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  • #16
    Re: Hello

    Will do - thanks.

    Gosh, you're a friendly lot, aren't you?

    Comment


    • #17
      Re: Hello

      :kiss::kiss::kiss::kiss::kiss:


      :hugsss:

      uke:


      :roll:

      Comment


      • #18
        Re: Hello

        Originally posted by Jelly View Post
        Hi

        Hoping this site is a little less repressive and less about the Mods!

        Jelly x
        Mods??? What are they??? We don't have those...we have dogs!:beagle:

        Welcome jelly.....now I'm dying to know who you are/were......

        C'mon give us a clue?? msl:
        "Although scalar fields are Lorentz scalars, they may transform nontrivially under other symmetries, such as flavour or isospin. For example, the pion is invariant under the restricted Lorentz group, but is an isospin triplet (meaning it transforms like a three component vector under the SU(2) isospin symmetry). Furthermore, it picks up a negative phase under parity inversion, so it transforms nontrivially under the full Lorentz group; such particles are called pseudoscalar rather than scalar. Most mesons are pseudoscalar particles." (finally explained to a captivated Celestine by Professor Brian Cox on Wednesday 27th June 2012 )

        I am proud to have co-founded LegalBeagles in 2007

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        Comment


        • #19
          Re: Hello

          we have dogs
          Speak for yerself!!!!!

          Comment


          • #20
            Re: Hello

            OI!!!!:slap:unch::fight::shovel::alchie:
            "Although scalar fields are Lorentz scalars, they may transform nontrivially under other symmetries, such as flavour or isospin. For example, the pion is invariant under the restricted Lorentz group, but is an isospin triplet (meaning it transforms like a three component vector under the SU(2) isospin symmetry). Furthermore, it picks up a negative phase under parity inversion, so it transforms nontrivially under the full Lorentz group; such particles are called pseudoscalar rather than scalar. Most mesons are pseudoscalar particles." (finally explained to a captivated Celestine by Professor Brian Cox on Wednesday 27th June 2012 )

            I am proud to have co-founded LegalBeagles in 2007

            If we have helped you we'd appreciate it if you can leave a review on our Trust Pilot page

            If you wish to book an appointment with me to discuss your credit agreement, please email kate@legalbeaglesgroup. com

            Comment


            • #21
              Re: Hello

              I still post and don't want to reveal my identity at this stage.

              Let's just say I've been around a while, I'm not a mod or a site-helper and feel i ahve been slightly suckered by them and now feel quite disillusioned with the whole ethos.

              It now seems to be all about posting in the bear-garden and not actually replying to any posts. When psots are replyied to, they are quite caustic in their response and I've sort of gone along with it, and as i've said, been sucked into it too. But i'm just not too happy about the way it's going so thought i would check this site out as well.

              Comment


              • #22
                Re: Hello

                Thats ok! No need to reveal any more......most people are in exactly the same boat.

                We all got a bit disillusioned with similar issues and it is true that most of the mods seem to hang out in the bear garden chatting with members who clearly have no other purpose in life other than becoming a Pink!

                Since the OFT test case was launched we have been trying to collate information to fight back and find alternatives.....we have had almost zero co-operation and help from OTR...they just don't answer queries or help develop new strategies.

                You are very welcome here Jelly. I hope you can help out with our fight against unscrupulous banks.:okay:
                "Although scalar fields are Lorentz scalars, they may transform nontrivially under other symmetries, such as flavour or isospin. For example, the pion is invariant under the restricted Lorentz group, but is an isospin triplet (meaning it transforms like a three component vector under the SU(2) isospin symmetry). Furthermore, it picks up a negative phase under parity inversion, so it transforms nontrivially under the full Lorentz group; such particles are called pseudoscalar rather than scalar. Most mesons are pseudoscalar particles." (finally explained to a captivated Celestine by Professor Brian Cox on Wednesday 27th June 2012 )

                I am proud to have co-founded LegalBeagles in 2007

                If we have helped you we'd appreciate it if you can leave a review on our Trust Pilot page

                If you wish to book an appointment with me to discuss your credit agreement, please email kate@legalbeaglesgroup. com

                Comment


                • #23
                  Re: Hello

                  I'd be happy to.

                  Comment


                  • #24
                    Re: Hello

                    Welcome Jelly, please to see you come from OTR to use the correct terminology. I love guessing true identities so the fun will now begin. I think in one way of the other we are from OTR but have grown more outside of what was at a certain point in time a stressful and distressing time for all concerned. Welcome and as everyone has said the rest of the things previously I shall not repeat it.

                    Comment

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