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Time Travel Discussion
What is the very nature of Time?
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<blockquote data-quote="TimeFlipper" data-source="post: 184653" data-attributes="member: 6456"><p>Iam very pleased that you did bring up your previous posting where you, "reluctantly" did agree with me that Neutrinos obviously "do" exist, or they wouldnt have been detected!...So there we are, Neutrinos, according to your very good self, do interact with other particles...BUT WAIT, you then you go on to say TODAY that ( Even if it happened, that interaction would NOT be detectable, because of the difference in masses), and then you conclude by saying, (So essentially no. Neutrinos dont interact with anything. Any interactions are too rare for words like "interact") <img src="data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///yH5BAEAAAAALAAAAAABAAEAAAIBRAA7" class="smilie smilie--sprite smilie--sprite54" alt=":LOL:" title="Laugh :LOL:" loading="lazy" data-shortname=":LOL:" /> You completely contradicted yourself Hartey!!! <img src="data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///yH5BAEAAAAALAAAAAABAAEAAAIBRAA7" class="smilie smilie--sprite smilie--sprite46" alt=":eek:" title="Eek! :eek:" loading="lazy" data-shortname=":eek:" /><img src="data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///yH5BAEAAAAALAAAAAABAAEAAAIBRAA7" class="smilie smilie--sprite smilie--sprite55" alt=":ROFLMAO:" title="ROFL :ROFLMAO:" loading="lazy" data-shortname=":ROFLMAO:" />..</p><p></p><p>You appear to be in some form of crisis Hartey, after all you do hate to admit being being wrong...When Fermilab particle physicists, who are far more informed than you obviously are, tell me and anyone else who wishes to find out, that Neutrinos DO interact with other particles and therefore, if you still want to try and argue about it, take it up with them at Fermilab and all the resident Phd and Professors at that facility <img src="data:image/gif;base64,R0lGODlhAQABAIAAAAAAAP///yH5BAEAAAAALAAAAAABAAEAAAIBRAA7" class="smilie smilie--sprite smilie--sprite45" alt=":D" title="Big grin :D" loading="lazy" data-shortname=":D" />..</p><p></p><p>Proof of interactions between Neutrinos and Other Particles>>>>>It is the feeble interaction of Neutrinos with matter that makes them uniquely valuable as astronomical messengers...Unlike photons or charged particles, neutrinos can emerge from deep inside their sources and travel across the Universe without interference...They are not deflected by interstellar magnetic fields and are not absorbed by intervening matter...However, this same trait makes cosmic neutrinos extremely difficult to detect, immense instruments are required to find them in sufficient numbers to trace their origin..</p><p></p><p>Neutrinos can interact via the neutral current (involving the exchange of a Z bosun) or charged current (involving the exchange of a W bosun) weak interactions..</p><p></p><p>In a neutral current interaction, the neutrino leaves the detector after having transferred some of its energy and momentum to a target particle..All three neutrino flavors can participate regardless of the neutrino energy..However, no neutrino flavor information is left behind.</p><p></p><p>In a charged current interaction, the neutrino transforms into its partner lepton (electron muon or tau) However, if the Neutrino does not have sufficient energy to create its heavier partners mass, the charged current interaction is unavailable to it..Solar and reactor Neutrinos have enough energy to create electrons...Most accelerator-based neutrino beams can also create muons, and a few can create taus...A detector that distinguishes among these leptons can reveal the flavor of the incident Neutrino in a charged current interaction...Because the interaction involves the exchange of a charged boson, the target particle also changes character (eg Neutron to Proton)..</p><p></p><p>Below is a photo taken from NOVA, the Neutrino Detector at Fermilab, showing particles produced by a Neutrino Interaction..</p><p></p><p>[ATTACH=full]8303[/ATTACH]</p></blockquote><p></p>
[QUOTE="TimeFlipper, post: 184653, member: 6456"] Iam very pleased that you did bring up your previous posting where you, "reluctantly" did agree with me that Neutrinos obviously "do" exist, or they wouldnt have been detected!...So there we are, Neutrinos, according to your very good self, do interact with other particles...BUT WAIT, you then you go on to say TODAY that ( Even if it happened, that interaction would NOT be detectable, because of the difference in masses), and then you conclude by saying, (So essentially no. Neutrinos dont interact with anything. Any interactions are too rare for words like "interact") :LOL: You completely contradicted yourself Hartey!!! :eek::ROFLMAO:.. You appear to be in some form of crisis Hartey, after all you do hate to admit being being wrong...When Fermilab particle physicists, who are far more informed than you obviously are, tell me and anyone else who wishes to find out, that Neutrinos DO interact with other particles and therefore, if you still want to try and argue about it, take it up with them at Fermilab and all the resident Phd and Professors at that facility :D.. Proof of interactions between Neutrinos and Other Particles>>>>>It is the feeble interaction of Neutrinos with matter that makes them uniquely valuable as astronomical messengers...Unlike photons or charged particles, neutrinos can emerge from deep inside their sources and travel across the Universe without interference...They are not deflected by interstellar magnetic fields and are not absorbed by intervening matter...However, this same trait makes cosmic neutrinos extremely difficult to detect, immense instruments are required to find them in sufficient numbers to trace their origin.. Neutrinos can interact via the neutral current (involving the exchange of a Z bosun) or charged current (involving the exchange of a W bosun) weak interactions.. In a neutral current interaction, the neutrino leaves the detector after having transferred some of its energy and momentum to a target particle..All three neutrino flavors can participate regardless of the neutrino energy..However, no neutrino flavor information is left behind. In a charged current interaction, the neutrino transforms into its partner lepton (electron muon or tau) However, if the Neutrino does not have sufficient energy to create its heavier partners mass, the charged current interaction is unavailable to it..Solar and reactor Neutrinos have enough energy to create electrons...Most accelerator-based neutrino beams can also create muons, and a few can create taus...A detector that distinguishes among these leptons can reveal the flavor of the incident Neutrino in a charged current interaction...Because the interaction involves the exchange of a charged boson, the target particle also changes character (eg Neutron to Proton).. Below is a photo taken from NOVA, the Neutrino Detector at Fermilab, showing particles produced by a Neutrino Interaction.. [ATTACH type="full" alt="8303"]8303[/ATTACH] [/QUOTE]
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