Flerov,[32(passive) was discovered bySpontaneous fission
Soviet physicist Georgy Flerov,[28(passive) was discovered bySpontaneous fission
Soviet physicist Georgy Flerov,[31(passive) was discovered bySpontaneous fission
Soviet physicist Georgy Flerov,[34(passive) was discovered bySpontaneous fission
View at PubMedView at PublisherGTPase cycle of dynamin is coupled to membrane squeeze and releaseleadingto spontaneous fission
two Russians , [ Georgy ] Flyorov and [ Konstantin(passive) was discovered byThe spontaneous fission
Soviet physicist Georgy Flerov , [ 43 ] a leading scientist at JINR ... and thus it was a " hobbyhorse " for the facility(passive) was discovered bySpontaneous fission
The scheme involved fuelling up a reactor , then using the neutrons to bombard thorium — and breeding it into ... a lot of alpha radiationcan triggerspontaneous fission
the internal structure of the 288115 nucleus — with odd numbers of protons and neutronspreventsspontaneous fission
Neutrons that exist inside the reactor hitting uranium or plutonium ” “ Curium-244 , -242causing‘ spontaneous fission
a chain reactionresultingfrom spontaneous fission
electrostatic repulsion tearing the nucleus apart(passive) is caused bySpontaneous fission
to split itself apartcausinga spontaneous fission
Radioactive decayleadingto spontaneous fission
in /sup 238 / U(passive) was discoveredSpontaneous fission
external radiation like cosmic rays(passive) can also be triggered bySpontaneous fission
the impact of one or more protons into a target nucleimay resultin spontaneous fission
the reductioresultingfrom spontaneous fission
an opportunityto createspontaneous fission
fission productsresultingfrom spontaneous fission
many SOI combinationsresultin spontaneous fission
( 1941 ) ... the … Universalium spontaneous radiation(passive) discovered ... bySpontaneous fission
in 1940(passive) was discoveredSpontaneous fission
explosion(passive) caused byspontaneous fission
the speed of light within the objectcausingspontaneous fission of the atoms
the xenon ... curium - a nuclear fuel componentcausesspontaneous fission
a charge sufficientto causespontaneous fission
This function is calledto triggera spontaneous fission
the strong coincidence signal(passive) created bythe strong coincidence signal
a premature chain reactionwill ... causea premature chain reaction
xenon-135createdxenon-135
in 1940 by Flyorov , Petrzhak , and Kurchatov[3 ... in Moscow ... when they confirmed that , without bombardment by neutrons , the fission rate of uranium was indeed negligible , as predicted by Niels Bohrwas discoveredin 1940 by Flyorov , Petrzhak , and Kurchatov[3 ... in Moscow ... when they confirmed that , without bombardment by neutrons , the fission rate of uranium was indeed negligible , as predicted by Niels Bohr
Such etched tracks ,(passive) created bySuch etched tracks ,
in 1940 by " Flyorov , " Petrzhak and " Kurchatov[3 ... in Moscow ... when they decided to confirm that , without bombardment by neutrons , the fission rate of uranium was indeed negligible , as predicted by " Niels Bohrwas discoveredin 1940 by " Flyorov , " Petrzhak and " Kurchatov[3 ... in Moscow ... when they decided to confirm that , without bombardment by neutrons , the fission rate of uranium was indeed negligible , as predicted by " Niels Bohr
in 1940 by Flyorov , Petrzhak and Kurchatov in Moscow , when they decided to confirm that , without bombardment by neutrons , the fission rate of uranium was indeed negligible , as predicted by Niels Bohrwas discoveredin 1940 by Flyorov , Petrzhak and Kurchatov in Moscow , when they decided to confirm that , without bombardment by neutrons , the fission rate of uranium was indeed negligible , as predicted by Niels Bohr
in 1940 by Fwyorov , Petrzhak , and Kurchatov[3 ... in Moscow ... when dey confirmed dat , widout bombardment by neutronswas discoveredin 1940 by Fwyorov , Petrzhak , and Kurchatov[3 ... in Moscow ... when dey confirmed dat , widout bombardment by neutrons
three neutrons that go on to create hundreds of fissionscreatingthree neutrons that go on to create hundreds of fissions
in the release of spare neutrons , which can cause other atoms to splitusually resultsin the release of spare neutrons , which can cause other atoms to split
another phenomenon called " radiation " both directly and indirectlycausesanother phenomenon called " radiation " both directly and indirectly
weak nuclear explosions(passive) caused byweak nuclear explosions
a bit of everything that comes out of a reactor very naturallycreatesa bit of everything that comes out of a reactor very naturally
to the decayleadsto the decay
it off to soon is too bigwill setit off to soon is too big
it to pre - triggercould causeit to pre - trigger
premature ignition and thus lower the explosive yieldcan causepremature ignition and thus lower the explosive yield
in a lethal flash of radiationcan resultin a lethal flash of radiation
to the cleavage of carbon - carbon or carbon - oxygen bonds in lignin subunitsleadto the cleavage of carbon - carbon or carbon - oxygen bonds in lignin subunits
such nuclei to disintegrate in a model neglecting such factorswould ... causesuch nuclei to disintegrate in a model neglecting such factors
different minerals(passive) caused bydifferent minerals
in daughter products like Pu and uraniumresultingin daughter products like Pu and uranium
predetonation ... causing the bomb to fizzle rather than fissiondoes causepredetonation ... causing the bomb to fizzle rather than fission
muscovite mica(passive) caused bymuscovite mica
the radiation damage in the structurecausesthe radiation damage in the structure
radioactive xenon(passive) to have been created byradioactive xenon
fast neutrons(passive) created byfast neutrons
the limit of elements that can exist at Z = 100 ( fermiumsetsthe limit of elements that can exist at Z = 100 ( fermium
no alarmshould causeno alarm
in neutron emissionsresultin neutron emissions
it off prematurely ... before it could be compacted enoughwould setit off prematurely ... before it could be compacted enough
Dorin N Poenaruwas discoveredDorin N Poenaru
a reaction before intendedcould triggera reaction before intended
in measurable excesses of some Xe isotopesresultsin measurable excesses of some Xe isotopes
to the presence of minute quantities of the extremely rare elements technetium ( 200 pg / kg ) and promethium ( 4 fg / kgleadsto the presence of minute quantities of the extremely rare elements technetium ( 200 pg / kg ) and promethium ( 4 fg / kg
very littlecontributesvery little
other problems for shelf life as suggestedmay ... causeother problems for shelf life as suggested